Mialintsoa Aroniaina Randriamananjara, Nicole J. Fenton, Annie DesRochers. Understory vegetation diversity and composition in intensively managed plantations compared to extensively managed forests 2024. New Forests 5
DOI : 10.1007/s11056-024-10071-9
The benefits of plantations for wood production are well known, but it is unclear whether they have a clear negative effect on biodiversity, compared to natural forests. It is also unclear how overstory species identity (i.e., exotic, compared to native) would interact with the simple plantation effects on understory vegetation biodiversity. Here, we assessed bryophyte, lichen, and vascular plant diversity and composition in mono-specific and mixed plantations of exotic and native hybrid poplars (Populus spp.) and exotic and native spruces (Picea spp.). We compared these plantations to reference forests with similar overstory types (coniferous, deciduous, mixed) to those of the plantations in the southern boreal forest of Quebec. We also assessed whether the overstory species identity in plantations influenced understory vegetation biodiversity compared to reference forests. Our results show that plantations were not biological deserts, since mixed plantations contained similar bryophyte and vascular plant diversity as reference mixed native forests. The presence of native spruces and exotic poplars in mixed plantations increased bryophyte and vascular plant diversity respectively. This suggests that the influence of plantations on understory species diversity, compared to reference forests, was linked to the overstory species identity. Plantations were associated with ruderal plant species, while reference forests were composed of forest species. Bryophyte composition was similar in plantations and reference forests, while lichen species were only present in plantations. Our findings highlight that plantations, especially mixtures of white spruce and exotic poplar, are a promising option for planting strategies to enhance biodiversity.
Geofroy Zanin, Annie DesRochers, Nicole J. Fenton. Des friches agricoles aux peupliers hybrides, peut-on accroitre la production de bois sans nuire à la biodiversité végétale? 2024. Le Couvert Boréal 42
Éliane Grant, Nicole J. Fenton, Hugo Asselin. Les milieux humides : un élément central de la relation entre les Autochtones et l’orignal 2024. Le Couvert Boréal 10
David MacLean, Thomas Baglole, Maurane Bourgouin, Billie Chiasson, Jiban C. Deb, Maitane Erdozain, Remus J. James, Lauren Negrazis, Louka Tousignant, Phil Wiebe, Greg Adams, Joseph R. Bennett, Erik J.S. Emilson, Nicole J. Fenton, Graham J. Forbes, Michelle A. Gray, Karen A. Kidd, Andrew McCartney, Gaetan Moreau, Kevin B. Porter, Osvaldo Valeria, Lisa Venier. Predicting present and future habitats using LiDAR to integrate research and monitoring with landscape analyses 2024. For. Chron. 194
DOI : 10.5558/tfc2024-024
Managed forests contribute to both economic and non-timber values, but the ecological role of managed, including planted, forests to biodiversity objectives at the landscape scale needs to be better understood. In this project in collaboration with J.D. Irving, Limited, we: 1) used airborne LiDAR and field data to identify terrestrial habitats; 2) monitored selected taxa by 18 stand type/seral stage habitat types in intensively and extensively managed forests and reserves; 3) assessed effects of management intensity on water quality and aquatic habitat; and 4) projected forest and wildlife habitat under planned management and natural disturbance scenarios. Taxa studied included songbirds, bryophytes and beetle species associated with mature-overmature forests, and several listed ground vegetation species. LiDAR-based enhanced forest inventory provided forest structure variables that improved bird habitat models and spatial predictions of bird habitat, metrics explaining bryophyte composition and richness, and variability in beetle abundance and richness. There was no evidence of negative landscape-level effects of increasing management intensity on bird communities in mature forest stands, suggesting that managed spruce-fir-tolerant hardwood landscapes provide habitat for bird species that need old forest. Richness, diversity, and composition of bryophyte guilds in reference stands in Mount Carleton Provincial Park unmanaged reserve did not differ from stands in the intensively managed District. The landscape focus and stratification into stand type/seral stages were important to understand habitat requirements. Catchments with greater forest management did not show any consistent signs of biological impairment from smaller to larger scales, and all sites had good or very good biological water quality based on the aquatic insect communities. This study helped to evaluate forest management effects on habitat areas, detected with airborne LiDAR data, that need to be addressed to enhance decision making processes.
Fatimata Niang, Philippe Marchand, Bienvenu Sambou, Nicole J. Fenton. Exploring the effects of forest management on tree diversity, community composition, population structure and carbon stocks in sudanian domain of Senegal, West Africa 2024. For. Ecol. Manage. 121821
DOI : 10.1016/j.foreco.2024.121821
Human disturbances lead to forest degradation and a drastic reduction in forest area. In Africa, the most affected continent by this phenomenon, selective cutting of trees remains the main forest management strategy. However, the effects of management on biodiversity are insufficiently known, particularly in Africa. We investigated how forest management affects tree species diversity, composition, size structure and carbon biomass of mature and juvenile trees in the sudanian domain of Senegal by comparing unmanaged forests and three types of managed forests, while considering the disturbance level of each stand. We collected floristic data on five and fifteen unmanaged and managed forest stands, respectively. We calculated species richness, the Shannon-Wiener diversity Index (alpha, beta and gamma), as well as carbon stocks of trees for each forest stand. Then we fitted linear models to estimate the differences between forest types for each index. We also analyzed tree size structure and species composition of highly valuable species. In total, 26,009 mature and juvenile trees in 183 species were recorded. Our findings showed that management status and disturbance level affect tree species in different ways and that disturbance level explains a greater proportion of the variation in species diversity than management status. Considering alpha, beta and gamma diversity, we found no significant association between any of these metrics and management status, for either mature or juvenile trees. Disturbance level was only significantly associated with the gamma diversity of mature trees. Species composition of juvenile trees of highly valuable species was significantly associated with both management status and disturbance level, unlike mature tree species composition where the associations were not significant. The distribution of mature tree diameter forms an inverted J-shape for each management category and disturbance level. However, neither the median tree diameter nor the median absolute deviation presented significant differences as a function of management status or disturbance level. For carbon stocks, none of the differences observed by management status and disturbance level are statistically significant. Our findings indicated that forest management in the sudanian zone affects species composition more than diversity and that mature trees respond differently than juvenile trees. Disturbances more than forest management were the underlying process for biodiversity changes both in managed and unmanaged forests. These findings suggest a better protection of unmanaged forests, and also a development of specific conservation action plans for highly valuable species, especially for species that are threatened at national or global levels in order to minimize their risk of local extinction.
Fatimata Niang, Philippe Marchand, Nicole J. Fenton, Bienvenu Sambou, Élise Bouchard. Forecasting forest management impacts on regeneration traits of high socio-economic value species in Senegal's Sudanian zone, West Africa 2024. Trees, Forests and People 100602
DOI : 10.1016/j.tfp.2024.100602
Forest management can have major impacts on the dynamic of ecological communities, including shifts in reproduction and survival strategies in newly recruited individuals. This study aims to predict the probability of presence of saplings of various species in managed forests in the Sudanian domain of Senegal based on their functional traits. Data on functional traits and the main commercial and domestic uses of twenty high-socio-economic value species were collected, along with their presence-absence, in 12, 832 plots from twenty sites in Senegal's savannahs spanning four different types of forest management, including unmanaged forests, old managed forests, recently managed forests, and community reserve forests. Mixed logistic regression models were used to predict whether high-value species would be present in different forest management types, depending on their main uses, and regeneration, growth and reproduction functional traits. We hypothesised that forest management would favour species with more efficient colonising and competitive abilities, particularly at high levels of disturbance. Our findings demonstrated that unmanaged forests were more likely to host high-value species, regardless of their functional traits and main uses. These protected forests also hosted the greatest variety of regeneration functional traits, heights and uses. Old managed forests were more likely to host high-value species compared to recently managed and community reserve forests. Moreover, high-value species capable of vegetative regeneration and those with low maximum height were more likely to occur in all types of forests, but this trend was more pronounced under higher management and disturbance intensities. This study highlights that the availability of forest products can be optimised by encouraging management strategies that promote a diversity of functional traits rather than the selective harvesting of certain high-value species. Additionally, the temporal variation in the responses of tree species could be beneficial for forest management, with more diverse values of functional traits and more high-value species being present in older managed forests relative to newly managed forests. These results indicate that it is essential to promote forest resilience after management by protecting high-value species that have the potential to restore forest functional composition over time in managed forests.
Maxime Thomas, Yan Boulanger, Hugo Asselin, Mebarek Lamara, Nicole J. Fenton. How will climate change and forest harvesting influence the habitat quality of 2024. Science of the Total Environment 172148
DOI : 10.1016/j.scitotenv.2024.172148
Boreal landscapes face increasing disturbances which can affect cultural keystone species, i.e. culturally salient species that shape in a major way the cultural identity of a people. Given their importance, the fate of such species should be assessed to be able to act to ensure their perennity. We assessed how climate change and forest harvesting will affect the habitat quality of Rhododendron groenlandicum and Vaccinium angustifolium, two cultural keystone species for many Indigenous peoples in eastern Canada. We used the forest landscape model LANDIS-II in combination with species distribution models to simulate the habitat quality of these two species on the territories of three Indigenous communities according to different climate change and forest harvesting scenarios. Climate-sensitive parameters included wildfire regimes as well as tree growth. Moderate climate change scenarios were associated with an increased proportion of R. groenlandicum and V. angustifolium in the landscape, the latter species also responding positively to severe climate change scenarios. Harvesting had a minimal effect, but slightly decreased the probability of presence of both species where it occurred. According to the modeling results, neither species is at risk under moderate climate change scenarios. However, under severe climate change, R. groenlandicum could decline as the proportion of deciduous trees would increase in the landscape. Climate change mitigation strategies, such as prescribed fires, may be necessary to limit this increase. This would prevent the decrease of R. groenlandicum, as well as contribute to preserve biodiversity and harvestable volumes.
Amira Fetouab , Nicole J. Fenton, Nelson Thiffault, Martin Barrette. Planting density and mechanical site preparation effects on understory composition, functional diversity and planted black spruce growth in boreal forests. 2024. Silva Fennica 23029
DOI : 10.14214/sf.23029
Mechanical site preparation (MSP) is used prior to planting to control competing vegetation and enhance soil conditions, particularly in areas prone to paludification. Tree planting density can be adapted to the management context and objectives, as it influences yield and wood quality. However, the combined effects of MSP and planting density on understory vegetation composition, functional traits, and diversity remain uncertain. We thus conducted a study in the Clay Belt region of northwestern Quebec, Canada. After careful logging, the study area was divided into nine sites, each receiving one of three treatments: plowing, disc trenching, or no preparation. Sites were further divided into two, with black spruce (Picea mariana [Mill.] Britton, Sterns & Poggenb.) seedlings planted at either a low planting density of 1100 seedlings ha-1 or a high planting density of 2500 seedlings ha-1. After nine years, we assessed understory composition, diversity, key functional traits, sapling density and growth of planted trees. Careful logging alone led to a higher density of naturally established conifers compared to plowing or disc trenching. The interaction between planting density and MSP significantly influenced understory diversity and composition in plowed plots. Understory composition was affected by the soil C/N ratio, coniferous species, and deciduous species density. The growth of black spruce was notably enhanced with higher planting density in the plow treatment only. Neither planting density nor MSP alone affected tree height and diameter. Our results suggest that combining plowing with high-density planting can enhance stand growth and improve forest productivity. These findings guide future research on paludified forests.
Mialintsoa Aroniaina Randriamananjara, Nicole J. Fenton, Annie DesRochers. Plantations forestières : des déserts biologiques? 2024. Le Couvert Boréal 32
Marion Noualhaguet, Timothy Work, Maxence Soubeyrand, Nicole J. Fenton. Twenty-year recovery of managed stand, in structure and composition, in boreal mixedwood stands of northwestern Quebec 2023. Can. J. For. Res. 478
DOI : 10.1139/cjfr-2022-0309
The natural disturbance-based management (NDBM) aims to maintain specific structural and compositional attributes of natural forests in managed stands. Operationally, NDBM relies on diversifying and adapting silvicultural practices, including partial harvesting (PC), to expand the range of options beyond that of simply clearcuts (CC).
Mélissande Nagati, Andréane Garant, Nicole J. Fenton, Nelson Thiffault, Alain Leduc. Le mélèze laricin : un potentiel allié pour la productivité des forêts tourbeuses 2023. Le progrès forestier 34-35
Maxime Thomas, Mebarek Lamara, Hugo Asselin, Nicole J. Fenton. Effects of industrial disturbances on the flavonoid concentration of Rhododendron groenlandicum. 2023. Botany 343-356
DOI : 10.1139/cjb-2022-0136
The boreal forest is subject to various anthropogenic disturbances, including logging, mining, and hydroelectricity production and transport. These disturbances affect Indigenous communities and the culturally salient species they depend on for the practice of traditional and subsistence activities. Rhododendron groenlandicum (Oeder) Kron & Judd is one such species whose leaves are used to treat various ailments, due to their concentration in biologically active chemicals such as flavonoids. Our objective was to assess the effect of anthropogenic disturbances on the chemical properties of R. groenlandicum on the territories of three Indigenous communities. Leaf samples were collected near mines, under hydroelectric power lines, and in non-disturbed sites. Our results showed that variations in flavonoid concentration were mainly related to territory (R2 = 0.43, P = 0.0005), while disturbance type had a smaller effect (R2 = 0.18, P = 0.02). Samples from Nemaska, the northernmost territory with the most open forest stands, had higher concentrations of epicatechin (+23%, P = 0.03). Quercetin-3-glucoside concentrations were lower near mines (−19%, P = 0.01). The effects of disturbances on the chemical signature of R. groenlandicum are complex, and a complete assessment of the consequences of industrial activity on Indigenous landscape value must take into account other culturally salient species.
Mialintsoa Aroniaina Randriamananjara, Nicole J. Fenton, Annie DesRochers. How does understory vegetation diversity and composition differ between monocultures and mixed plantations of hybrid poplar and spruce? 2023. For. Ecol. Manage. 121434
DOI : 10.1016/j.foreco.2023.121434
Although monocultures are important for timber production, they are often associated with lower biological diversity than mixtures. Thus, mixed plantations have been suggested as a way to enhance biodiversity because of their inherent compositional diversity. However, the effects of monocultures versus mixtures on understory diversity and composition can vary in different ecosystems. The objective of this study was to assess how monocultures and mixed plantations influence understory vegetation diversity and composition in the boreal forest region of southern Quebec. We sampled plantations established with deciduous Populus trichocarpa Torrey & A. Gray × balsamifera L. and P. maximowiczii Henry × balsamifera L. and coniferous Picea abies (L.) Karst. and Picea glauca (Moench) species planted in monocultures and in mixed plantations on abandoned farmlands and a forest site. We assessed understory vegetation diversity and composition in each canopy type (coniferous, deciduous, mixed) and in each plantation type. We evaluated bryophyte and lichen diversity and composition specifically in tree microhabitats: soil, tree bases, and tree trunks. We found that vascular plant and lichen species richness was similar in all plantation types, while bryophyte species richness was higher in spruce monocultures and in mixed plantations compared to poplar monocultures. Our results also highlight how land-use history influenced vascular plant composition as abandoned farmland sites were composed of more ruderal vascular plants, while the previously forested site was composed of species found in natural forests. In the context of reforestation and plantations, our study suggests mixing spruce with poplars to maximize understory vegetation diversity as the addition of spruce in mixed plantations promoted the establishment of terrestrial bryophytes, while poplars favored the establishment of epiphytic lichens.
Juanita Carolina Rodríguez-Rodríguez, Nicole J. Fenton, Steven Kembel, Evick Mestre, Mélanie Jean, Yves Bergeron. Factors Driving Changes in Plant Understory Communities Between Coniferous and Broadleaf Deciduous Boreal Forests. 2023. Bull Ecol Soc Am e2103
DOI : 10.1002/bes2.2103
Juanita Carolina Rodríguez-Rodríguez, Nicole J. Fenton, Steven Kembel, Evick Mestre, Mélanie Jean, Yves Bergeron. Drivers of contrasting boreal understory vegetation in coniferous and broadleaf deciduous alternative states 2023. Ecological Monographs e1587
DOI : 10.1002/ecm.1587
Mariano Feldman, Marc Mazerolle, Louis Imbeau, Nicole J. Fenton. Occupancy and Abundance of Pond-Breeding Anurans in Boreal Landscapes 2023. Journal of Herpetology 159
DOI : 10.1670/21-080
Therese Löfroth, Tone Birkemoe, Ekaterina Shorohova, Mats Dynesius, Nicole J. Fenton, Pierre Drapeau, Junior A. Tremblay. Deadwood Biodiversity 2023. In: Girona, M.M., Morin, H., Gauthier, S., Bergeron, Y. (eds) Boreal Forests in the Face of Climate Change. Advances in Global Change Research, vol 74. Springer, Cham. 167
DOI : 10.1007/978-3-031-15988-6_6
Deadwood is a key component for biodiversity and ecosystem services in boreal forests; however, the abundance of this critical element is declining worldwide. In natural forests, deadwood is produced by tree death due to physical disturbances, senescence, or pathogens. Timber harvesting, fire suppression, and salvage logging reduce deadwood abundance and diversity, and climate change is expected to bring further modifications. Although the effects of these changes are not yet fully understood, restoring a continuous supply of deadwood in boreal forest ecosystems is vital to reverse the negative trends in species richness and distribution. Increasing the availability of deadwood offers a path to building resilient forest ecosystems for the future.
Aino Hämäläinen, Kadri Runnel, Grzegorz Mikusiński, Dmitry Himelbrant, Nicole J. Fenton, Piret Lõhmus. Living Trees and Biodiversity 2023. In: Girona, M.M., Morin, H., Gauthier, S., Bergeron, Y. (eds) Boreal Forests in the Face of Climate Change. Advances in Global Change Research, vol 74. Springer, Cham. 145
DOI : 10.1007/978-3-031-15988-6_5
Living trees are fundamental for boreal forest biodiversity. They contribute to stand structural diversity, which determines the range of habitat niches available for forest-dwelling species. Specific characteristics of living trees, such as species, age, and presence of microhabitats, determine how species utilize trees for food, as nesting places, or as growing substrates. This chapter explores the associations between living trees and aboveground biodiversity, reviews the factors such as soil productivity, hydrological regime, stand successional stage, and forestry activities that influence the characteristics of living trees and stand structural diversity, and presents the consequences of current and future climate change on boreal biodiversity.
Maxence Martin, Nicole J. Fenton. The future is uncertain for our last old-growth boreal forests. 2023. The Conversation
Ange-Marie Bothroh, David Paré, Xavier Cavard, Nicole J. Fenton, Osvaldo Valeria, Philippe Marchand, Yves Bergeron. Nine-years effect of harvesting and mechanical site preparation on
bryophyte decomposition and carbon stocks in a boreal forested peatland, 2023. For. Ecol. Manage. 540:121020
DOI : 10.1016/j.foreco.2023.121020
The boreal forest holds the world's largest soil carbon (C) reservoir. A large portion of it is contained in a thick organic layer originating from the slow decay of bryophytes. Because a thick organic layer slows down tree growth, reduces forest productivity, and thereby reduces the potential wood supply, silvicultural treatments that aim to maintain or restore forest productivity after harvesting often involve mechanical site preparation. However, while these treatments can increase growth and C storage in trees, they can also lead to accelerated decomposition of the soil organic matter, reducing C storage. In this study, we assessed the nine-years effect of two silvicultural treatments on soil C dynamics in forested peatlands of northwestern Quebec, compared to unharvested controls: (1) cut with protection of regeneration and soils (CPRS; low soil disturbance, also called careful logging around advanced growth (CLAAG)), (2) CPRS followed by mechanical site preparation (CPRS + MSP, plowing; severe soil disturbance). The mass loss rate of three bryophytes (Pleurozium schreberi, Sphagnum capillifolium, and Sphagnum fuscum) was measured over two growing seasons together with soil organic carbon (SOC) stocks. We also studied the different effects of temperature, water table level, depth, and type of soil layer on mosses decomposition.We observed a significant influence of silvicultural treatments, bryophyte species, and soil layer type (fibric, mesic, humic and mineral) on bryophyte mass loss, which was higher in the CPRS + MSP treatment (21.6 ± 0.13 % standard error) than in control sites (9.5 ± 0.21 %); CPRS alone resulted in an intermediate mass loss of 11.6 ± 0.23 %, for Sphagnum mosses. Bryophyte mass loss was significantly higher in fibric than humic layer. SOC stocks in the uppermost organic soil layer (fibric) were lower in the CPRS + MSP group than in the control group, while the CPRS group was intermediate; however, differences were not statistically significant for the other soil layer and for total SOC. We conclude that while CPRS + MSP accelerates Sphagnum moss decomposition in the topsoil layer, it has limited impact on total soil C stocks that are detectable with stock change methods.
Marion Noualhaguet, Timothy Work, Maxence Soubeyrand, Nicole J. Fenton. Bryophyte community responses 20 years after forest management in boreal mixedwood forest. 2023. For. Ecol. Manage.
DOI : 10.2139/ssrn.4292682
Sustainable forest management relies on a diversity of harvesting practices to conserve the variety of stand structures and compositions found in natural forests. Extensive use of clearcuts can homogenize stand structure by removing all the canopy, damage forest soils and destroy older downed woody debris already present within stands. In contrast partial cuts maintain some standing overstory and conserve certain biological legacies like large live trees as well as standing and downed dead wood, and thus should better conserve biodiversity. However, given the large number of species potentially affected by harvest operations, balancing harvesting intensity and conservation of biodiversity requires a clear understanding of habitat requirements of resident organisms and species conservation post-harvest. We examined the impacts of increasing intensities of stem removal (33%, 40%, 66% and 100%) 20 years after harvest on bryophyte communities in three stand types common in the succession sequences of Eastern boreal mixedwood forests that were dominated by trembling aspen, mixedwood and conifers. While many generalist and common forest species were shared among all harvesting levels and forest types, more specialized species like liverworts differed strongly between uncut and clearcut stands. However, liverworts and other specialists differed less between uncut and partial cut stands. Bryophyte species in hardwood dominated stands tolerated more fluctuations in environmental conditions than species in mixed stands. We were unable to find habitat specialists typically associated with coniferous stands and may be related to prior outbreaks of spruce budworm that occurred 30 years ago. Our results highlight how harvest intensity and forest stand type interact to affect bryophytes and how intact stands may be required to conserve many species that are sensitive to any degree of harvesting.
Osvaldo Valeria, Nicole J. Fenton, Chaima Touati, Louis Imbeau. Projet identification des milieux humides : une approche régionale adaptée à l’Abitibi sur la base des données de télédétection et lidar 2023. Rapport final Chaire AFD 50 p.
Mariano Feldman, Marc Mazerolle, Louis Imbeau, Nicole J. Fenton. Beaver activity and red squirrel presence predict bird assemblages in boreal Canada. 2023. Ornithology 140(2):ukad009
DOI : 10.1093/ornithology/ukad009
Wetlands and predation in boreal ecosystems play essential roles throughout the breeding season for bird assemblages. We found a positive association of beaver activity and a negative influence of American red squirrels (Tamiasciurus hudsonicus) on bird assemblages. We used a multispecies hierarchical model to investigate whether bird communities differ between two major wetland habitats in boreal Canada: beaver ponds and peatland ponds. In addition to including variables such as forest cover and latitude, we adopted a structural equation model approach to estimate the occupancy of American red squirrels and its potential influence on bird communities. Using automated recording stations deployed at 50 ponds, we detected 96 bird species in 2018 and 2019. Bird species were grouped into four taxonomic guilds according to their habitat successional requirements: early successional species, late successional species, generalists, and wetland species. Beaver ponds harbored higher species richness, a pattern driven primarily by early successional species. The occupancy of almost a quarter of the species was lower in the presence of red squirrels. Late successional species responded positively to the cover of forest surrounding the pond. Our results highlight the value of considering acoustic data of red squirrels to quantify habitat quality in boreal forests. We conclude that beaver activity shapes bird assemblages through modification of their habitat, and that some bird guilds are associated negatively with the presence of American red squirrels.
Les milieux humides et la prédation dans les écosystèmes boréaux jouent des rôles essentiels tout au long de la saison de reproduction pour les assemblages d’oiseaux. Nous avons trouvé une association positive entre les assemblages d’oiseaux et l’activité des castors, mais une association négative entre les assemblages d’oiseaux et la présence des écureuils roux d’Amérique (Tamiasciurus hudsonicus). Nous avons utilisé un modèle hiérarchique multi-espèces pour étudier si les communautés d’oiseaux diffèrent entre deux importants types de milieux humides du Canada boréal: les étangs de castors et les étangs de tourbières. Au-delà de l’inclusion de variables telles que le couvert forestier et la latitude, nous avons adopté une approche de modèle d’équation structurelle pour estimer l’occupation de l’écureuil roux d’Amérique et son influence potentielle sur les communautés d’oiseaux. En utilisant des stations d’enregistrement automatisées déployées sur 50 étangs, nous avons détecté 96 espèces d’oiseaux en 2018 et 2019. Les espèces des oiseaux ont été regroupées en quatre guildes taxonomiques en fonction de leurs exigences en matière de succession de l’habitat: espèces de début de succession, espèces de fin de succession, généralistes et espèces des milieux humides. Les étangs de castors abritaient une plus grande richesse d’espèces et une composition d’espèces différente de celle des étangs de tourbières, une tendance principalement liée aux espèces de début de succession. L’occupation de près d’un quart des espèces était plus faible en présence de l’écureuil roux. Les espèces de fin de succession ont répondu positivement à la couverture de la forêt entourant l’étang. Nos résultats soulignent l’intérêt de considérer les données acoustiques de l’écureuil roux pour quantifier la qualité de l’habitat dans les forêts boréales. Nous concluons que l’activité des castors façonne les assemblages d’oiseaux en modifiant leur habitat et que certaines guildes d’oiseaux sont associées négativement à la présence de l’écureuil roux d’Amérique.
Carlos Cerrejon Lozano, Osvaldo Valeria, Nicole J. Fenton. Estimating lichen α- and β-diversity using satellite data at different
spatial resolutions. 2023. Ecological Indicator 149:110173
DOI : 10.1016/j.ecolind.2023.110173
Understanding biodiversity patterns and its environmental drivers is crucial to meet conservation targets and develop effective monitoring tools. Inconspicuous species such as lichens require special attention since they are ecologically important but sensitive species that are often overlooked in conservation planning. Remote sensing (RS) can be particularly beneficial for these species as in combination with modelling techniques it allows planners to assess and better understand biodiversity patterns. This study aims to model the lichen α-diversity (species richness) and β-diversity (species turnover) biodiversity components using high resolution RS variables across a subarctic region in Northern Quebec (∼190.25 km2). Two sensors, one commercial (WorldView-3, WV3) and another freely accessible (Sentinel-2, S2), at different resolutions (1.2 m and 10 m, respectively) were tested separately to develop our variables and feed the models. Lichens were sampled in 45 plots across different habitat types, ranging from forested habitats (coniferous, deciduous) to wetlands (bogs, fens) and rocky outcrops. Two sets of uncorrelated variables (Red and NIR; EVI2) from each sensor were parallelly used to build the α- and β-diversity models (8 models in total) through Poisson regressions and generalized dissimilarity modelling (GDM), respectively. Red and NIR variables were useful for modeling the two biodiversity components at both resolutions, providing information on stand canopy closure and structure, respectively. EVI2, especially from WV3, was only informative for assessing β-diversity, providing similar information than Red. Poisson models explained up to 32 % of the variation in lichen α-diversity, with Red, NIR and EVI2, either from WV3 or S2, showing negative relationships with lichen richness. GDMs described well the relationship between β-diversity and spectral dissimilarity (R2 from 0.25 to 0.30), except for the S2 EVI2 model (R2 = 0.07), confirming that more spectrally and thus environmentally different areas tend to harbor different lichen communities. While WV3 often outperformed the S2 sensor, the latter still provides a powerful tool for the study of lichens and their conservation. This study contributes to improve our knowledge and to inform on the use of RS to understand biodiversity patterns of inconspicuous species, which we consider to be an essential step to enhance their representation in conservation planning.
Nils Ambec, Yves Bergeron, Nicole J. Fenton. Plant community and climate differ between former islands
and submerged hills by proglacial lake Ojibway in eastern
boreal Canada. 2023. Biodiversity and Conservation 32:1709–1732
DOI : 10.1007/s10531-023-02572-4
Rare habitats result from the geochemistry, history, or topography of the environment. They shelter regionally rare species (i.e., those with only a few mentions) and are threatened by global changes and human activities. On the clay plains of western Québec, the scattered highest hills emerged from the proglacial lake Ojibway (10,200–8200 BP) as islands and were potentially colonised 2000 years before their present surroundings. This study aims to determine if the effect of this earlier colonisation is still visible today in comparison with nearby formerly submerged hills. To do so, vascular plants and bryophytes were sampled for all habitats (i.e., old-growth forest, wet rock, and dry rock) at matched pairs of formerly emerged and submerged hills with known disturbance histories. Hourly temperature and relative humidity were recorded the top and bottom of each hill for one year. We found that former islands housed richer bryophyte communities than formerly submerged hills while the opposite was true for vascular plants. Old-growth forest was the richest habitat. Although hilltop temperatures are higher than those of the plains, the former islands that made up the higher hills were colder and wetter than the smaller, formerly submerged hills. This did not affect the diversity of bryophytes, but it did have an impact on the diversity of most vascular plant life forms. We believe that the rugged higher hills create more microclimatic heterogeneity and are fire and climate refugia. Disturbances explains a higher vascular plant diversity on lower hills. We conclude that no former island effect exists as such, but rather a complex climate and fire refugia resulting of a more rugged topography in former islands that allowed old-growth dependent species to accumulate through millennia in the right habitat structure. These results give new perspectives to discriminate apparently common habitats.
Juanita Carolina Rodríguez-Rodríguez, Nicole J. Fenton, Yves Bergeron, Steven Kembel. Soil and tree phyllosphere microbial communities differ
between coniferous and broadleaf deciduous boreal forests. 2023. Plant and soil.
DOI : 10.1007/s11104-023-05959-y
Natural and anthropogenic causes have produced changes in tree dominance from coniferous to broadleaf deciduous forests, generating shifts in litter inputs and plant understory composition. The impact of changes in canopy-associated factors on belowground microbial communities remain poorly understood. The objective of this study was to better understand how abiotic and biotic factors in black spruce and trembling aspen forests shape soil microbial community structure.
Osvaldo Valeria, Nicole J. Fenton, Philippe Marchand, Louis Imbeau. Projet identification des milieux humides : une approche régionale adaptée à l’Abitibi sur la base des données de télédétection et lidar. 2022. Rapport d'étape Chaire AFD 20 p.
Xiangbo Yin, Christine Martineau, Nicole J. Fenton. Synergistic effects in mine offsite landscapes: Predicted ecosystem shifts could exacerbate mining effects on bryophyte community structure. 2022. Ecological Indicator 144:109555
DOI : 10.1016/j.ecolind.2022.109555
Global change is shifting ecosystem type relative abundance in boreal forests, while the green energy transition results in increased mining activities around the globe. The interaction and consequent effects of these two trends on biodiversity have not been examined in depth. Bryophytes species can be used as indicators to measure these effects because they play key ecological roles in boreal forests. We identified and evaluated the interaction between ecosystem type (i.e., coniferous, deciduous, mixed forest and open canopy) and mining on microhabitat scale bryophyte diversity and composition in 1-km landscapes surrounding six mine sites at different stages of the mining lifecycle in the Canadian boreal forest. Irrespective of microhabitat type, the combined effects of ecosystem type and mining stage were interactive on bryophytes. Bryophyte richness and community composition were negatively affected by offsite effects of mines in only deciduous and mixed forests. The interacted effects on bryophyte richness mainly occurred on the ground r microhabitats. We also found that deciduous, mixed forests (coniferous forest as a reference) and mines had a negative impact on the abundance of feather mosses and sphagna. Furthermore, indicator species were identified for areas affected by mines (Pohlia nutans and Dicranum polysetum) and for control areas (Sphagnum angustifolium and Plagiomnium cuspidatum). Our results suggest the predicted ecosystem shifts with global changes, from coniferous to deciduous forests, could potentially increase the effects of mining on forest ecosystem resistance through the changes in bryophyte community structure. Adding microhabitats (i.e., adding coarse woody debris) near mine sites is a potential strategy to maintain species richness. Collectively, these findings advance our understanding of how mining affects biodiversity and highlight the importance of considering mine offsite landscapes in future environmental evaluations of development projects in the context of global changes.
Maxence Martin, Yoan Paillet, Laurent Larrieu, Christel C. Kern, Patricia Raymond, Nicole J. Fenton, Pierre Drapeau. Tree-Related Microhabitats Are Promising Yet Underused Tools for Biodiversity and Nature Conservation: A Systematic Review for International Perspectives 2022. Frontiers in forests and global change 5:818474
DOI : 10.3389/ffgc.2022.818474
Sustainable management of forest ecosystems requires the use of reliable and easy to implement biodiversity and naturalness indicators. Tree-related microhabitats (TreMs) can fulfill these roles as they harbor specialized species that directly or indirectly depend on them, and are generally more abundant and diverse in natural forests or forests unmanaged for several decades. The TreM concept is however still recent, implying the existence of many knowledge gaps that can challenge its robustness and applicability. To evaluate the current state of knowledge on TreMs, we conducted a systematic review followed by a bibliometric analysis of the literature identified. A total of 101 articles constituted the final corpus. Most of the articles (60.3%) were published in 2017 or after. TreM research presented a marked lack of geographical representativity, as the vast majority (68.3%) of the articles studied French, German or Italian forests. The main themes addressed by the literature were the value of TreMs as biodiversity indicators, the impact of forest management on TreMs and the factors at the tree- and stand-scales favoring TreMs occurrence. Old-growth and unmanaged forests played a key role as a “natural” forest reference for these previous themes, as TreMs were often much more abundant and diverse compared to managed forests. Arthropods were the main phylum studied for the theme of TreMs as biodiversity indicators. Other more diverse themes were identified, such as restoration, remote sensing, climate change and economy and there was a lack of research related to the social sciences. Overall, current research on TreMs has focused on assessing its robustness as an indicator of biodiversity and naturalness at the stand scale. The important geographical gap identified underscores the importance of expanding the use of the TreMs in other forest ecosystems of the world. The notable efforts made in recent years to standardize TreM studies are an important step in this direction. The novelty of the TreM concept can partially explain the thematic knowledge gaps. Our results nevertheless stress the high potential of TreMs for multidisciplinary research, and we discuss the benefits of expanding the use of TreMs on a larger spatial scale.
Mariano Feldman, Rémi Chevalier, Nicole J. Fenton, Marc Mazerolle, Louis Imbeau. Eating frogs in the north: attempted predation of Tringa melanoleuca on boreal Lithobates adult frogs (Anura: Ranidae). 2022. Herpetology notes 15:399-402
Françoise Cardou, Alison D. Munson, Laura Boisvert-Marsh, Madhur Anand, André Arsenault, F. Wayne Bell, Yves Bergeron, Isabelle Boulangeat, Nicole J. Fenton, Sylvain Delagrange, Dominique Gravel, Benoît Hamel, François Hébert, Jill F. Johnstone, Bright B. Kumordzi, S. Ellen Macdonald, Azim Mallik, Anne C. S. McIntosh, Jennie R. McLaren, Christian Messier, Dave Morris, Bill Shipley, Luc Sirois, Nelson Thiffault, Isabelle Aubin. Above-and belowground drivers of intraspecific trait variability across subcontinental gradients for five ubiquitous forest plants in North America 2022. Journal of Ecology 110(7):1590-1605
DOI : 10.1111/1365-2745.13894
Intraspecific trait variability (ITV) provides the material for species' adaptation to environmental changes. To advance our understanding of how ITV can contribute to species' adaptation to a wide range of environmental conditions, we studied five widespread understorey forest species exposed to both continental-scale climate gradients, and local soil and disturbance gradients. We investigated the environmental drivers of between-site leaf and root trait variation, and tested whether higher between-site ITV was associated with increased trait sensitivity to environmental variation (i.e. environmental fit). We measured morphological (specific leaf area: SLA, specific root length: SRL) and chemical traits (Leaf and Root N, P, K, Mg, Ca) of five forest understorey vascular plant species at 78 sites across Canada. A total of 261 species-by-site combinations spanning ~4300 km were sampled, capturing important abiotic and biotic environmental gradients (neighbourhood composition, canopy structure, soil conditions, climate). We used multivariate and univariate linear mixed models to identify drivers of ITV and test the association of between-site ITV with environmental fit. Between-site ITV of leaf traits was primarily driven by canopy structure and climate. Comparatively, environmental drivers explained only a small proportion of variability in root traits: these relationships were trait specific and included soil conditions (Root P), canopy structure (Root N) and neighbourhood composition (SRL, Root K). Between-site ITV was associated with increased environmental fit only for a minority of traits, primarily in response to climate (SLA, Leaf N, SRL). Synthesis. By studying how ITV is structured along environmental gradients among species adapted to a wide range of conditions, we can begin to understand how individual species might respond to environmental change. Our results show that generalisable trait–environment relationships occur primarily aboveground, and only accounted for a small proportion of variability. For our group of species with broad ecological niches, variability in traits was only rarely associated with higher environmental fit, and primarily along climatic gradients. These results point to promising research avenues on the various ways in which trait variation can affect species' performance along different environmental gradients.
Maxence Martin, Alain Leduc, Miguel Montoro Girona, Yves Bergeron, Nicole J. Fenton, Osvaldo Valeria. Irregular forest structures originating after fire: An opportunity to promote alternatives to even-aged management in boreal forests 2022. Journal of Applied Ecology 59(7):1792-1803
DOI : 10.1111/1365-2664.14186
Even-aged silviculture based on short-rotation clearcuts had severely altered boreal forests. Silvicultural alternatives (e.g. continuous cover or retention forestry) have the potential to restore and protect the habitats and functions of boreal forests. These alternatives are however often restricted to structurally complex old-growth forest, which are particularly threatened by anthropogenic disturbances. Increasing the use of alternatives to even-aged silviculture in early-successional stands could help recruit more structurally complex forests, with characteristics closer to the old-growth. In this article, we therefore evaluate the potential for silvicultural alternatives to even-aged management in boreal forests that burned less than a century ago.
We analysed 1085 field plots in a 243,000 km2 area situated in the boreal forest of eastern Canada. These plots burned 30–100 years before the survey and had not been subjected to previous or subsequent anthropogenic disturbance; they hence represent young primary forests. The main patterns of tree diameter distribution variation within the plots were identified using k-means clustering. Stand structure, tree species composition and environmental variables that most explained the differences among the clusters were identified with a random forest model, and then compared using Kruskal–Wallis and Fisher's exact tests.
The majority (>75%) of the plots presented an irregular structure of stem diameters (i.e. non-normally distributed, with many small diameter trees). The understorey was generally dominated by black spruce (Picea mariana [Mill.] BSP), a shade-tolerant species. Irregular structures were observed in both forests of high and low productivity, implying that different processes (e.g. early regeneration, variable tree growth) can lead to observed early irregular structure. Regular structures were generally characterized by a higher productivity and abundance in hardwood species compared to the irregular structures.
Synthesis and applications. Many boreal forests of eastern Canada progress towards an irregular structure in the decades following the last stand-replacing fire. A substantial part of these early-successional forests may be suitable for alternatives to even-aged silviculture that better maintains habitats and functions of preindustrial boreal forests.
Juanita Carolina Rodríguez-Rodríguez, Yves Bergeron, Steven Kembel, Nicole J. Fenton. Dominance of coniferous and broadleaved trees drives
bacterial associations with boreal feather mosses. 2022. Environmental microbiology 24(8):3517-3528
DOI : 10.1111/1462-2920.16013
The composition of ecologically important moss-associated bacterial communities seems to be mainly driven by host species but may also be shaped by environmental conditions related with tree dominance. The moss phyllosphere has been studied in coniferous forests while broadleaf forests remain understudied. To determine if host species or environmental conditions defined by tree dominance drives the bacterial diversity in the moss phyllosphere, we used 16S rRNA gene amplicon sequencing to quantify changes in bacterial communities as a function of host species (Pleurozium schreberi and Ptilium crista-castrensis) and forest type (coniferous black spruce versus deciduous broadleaf trembling aspen) in eastern Canada. The overall composition of moss phyllosphere was defined by the interaction of both factors, though most of the bacterial phyla were determined by a strong effect of forest type. Bacterial α-diversity was highest in spruce forests, while there was greater turnover (β-diversity) and higher γ-diversity in aspen forests. Unexpectedly, Cyanobacteria were much more relatively abundant in aspen than in spruce forests, with the cyanobacteria family Nostocaceae differing the most between forest types. Our results advance the understanding of moss-associated microbial communities among coniferous and broadleaf deciduous forests, which are important with the increasing changes in tree dominance in the boreal system.
Maurane Bourgouin-Couture, Osvaldo Valeria, Nicole J. Fenton. Predictive mapping of bryophyte diversity associated with mature forests using LiDAR-derived indices in a strongly managed landscape. 2022. Ecological Indicator 136:108585
DOI : 10.1016/j.ecolind.2022.108585
Recovery of bryophyte diversity following silvicultural treatments depends upon the reestablishment of favorable microhabitats and microclimatic conditions. Without sources of propagules (reproductive structures) within the managed landscape, however, even optimal habitat conditions would not be sufficient to ensure bryophyte diversity. To identify sources of propagules and ensure their protection, we used indices that were derived from a Digital Elevation Model (DEMs) and an airborne point cloud (LiDAR; Light Detection and Ranging) as explanatory variables to predict bryophyte biodiversity. Bryophytes were collected in the intensively managed Black Brook District of New Brunswick, Canada, in eight mature managed and unmanaged forest types (n = 38). Our results show a strong bryophyte community gradient between wetter stands (Cedar, riparian zone and Spruce-Fir) and drier stands (Tolerant Harwood and Plantation) forming two distinctive groups. Indices explaining bryophyte composition and richness were related to moisture (closest distance to a stream), canopy (canopy relief ratio, canopy closure and density) and microtopography (Topographic Position Index). Models obtained from these indices explained 75% of bryophyte composition and predicted composition with a certainty of 71% The predominance of the closest distance to a stream in our model reinforces the great importance of buffer along the hydrological network. Buffers represent a substantial propagule source for the landscape and notably increase its ecological connectivity. Although wetter sites had greater richness, the completely different composition find at drier sites suggest that biodiversity management efforts to maintain bryophytes should not be restricted to wetter stands. Our model demonstrates the potential of airborne LiDAR-derived indices as surrogates for field data in estimating and mapping bryophyte compositions to understand the variation in diversity across the managed landscape. This model can be used as a dynamic tool to target areas that represent the overall bryophyte diversity of the managed landscape to ensure protection of propagule sources and favors reestablishment.
Carlos Cerrejon Lozano, Jesús Muñoz, Osvaldo Valeria, Nicole J. Fenton. Small but visible: Predicting rare bryophyte distribution and richness patterns using remote sensing-based ensembles of small models. 2022. PlosOne 17(1):e0260543
DOI : 10.1371/journal.pone.0260543
In Canadian boreal forests, bryophytes represent an essential component of biodiversity and play a significant role in ecosystem functioning. Despite their ecological importance and sensitivity to disturbances, bryophytes are overlooked in conservation strategies due to knowledge gaps on their distribution, which is known as the Wallacean shortfall. Rare species deserve priority attention in conservation as they are at a high risk of extinction. This study aims to elaborate predictive models of rare bryophyte species in Canadian boreal forests using remote sensing-derived predictors in an Ensemble of Small Models (ESMs) framework. We hypothesize that high ESMs-based prediction accuracy can be achieved for rare bryophyte species despite their low number of occurrences. We also assess if there is a spatial correspondence between rare and overall bryophyte richness patterns. The study area is located in western Quebec and covers 72,292 km2. We selected 52 bryophyte species with <30 occurrences from a presence-only database (214 species, 389 plots in total). ESMs were built from Random Forest and Maxent techniques using remote sensing-derived predictors related to topography and vegetation. Lee’s L statistic was used to assess and map the spatial relationship between rare and overall bryophyte richness patterns. ESMs yielded poor to excellent prediction accuracy (AUC > 0.5) for 73% of the modeled species, with AUC values > 0.8 for 19 species, which confirmed our hypothesis. In fact, ESMs provided better predictions for the rarest bryophytes. Likewise, our study revealed a spatial concordance between rare and overall bryophyte richness patterns in different regions of the study area, which have important implications for conservation planning. This study demonstrates the potential of remote sensing for assessing and making predictions on inconspicuous and rare species across the landscape and lays the basis for the eventual inclusion of bryophytes into sustainable development planning.
Marion Noualhaguet, Benoit Lafleur, Nicole J. Fenton, Timothy Work. Résistance et résilience des peuplements forestiers en réponse à différentes intensités de coupe en forêt boréale. 2021. Le Couvert Boréal p.26
Carlos Cerrejon Lozano, Osvaldo Valeria, Richard Caners, Philippe Marchand, Nicole J. Fenton. No place to hide: Rare plant detection through remote sensing. 2021. Diversity and Distributions. 27(6):948-961
DOI : 10.1111/ddi.13244
Aim
Detection of rare species is limited by their intrinsic nature and by the constraints associated with traditional field surveys. Remote sensing (RS) provides a powerful alternative to traditional detection methods through the increasing availability of RS products. Here, we assess the capacity of RS at high and medium resolution to detect rare plants with direct and indirect approaches, and how the performance of RS can be influenced by the characteristics of species.
Methods
An extensive literature review was conducted to synthesize the use of RS to detect or predict rare plant occurrence at high and medium resolution (<30 m and 30–300 m, respectively). The concept of “rarity” was based on Rabinowitz's rare species classification. The literature review was performed in Scopus for the period 1990–2020.
Results
While direct detection is often limited, it is possible with high and very high spatial resolution data for rare plants with distinctive traits. RS is also able to capture biophysical conditions driving rare plant distributions, which can indirectly provide accurate predictions for them. Both approaches have the potential to discover new populations of rare plants. RS can also feed SAMs of rare plants, which combined with SDMs can provide a valuable approach for rare plant detection. While direct detection is limited by the space occupied by a species within its habitat and its morphological, phenological and physiological characteristics, the predictive performance of RS-based SDMs (indirect detection) can be influenced by habitat size, habitat specificity and phenological features of rare plants. Similarly, model predictive performance can be influenced by the rarity form of the target species according to the rarity classification criteria.
Main conclusions.
With this synthesis, the strong potential of RS for the purposes of detection and prediction of rare plant has been highlighted, with practical applications for conservation and management.
Alyson Gagnon, Pascal Sirois, Jean-François Boucher, Nicole J. Fenton. Plant community diversity at two reclaimed mine tailing storage facilities in québec, canada. 2021. Land 11(10):1191
DOI : 10.3390/land10111191
Mining activities generate residues during the ore concentration process. These wastes are placed into large tailing storage facilities, and upon mine closure, these tailings must be reclaimed. This study aimed to determine how different reclamation methods, involving combinations of planted boreal woody species and organic amendments application (paper mill sludge biosolids, chicken manure, and topsoil) affected plant community diversity at two tailing storage facilities in Québec, Canada. We recorded the composition of the plant communities using the percent cover of plant species within 1 m × 1 m quadrats. At the Niobec mine site, paper mill sludge mixed with topsoil enhanced total plant cover was compared with the use of topsoil only; the former amendment, however, reduced evenness (J′ ) and diversity (1−D) due to the increased growth of grasses and invasive forbs. At the Mont-Wright site, plots having received paper mill sludge mixed with a “Norco” treatment (a mixture of chicken manure, hay, and grass seeds) produced the highest total plant cover. The Norco treatment mixed with topsoil and the single application of topsoil and biosolids produced the highest evenness (J′ ) and diversity (1−D). Overall, organic amendment applications promoted vegetation cover on tailings and contributed to the colonization of diverse plant communities. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.
Émilie Desjardins, Nicole J. Fenton, Marcel Darveau, Marc Mazerolle, Louis Imbeau. Waterfowl use of mine tailing ponds in comparison with beaver ponds
in boreal eastern Canada. 2021. Avian Conservation and Ecology. 16(2):24
DOI : 10.5751/ACE-02003-160224
Wetlands are essential for many animal and plant species. However, many of these ecosystems are being degraded. Wetland degradation affects the habitat of certain groups of species such as waterfowl, which use these environments at different stages of their life cycle. In this study, we assessed the quality of man-made wetlands, i.e., mine tailing ponds, in comparison to beaver ponds, which are natural wetlands used by waterfowl. We conducted repeated surveys of breeding waterfowl species present on 12 mining ponds and 38 beaver ponds in boreal western Quebec, Canada. We also conducted brood surveys and considered environmental variables at the sites that could affect their occupancy. Conditions at the mining ponds appear to be as favorable for the establishment of breeding waterfowl as those observed in beaver ponds. Using site occupancy models, we found that five out of the six species studied were as likely to occupy and breed in mining ponds as in beaver ponds: Mallard (Anas platyrhynchos), Ring-necked Duck (Aythya collaris), American Wigeon (Mareca americana), Green-winged Teal (Anas crecca), and Hooded Merganser (Lophodytes cucullatus). Both adults and broods of Common Goldeneye (Bucephala clangula) were more likely to use mining ponds than beaver ponds, but we did not find a direct relationship between goldeneye occupancy and environmental variables at our sites. Overall, the results of our study suggest that mining ponds have the potential to be managed for waterfowl and used by this group during the breeding season. However, further studies are required to assess the long-term effects of mining ponds on wildlife, particularly regarding contaminants such as heavy metals likely present at such sites.
Rémi Boisvert, Xiangbo Yin, Nicole J. Fenton. Offsite effects of mining on the frequency and abundance of five understorey plant species in western québec (Canada) 2021. Botany 99:449-455
DOI : 10.1139/cjb-2020-0158
Although the mining industry provides minerals and metals to the global market and represents important economic opportunities, it also constitutes a major anthropogenic disturbance in the ecosystems where it takes place. However, little is known about its offsite impacts on plant communities. We assessed the frequency and the abundance of five common boreal understorey plant species (Coptis trifolia (L.) Salisb., Cornus canadensis L., Linnaea borealis L., Lysimachia borealis (Raf.) U.Manns & Anderb., and Maianthemum canadense Desf.) at different distances around six mines in Abitibi-Témiscamingue and Nord-du-Québec (Québec). Frequency and (or) abundance of Coptis trifolia and M. canadense decreased near mines, suggesting that they might be sensitive to the loss of forest cover, particle deposition, and soil contamination induced by mining. Conversely, the frequency and abundance of Cornus canadensis increased near active mines, which indicates its resilience to the stress caused by mines and its ability to exploit the niche space left by more sensitive species. No effects on Linnaea borealis and Lysimachia borealis were observed. Our study suggests the possible presence of offsite impacts of mines on plant communities. Further studies considering enigmatic impacts should be conducted in order to develop our understanding of the broader environmental footprint of mining activity. © Canadian Science Publishing. All rights reserved.
Maude Crispo, Mélanie Jean, Yves Bergeron, Nicole J. Fenton, Alain Leduc. Factors explaining the composition and diversity of vascular
plant understories along a transcontinental gradient in the
Canadian boreal forest. 2021. J. Veg. Sci. 32(4):e13058
DOI : 10.1111/jvs.13058
Aim
Impacts of longitudinal gradients on species distributions have received less attention than latitudinal gradients. In Canada, precipitation varies longitudinally, with direct effects on plant growth and fire regimes. Despite the geographical extent of Canadian boreal forests, vascular plant diversity is relatively limited, with just under 300 species. Understorey communities comprise most of this diversity and play key roles in forests, affecting succession, nutrient cycling and wildlife habitat. Our objective was to evaluate the relative impacts of local and regional environmental conditions on vascular plant community composition and diversity in the boreal forest.
Location
Sampling took place in 33 trembling aspen (Populus tremuloides) stands along a transcontinental gradient in precipitation and fire regimes in boreal Canada.
Methods
We measured community composition and vegetation diversity indices of the vascular understorey in 400-m2 plots and measured environmental variables at the local (drainage, nutrient and light availability, site heterogeneity) and regional (annual temperature and precipitation, fire weather index, landscape heterogeneity) scales. Multivariate analyses and hierarchical model selection were used to analyze patterns.
Results
Species composition varied longitudinally, with western and eastern species pools. Western indicator species tended to be fire-adapted pioneer species, while indicator species at eastern sites were fire avoiders and late-successional species. Species richness and intra-site beta diversity seemed primarily driven by local variables and did not vary across the country. Species evenness, however, was slightly higher in the western region and decreased under higher precipitation, colder temperatures, and higher landscape-level heterogeneity.
Conclusion
Our results suggested that even for similar canopy composition environmental variables play a key role in the establishment of plant communities and structure local plant assemblages by selecting or eliminating species from the regional pool, which was also controlled by fire regimes.
Mélanie Jean, Yves Bergeron, Marie-Charlotte Nilsson, Nicole J. Fenton. Sphagnum and feather moss-associated N2 fixation along a 724-year chronosequence in eastern boreal Canada. 2021. Plant Ecol. 222:1007–1022
DOI : 10.1007/s11258-021-01157-x
Dinitrogen (N2) fixation associated with moss-dwelling bacteria (diazotrophs) is a N source in boreal forests. In feather moss-dominated understories of Fennoscandia, N2 fixation rates increase with forest age due to N limitation. Whether this is applicable across different boreal ecosystems and successional pathways is not fully understood. In eastern Canada, increasing Sphagnum dominance starting about 100 years post-fire (paludification), is prevalent. Our main objectives were to determine how potential moss-associated N2 fixation and relative contributions of Sphagnum and other mosses vary with time since fire and to explore the mechanisms driving observed patterns. Sampling was conducted in eight black spruce forests (Picea mariana; 64-724 years post-fire) in northwestern Quebec, Canada, along an established post-fire successional gradient. Potential N2 fixation was measured with the acetylene reduction method in seven common moss species (Pleurozium schreberi, Hylocomium splendens, Dicranum polysetum, Sphagnum capillifolium, Sphagnum angustifolium, Sphagnum russowii, and Sphagnum magellanicum). N2 fixation rates by moss communities were low and seemed to increase with stand age, but large variability was found between sites and species. The mechanisms underlying N2 fixation rates were related to a switch in moss communities from feather moss to a Sphagnum dominance, which had the highest individual acetylene reduction rates, and to an increasing frequency of N2-fixing samples in old forests. This study provided one of the first records of moss-associated N2 fixation in eastern Canada and offers insights into how regional and cross-continental differences in moss community composition determine N cycling in boreal forests.
Jeffrey Opuko Nyame, Nicole J. Fenton, Alain Leduc. Bryophyte Conservation in Managed Boreal Landscapes: Fourteen-Year Impacts of Partial Cuts on Epixylic Bryophytes 2021. Frontiers in forests and global change 4:674887
DOI : 10.3389/ffgc.2021.674887
Clear cut harvest simplifies and eliminates old growth forest structure, negatively impacting biodiversity. Partial cut harvest has been hypothesized (1) to have less impact on biodiversity than clear cut harvest, and (2) to encourage old growth forest structures. Long-term studies are required to test this hypothesis as most studies are conducted soon after harvest. Using epixylic bryophytes as indicators, this study addresses this knowledge gap. Fourteen years after harvest, we examined changes in epixylic bryophyte community composition richness and traits, and their microhabitats (coarse woody debris characteristics and microclimate) along an unharvested, partial cuts and clear cuts harvest treatment in 30 permanent plots established in the boreal black spruce (Picea mariana) forests of northwestern Quebec, Canada. Our results were compared to those of an initial post-harvest study (year 5) and to a chronosequence of old growth forests to examine species changes over time and the similarity of bryophyte communities in partial cut and old growth forests. Coarse woody debris (CWD) volume by decay class varied among harvest treatments with partial cuts and clear cuts recording lower volumes of early decay CWD. The epixylic community was richer in partial cuts than in mature unharvested forests and clear cuts. In addition, species richness and overall abundance doubled in partial and clear cuts between years 5 and 14. Species composition also differed among treatments between years 5 and 14. Furthermore, conditions in partial cut stands supported small, drought sensitive, and old growth confined species that are threatened by conditions in clear cut stands. Lastly, over time, species composition in partial cuts became more similar to old growth forests. Partial cuts reduced harvest impacts by continuing to provide favorable microhabitat conditions that support epixylic bryophytes. Also, partial cut harvest has the potential to encourage old growth species assemblages, which has been a major concern for biodiversity conservation in managed forest landscapes. Our findings support the promotion of partial cut harvest as an effective strategy to achieve species and habitat conservation goals.
Maxence Martin, Hubert Morin, Nicole J. Fenton. Tree-related microhabitats and deadwood dynamics form a diverse and constantly changing mosaic of habitats in boreal old-growth forests 2021. Ecological Indicator 128:107813
DOI : 10.1016/j.ecolind.2021.107813
Tree-related microhabitats (TreM) and deadwood are two forest attributes providing essential resources for biodiversity conservation and ecosystem services. Old-growth forests are generally defined by a high abundance and diversity of TreM and deadwood, but little is known about TreM and deadwood dynamics once the old-growth stage is reached, in particular in the boreal biome. In this context, knowledge on TreM and deadwood dynamics in old-growth forest stands is necessary to better understand how these forests contribute to biodiversity and ecosystem services. The aim of this study is thus to determine how TreM, and deadwood abundance and diversity vary within boreal old-growth forests. To reach this objective, we surveyed TreM and deadwood attributes, as well as structural and abiotic attributes, in 71 boreal old-growth forests situated in Quebec, Canada. We used hierarchical clustering analysis to identify TreM and deadwood abundance and diversity patterns in the studied stands. We identified five clusters of TreM and deadwood characteristics, which corresponded to three stages of old-growth forest succession: canopy break-up (beginning of the old-growth stage), transition old-growth stage (replacement of the first cohort by old-growth cohorts) and true old-growth stage (first cohort all or almost all gone). The peak in TreM richness and diversity was reached at the transition old-growth stage, whereas the peak for deadwood richness and diversity was reached at the true old-growth stage. Overall, true old-growth forests were defined by a combination of moderate to high TreM density and high deadwood volume, but these values significantly varied among stands depending on past secondary disturbances, stand structure and its composition (black spruce [Picea mariana Mill.] dominated vs mixed black spruce – balsam fir [Abies balsamea (L.) Mill.]). These results therefore underscore the importance of considering old-growth forests as dynamic rather than static ecosystems, as the composition of tree- and deadwood-related microhabitats in the same old-growth stand may markedly change over time. At landscape scale, these results also imply that the mosaic of habitats present in old-growth forests can vary greatly from one location to another, highlighting the importance of maintaining a diversity of old-growth forest structure and composition.
Yves Bergeron, Martin Barrette, Liping Wei, Nicole J. Fenton, Nelson Thiffault. Can understory functional traits predict post-harvest forest productivity in boreal ecosystems? 2021. For. Ecol. Manage. 495:119375
DOI : 10.1016/j.foreco.2021.119375
Understory vegetation plays an important role in maintaining biodiversity, soil nutrient cycling and carbon stocks, yet the ability of understory functional traits to predict forest productivity after harvesting disturbance is unknown. Our objective was to investigate the utility of individual traits (the community-weighted trait mean) and combined information from multiple traits (functional diversity indices) of understory plants in predicting tree diameter growth of black spruce (Picea mariana (Mill.) B.S.P.) after two harvesting methods (clearcutting and careful logging). We used vegetation and tree growth data from a network of field plots (171 plots on 43 sites) established in black spruce dominated forests across Ontario and Quebec, in northeastern Canada. Functional traits (11 traits) of dominant understory species that reflect plant morphology, regeneration strategy, and resource utilization were collected. We then used generalized linear mixed models (GLMMs) to model the response of tree diameter increment to functional diversity indices, community-weighted trait means and their interactions with harvesting method. Our results showed that: 1) at the functional diversity level, functional richness had a positive relationship with tree growth in clear-cut forests, while functional evenness showed a negative and functional divergence a positive relationship with tree growth in careful logging forests; 2) at the individual trait level, understory species with relatively large morphological trait values often promoted tree growth in both forest types, with stronger relationships in careful logging than in clear-cut forests. For regeneration traits, heavier seed weight or permanent seed bank persistence of understory plants had negative relationships with tree growth, and those relationships were either only found in careful logging forests or did not depend on harvesting type. A positive relationship was found between vegetative propagation species and tree growth, which was stronger in careful logging than in clear-cut forests. Species preferring either humid or xeric habitat had positive relationships with tree growth; both shade-tolerant and shade-intolerant species also positively correlated to tree growth. In conclusion, our study shows the important roles of understory traits in predicting tree growth based on both niche complementarity and mass-ratio hypotheses. Moreover, disturbance severity influenced the balance or degree of the positive and negative interactions that occurred between understory plants and black spruce tree growth. We suggest that identifying the threshold of harvesting disturbance severity that can activate facilitation interactions between understory plants and crop trees would be an important topic for future study.
Marc Mazerolle, Mariano Feldman, Nicole J. Fenton, Marcel Darveau, Philippe Marchand, Louis Imbeau. Trends and gaps in the use of citizen science derived data as input for species distribution models: A quantitative review 2021. PlosOne 16(3):e0234587
DOI : 10.1371/journal.pone.0234587
Citizen science (CS) currently refers to the participation of non-scientist volunteers in any discipline of conventional scientific research. Over the last two decades, nature-based CS has flourished due to innovative technology, novel devices, and widespread digital platforms used to collect and classify species occurrence data. For scientists, CS offers a low-cost approach of collecting species occurrence information at large spatial scales that otherwise would be prohibitively expensive. We examined the trends and gaps linked to the use of CS as a source of data for species distribution models (SDMs), in order to propose guidelines and highlight solutions. We conducted a quantitative literature review of 207 peer-reviewed articles to measure how the representation of different taxa, regions, and data types have changed in SDM publications since the 2010s. Our review shows that the number of papers using CS for SDMs has increased at approximately double the rate of the overall number of SDM papers. However, disparities in taxonomic and geographic coverage remain in studies using CS. Western Europe and North America were the regions with the most coverage (73%). Papers on birds (49%) and mammals (19.3%) outnumbered other taxa. Among invertebrates, flying insects including Lepidoptera, Odonata and Hymenoptera received the most attention. Discrepancies between research interest and availability of data were as especially important for amphibians, reptiles and fishes. Compared to studies on animal taxa, papers on plants using CS data remain rare. Although the aims and scope of papers are diverse, species conservation remained the central theme of SDM using CS data. We present examples of the use of CS and highlight recommendations to motivate further research, such as combining multiple data sources and promoting local and traditional knowledge. We hope our findings will strengthen citizen-researchers partnerships to better inform SDMs, especially for less-studied taxa and regions. Researchers stand to benefit from the large quantity of data available from CS sources to improve global predictions of species distributions.
Nicole J. Fenton, Sylvain Jutras, Samuel Roy Proulx, Yves Bergeron, Alain Leduc, Marc Mazerolle. Partial Harvest in Paludified Black Spruce Stand: Short-Term
Effects on Water Table and Variation in Stem Diameter 2021. Forests 12(3):271
DOI : 10.3390/f12030271
The boreal forest is considered to be a low productivity forest due to its cold climate and poorly drained soils promoting paludification. These factors create conditions favouring accumulation of undecomposed organic matter, which causes declining growth rates of forest stands, ultimately converting mature stands into peatlands. Under these conditions, careful logging is conducted during winter, which minimizes soil disturbance in northwestern Quebec boreal forest. This results in water table rise, increased light availability and paludification. Our main objective was to evaluate the short-term effect of partial harvesting as an alternative method to careful logging in winter to mitigate water table rise on black spruce (Picea mariana [Mill.] B.S.P.) stands. We quantified tree stem diameter variation and daily variation in water table depth in mature spruce stands before and after partial harvest (basal area reduction of 40%) and girdling (same basal area reduction with delayed mortality) during 2016 and 2017 growing seasons. Water table variation prior to and following silvicultural treatments did not differ one year after treatment. Daily stem diameter variation in black spruce did not differ between treatments and control. Furthermore, temperature exerted a positive effect on variation in water table and on stem diameter. These results suggest that partial harvest could be more effective than clearcutting to mitigate negative effects of a high water table while limiting paludification.
Louiza Moussaoui, Nicole J. Fenton, Yves Bergeron, Annie Claude Bélisle, Alain Leduc, Miguel Montoro Girona, Benoit Lafleur. Success Factors for Experimental Partial Harvesting
in Unmanaged Boreal Forest: 10?Year Stand
Yield Results. 2020. Forests 11(11):1199
DOI : 10.3390/f11111199
Over the past two decades, partial harvesting has been increasingly used in boreal forests as an alternative to clearcutting to promote irregular stand structures and maintain a balance between biodiversity preservation and continued timber production. However, relatively little is still known about the silvicultural potential of partial harvesting in Canada’s boreal forest, especially in areas prone to organic matter accumulation (paludification), and most prior research has focused on biodiversity responses. In this study, we assess the effects of partial harvesting on stand development (recruitment, growth, and mortality) ten years after harvesting in previously unmanaged black spruce stands and quantify its effectiveness in reducing the impacts on ecosystem structures. Our analyses revealed that pre-harvest stand structure and site characteristics, especially initial basal area, sapling density, tree diameter, and organic layer thickness (OLT) were major factors involved in stand development ten years following these partial harvesting treatments. Depending on pre-harvest structure and site characteristics, partial harvesting can result in either an increase in post-harvest tree recruitment and growth or a loss of stand volume because of standing tree mortality. To increase the chances of partial harvesting success in ensuring an increase in decennial stand yield after harvest in black spruce forest stands, sites prone to paludification (i.e., where OLT >17 cm) should be left unharvested. This study illustrates the importance of taking into account pre-existing structure and site characteristics in the selection of management strategies to maximize the potential of partial harvesting to achieve sustainable forest management in black spruce stands.
Mathieu Bouchard, Nicole J. Fenton, Marion Barbé. Examining boreal forest resilience to temperature variability using bryophytes: forest type matters. 2020. Ecosphere 11(8):e03232
DOI : 10.1002/ecs2.3232
The capacity of individual species to tolerate environmental changes is a major driver of ecosystem resilience. This subject has been a hot topic in boreal forests due to the greater effect of climate change anticipated at northern latitudes. However, to date it has been mainly examined for trees, with comparatively little emphasis on other species groups. In this study, bryophytes were sampled in the boreal forest of Québec (Canada) using a stratified sampling design allowing us to separate the effect of dominant canopy composition (two types: coniferous and mixedwood) and of the spatial climatic gradient (relatively warm and relatively cold sites) on bryophyte community structure (species richness and composition). The results indicated that bryophyte composition was different between coniferous and mixedwood stands. The impacts of spatial variation in climate were more visible in mixedwood than coniferous stands, indicating an interaction between stand type and climate. Specifically, bryophytes from mixedwood stands, and particularly specialist communities associated with deadwood and live tree bases, were climate?sensitive and represent a potential target group to investigate the effects of climate change. In contrast, bryophyte communities from coniferous stands are stand structure?sensitive, with little response to climate, presumably partly because coniferous canopies buffer climatic variations. Since bryophyte community sensitivity to regional variations in climatic conditions depends on dominant canopy characteristics and microhabitat availability, we suggest that adapted forest management practices could play a role in attenuating climate change impacts on these organisms.
Carlos Cerrejon Lozano, Osvaldo Valeria, Marion Barbé, Nicolas Mansuy, Nicole J. Fenton. Predictive mapping of bryophyte richness patterns in boreal forests using species distribution models and remote sensing data. 2020. Ecological Indicator 119:106826
DOI : 10.1016/j.ecolind.2020.106826
Bryophytes represent an essential component of global biodiversity and play a significant role in many ecosystems, including boreal forests. In Canadian boreal forests, industrial exploitation of natural resources threatens bryophyte species and the ecological processes and services they support. However, the consideration of bryophytes in conservation issues is limited by current knowledge gaps on their distribution and diversity patterns. This is mainly due to the ineffectiveness of traditional field surveys to acquire information over large areas. Using remote sensing data in combination with species distribution models (SDMs), we aim to predict and map diversity patterns (in terms of richness) of i) total bryophytes, and ii) bryophyte guilds (mosses, liverworts and sphagna) in 28,436 km2 of boreal forests of Quebec (Canada). A bryophyte presence/absence database was used to develop four response variables: total bryophyte richness, moss richness, liverwort richness and sphagna richness. We pre-selected a group of 38 environmental predictors including climate, topography, soil moisture and drainage as well as vegetation. Then a final set of predictors was selected individually for each response variable through a two-step selection procedure. The Random Forest (RF) algorithm was used to develop spatially explicit regression models and to generate predictive cartography at 30 m resolution for the study area. Predictive mapping-associated uncertainty statistics were provided. Our models explained a significant fraction of the variation in total bryophyte and guild level richness, both in the calibration (42 to 52%) and validation sets (38 to 48%), outperforming models from previous studies. Vegetation (mainly NDVI) and climatic variables (temperature, precipitation, and freeze–thaw events) consistently appeared among the most important predictors for all bryophyte groups modeled. However, guild-level models identified differences in important factors determining the richness of each of the guilds and, therefore, in their predicted richness patterns. For example, the predictor number of days > 30 °C was especially relevant for liverworts, while drainage class, topographic position index and PALSAR HH-polarized L-band were identified among the most important predictors for sphagna. These differences have important implications for management and conservation strategies for bryophytes. This study provides evidence of the potential of remote sensing for assessing and making predictions on bryophyte diversity across the landscape. © 2020 Elsevier Ltd
Maxence Martin, Nicole J. Fenton, Hubert Morin. Boreal old-growth forest structural diversity challenges aerial photographic survey accuracy. 2020. Can. J. For. Res. 50:155-169
DOI : 10.1139/cjfr-2019-0177
L’érosion des superficies des vieilles forêts boréales est actuellement l’un des enjeux majeurs de l’aménagement forestier; cependant, la résolution de ce problème nécessite des inventaires précises. Ainsi, l’objectif de cette étude était de déterminer si les précédents inventaires forestiers aériens identifiaient correctement les vieilles forêts dans les paysages boréaux du Québec, au Canada. Nous avons comparé les stades de succession (forêt équienne ou vieille forêt) de deux inventaires aériens réalisés en 1968 (inventaire aérien préindustriel) et en 2007 (inventaire aérien moderne) sur un territoire de 2200 km2. Nous avons aussi comparé les résultats de l’inventaire aérien moderne avec ceux obtenus à partir de 74 placettes de terrain échantillonnées entre 2014 et 2016. Les deux inventaires aériens étaient très incohérents : 80,8 % des peuplements non-perturbés identifiés comme « vieilles forêts » par l’inventaire préindustriel étaient classés comme « équiennes » par l’inventaire moderne et 60 % des placettes de terrain identifiées comme « vieilles forêts » étaient aussi classées « équiennes » par l’inventaire aérien moderne. Le manque d’attributs de vieilles forêts évidents ainsi que l’utilisation de critères inadaptés (c.-à-d. nécessitant une forte complexité verticale et d’importants changements de composition en espèces arborescentes durant la succession forestière) étaient les principaux éléments expliquant ces erreurs. Il est ainsi possible que la majorité des vieilles forêts boréales du Québec ne soient pas identifiées comme telles, limitant l’efficacité des stratégies de gestion durable.
Maxence Martin, Yan Boucher, Philippe Marchand, Hubert Morin, Nicole J. Fenton. Forest management has reduced the structural diversity of residual boreal old-growth forest landscapes in Eastern Canada. 2020. For. Ecol. Manage. 458:117765
DOI : 10.1016/j.foreco.2019.117765
The impact of traditional even-aged forest management on landscape age structure, tree composition, and connectivity has been well documented. Very little, however, is known about the impact on stand structural diversity. This study aims to compare the structural and abiotic characteristics of forest stands disturbed by clearcut logging and by stand-replacing fire in Quebec’s boreal landscapes. We hypothesized that unlike fire, logging specifically targeted stands having a higher economic value, i.e., merchantable volume, leaving altered forest characteristics on post-harvested landscapes. We compared two aerial forest surveys of a 2200 km2 study area, one survey completed before any logging activity (preindustrial survey; 1980s), and the second survey collected >10 years after logging activity (modern survey; 2000s). Forest stands at the time of the preindustrial survey were primary forests. We identified stands as either burned, logged, or left aside after forest management of the area (remaining stands) between the two surveys and compared their structural and abiotic characteristics using logistic regression. The structural and abiotic characteristics of burned and logged stands differed significantly. Relative to the burned stands, logged stands were older, denser, and marked by poorer drainage and a higher proportion of black spruce; therefore post-harvest and post-burn landscapes differed in terms of their structural diversities. Traditional even-aged forest management has significantly altered the boreal forest landscape by targeting specific stands having higher economic value and leaving behind stands of lower economic value. Remaining high economic stands should be protected, and a more balanced approach to harvesting must be used in the context of ecosystem-based management.
Maxence Martin, Cornelia Krause, Hubert Morin, Nicole J. Fenton. Unveiling the Diversity of Tree Growth Patterns in Boreal Old-Growth Forests Reveals the Richness of Their Dynamics. 2020. Forests 11:1-18
DOI : 10.3390/f11030252
Research Highlights: Radial growth patterns of trees growing in old-growth boreal forests in eastern Canada can be grouped into a small number of simple patterns that are specific to different old-growth forest types or successional stages. Background and Objectives: Identifying the main radial growth trends in old-growth forests could help to develop silvicultural treatments that mimic the complex dynamics of old-growth forests. Therefore, this study aimed to identify the main radial growth patterns and determine how their frequencies change during forest succession in old-growth forests, focusing on boreal landscapes in eastern Canada. Materials and Methods: We used dendrochronological data sampled from 21 old-growth stands in the province of Quebec, Canada. Tree-ring chronologies were simplified into chronologies of equal length to retain only primary growth trends. We used k-means clustering to identify individual growth patterns and the difference in growth-pattern frequency within the studied stands. We then used non-parametric analyses of variance to compare tree or stand characteristics among the clusters. Results: We identified six different growth patterns corresponding to four old-growth forest types, from stands at the canopy breakup stage to true old-growth stands (i.e., when all the pioneer cohort had disappeared). Secondary disturbances of low or moderate severity drove these growth patterns. Overall, the growth patterns were relatively simple and could be generally separated into two main phases (e.g., a phase of limited radial increment size due to juvenile suppression and a phase of increased radial increment size following a growth release). Conclusions: The complexity of old-growth forest dynamics was observed mainly at the stand level, not at the tree level. The growth patterns observed in true old-growth forests were similar to those observed following partial or stem-selection cuts in boreal stands; thus, these silvicultural treatments may be effective in mimicking old-growth dynamics.
Kobra Maleki, Benoit Lafleur, Brian Harvey, Marc Mazerolle, Nicole J. Fenton. Changes in Deadwood and Understory Vegetation
12 Years after Partial and Clearcut Harvesting in
Mixedwood Stands of Western Quebec, Canada. 2020. Forest Science 66(3):337-350
DOI : 10.1093/forsci/fxz087
Yves Bergeron, Marine Pacé, David Paré, Nicole J. Fenton. Effects of lichen, Sphagnum spp. and feathermoss leachates
on jack pine and black spruce seedling growth. 2020. Plant and soil. 452:441-455
DOI : 10.1007/s11104-020-04587-0
Aim
The main objective of this study was to evaluate the influence of leachates from three typical boreal forest ground layers on young tree growth and to explore the linkages between the chemical composition of the leachates, tree growth, the allocation between belowground and aboveground parts, and ectomycorrhizal colonization.
Methods
An original 6-month greenhouse experiment was set up to investigate (i) the effects of lichen (Cladonia spp.) and feather moss (Pleurozium schreberii [Brid.] Mitt.) leachates on jack pine (Pinus banksiana Lamb.) growth and (ii) the effects of feather moss and Sphagnum spp. leachates on black spruce (Picea mariana [Mill.] B.S.P.) growth.
Results
Belowground growth and root allocation was reduced by lichen leachates in 2-year-old pine seedlings, while the impact was significant on both below- and aboveground growth in 6-month-old pine seedlings. A substance having the same migration time as usnic acid was detected in the lichen leachates by high-performance liquid chromatography. Sphagnum spp. and feather moss leachates were not found to have any effect on black spruce seedling growth, despite a higher supply of dissolved inorganic N in the feather moss leachates compared to the leachates of Sphagnum spp. and the control.
Conclusions
These results demonstrate that ground layer composition plays a crucial role in shaping the plant community in boreal ecosystems by influencing the chemical composition of the soil solution. They suggest that chemical interference may be another mechanism by which lichens promote the self-perpetuation of open woodlands in the closed-crown boreal forest.
Maxence Martin, Nicole J. Fenton, Hubert Morin. Secondary disturbances of low and moderate severity drive the dynamics of eastern Canadian boreal old-growth forests. 2019. Ann. For. Sci. 76(4):108
DOI : 10.1007/s13595-019-0891-2
Both low- and moderate-severity secondary disturbances are drivers of eastern Canadian boreal old-growth forests dynamics. Moderate-severity disturbances reflect mainly spruce budworm outbreaks. Low-severity disturbances are produced by both spruce budworm outbreaks and random events such as windthrow. Each level of disturbance severity has a specific impact on stand dynamics, and both shape the diversity of boreal old-growth forests.
Context
A regular succession of low-severity disturbances is seen as determining the dynamics of the old-growth stage (gap dynamics); however, recent studies suggest that moderate-severity secondary disturbances also play an important role in the dynamics of eastern Canadian boreal forests.
Aims
This study aims to determine if eastern Canadian boreal old-growth forests are driven by a combination of low- and moderate-severity secondary disturbances.
Methods
We reconstructed the 200-year disturbance history of 20 boreal old-growth stands using dendrochronological analysis. We discriminated low- from moderate-severity disturbances based on their respective influence on mean stand growth.
Results
The secondary disturbance regime of eastern Canadian boreal old-growth forests varies highly over time, reflected by disturbance peaks in the chronological record. Most peaks occurred during spruce budworm outbreaks related to both low- and moderate-severity disturbances. Between each peak, low-severity disturbances dominate. Each level of disturbance severity has specific consequences for stand dynamics.
Conclusion
Both low and moderate secondary disturbances are drivers of forest dynamics in eastern Canadian boreal old-growth stands and shape the structural diversity of these stands. The complexity of these dynamics should be recognized in management planning to ensure the efficiency of old-growth forest conservation policies.
Mohammed Henneb, Nicole J. Fenton, Osvaldo Valeria, Nelson Thiffault. Black spruce seedling growth response in controlled organic and organic-mineral substrates. 2019. Silva Fennica 53(4):10230
DOI : 10.14214/sf.10230
In the boreal forest of eastern Canada, a large proportion of black spruce (Picea mariana [Mill.] Britton, Sterns & Poggenb.) stands are affected by paludification. Edaphic conditions that are created by paludification processes, including an abundance of microsites with high moisture and low nutrient contents, hinder forest regeneration. Disturbance of paludified sites by mechanical soil preparation (MSP) reduces organic layer thickness, while generating a range of substrates for regeneration establishment. Yet, little information is available regarding the effects of these substrates on tree growth. Our objective was to determine the effect of organic, mineral and organo-mineral substrates that are created following MSP of a paludified site on the growth and root development of black spruce seedlings in a semi-controlled environment. We demonstrated that substrate exerted a significant effect on seedling growth and foliar concentrations of N, P and K. Increase in height and diameter were respectively greatest on clay (mineral) and mesic substrates. Substrate effects did not affect total biomass increases or final root biomass. Foliar nutrients (N, P, K) were relatively high in seedlings that were established on mesic substrates and relatively low for those established on clay substrates. To ensure successful seedling establishment, we recommend the application of MSP techniques that expose organic-mesic substrates on sites that are susceptible to paludification.
Liping Wei, Yves Bergeron, Nicole J. Fenton, Benoit Lafleur. The Combined Role of Retention Pattern and
Post-Harvest Site Preparation in Regulating Plant
Functional Diversity: A Case Study in Boreal
Forest Ecosystems. 2019. Forests 10(11):1006
DOI : 10.3390/f10111006
Changes in the light availability in forests generated by diversified retention patterns (e.g., clear cut, partial harvest) have been shown to strongly filter the plant species present. Modified soil microsite conditions due to post-harvest site preparation (e.g., mechanical site preparation, prescribed fire) might also be an important determinant of plant diversity. The objective here was to detect how retention pattern and post-harvest site preparation act as filters that explain the understory functional diversity in boreal forests. We also assessed whether these effects were dependent on forest attributes (stand type, time since fire, and time since harvest). We retrieved data from seven different studies within 101 sites in boreal forests in Eastern Canada. Our data included forests harvested with two retention patterns: careful logging and clear cut, plus unharvested control forests. Three post-harvest site preparation techniques were applied: plow or disk trenching after careful logging, and prescribed fire after clear cut. We collected trait data (10 traits) representing plant morphology, regeneration strategy, or resource utilization for common species. Our results demonstrated significant variation in functional diversity after harvest. The combined effect of retention pattern and site preparation was the most important factor explaining understory diversity compared to retention pattern only and forest attributes. According to RLQ analysis, harvested forests with site preparation favored traits reflecting resistance or resilience ability after disturbance (clonal guerilla species, geophytes, and species with higher seed weight). Yet harvested forests without site preparation mainly affected understory plant species via their light requirements. Forest attributes did not play significant roles in affecting the relationship between site preparation and functional diversity or traits. Our results indicated the importance of the compounding effects of light variation and soil disturbance in filtering understory diversity and composition in boreal forests. Whether these results are also valid for other ecosystems still needs to be demonstrated.
Mohammed Henneb, Yves Bergeron, Nicole J. Fenton, Nelson Thiffault, Osvaldo Valeria. Effects of Mechanical Site Preparation on Microsite Availability and Growth of Planted Black Spruce in Canadian Paludified Forests. 2019. Forests 10(8):670
DOI : 10.3390/f10080670
Low productivity caused by paludification in some parts of the closed black spruce (Picea mariana (Mill.) B.S.P) dominated boreal forest threatens the provision of ecosystem services, including wood fiber production. The accumulation, over time, of organic matter in paludified soils leads to an anaerobic environment that reduces microbial activity, decelerates decomposition of organic matter, and generates nutrient-poor microsites for regeneration. Consequently, it results in significant impacts on site productivity. Considering its ability to disturb the soil, mechanical site preparation (MSP) is viewed as a potential treatment that can help restore productivity of paludified sites following harvesting. We conducted a field experiment to verify if (1) the availability of microsites conducive to reforestation varies with MSP, microtopography (slope and aspect) and initial OLT conditions; (2) the growth of planted seedlings depends on the intensity of mechanical disturbance of the organic layer, type of microsite, planting density, presence of Ericaceae, and the planting position and depth; (3) there are direct and indirect causal relationships between microsites availability after MSP, OLT, microtopography, planting quality and seedlings growth; and (4) if mechanical site preparation and microsite type exposed affect the Ericaceae cover after planting. Our results confirmed that MSP is effective in establishing conditions that permit a productive regeneration cohort on these paludified sites. To ensure successful establishment of plantations on these sites, it is necessary, however, to distinguish between those that are slightly or moderately paludified from those that are highly paludified, as treatment effectiveness of different MSP types depends on organic layer thickness. Our results also show that preference should be given to some microsite types as clay and mixed-substrate microsites for planting to ensure sufficient availability of water and nutrients for seedlings.
Bright B. Kumordzi, Isabelle Aubin, Françoise Cardou, Bill Shipley, Cyrille Violle, Jill Johnstone, Madur Anand, André Arsenault, F. Wayne Bell, Yves Bergeron, Isabelle Boulangeat, Maxime Brousseau, Sylvain Delagrange, Nicole J. Fenton, Dominique Gravel, Ellen E. MacDonald, Benoît Hamel, Morgane Higelin, Louis De Grandpré, François Hébert, Nathalie Isabel, Azim Mallik, Anne C.S. McIntosh, Jennie R. McLaren, Christian Messier, Dave M. Morris, Nelson Thiffault, Jean-Pierre Tremblay, Alison Munson. Geographic scale and disturbance influence intraspecific trait
variability in leaves and roots of North American understorey
plants. 2019. Functional Ecology 33(9):1771-1784
DOI : 10.1111/1365-2435.13402
- Considering intraspecific trait variability (ITV) in ecological studies has improved our understanding of species persistence and coexistence. These advances are based on the growing number of leaf ITV studies over local gradients, but logistical constraints have prevented a solid examination of ITV in root traits or at scales reflecting species’ geographic ranges.
- We compared the magnitude of ITV in above? and below?ground plant organs across three spatial scales (biophysical region, locality and plot). We focused on six understorey species (four herbs and two shrubs) that occur both in disturbed and undisturbed habitats across boreal and temperate Canadian forests. We aimed to document ITV structure over broad ecological and geographical scales by asking: (a) What is the breadth of ITV across species range?scale? (b) What proportion of ITV is captured at different spatial scales, particularly when local scale disturbances are considered? and (c) Is the variance structure consistent between analogous leaf and root traits, and between morphological and chemical traits?
- Following standardized methods, we sampled 818 populations across 79 forest plots simultaneously, including disturbed and undisturbed stands, spanning four biophysical regions (~5,200 km). Traits measured included specific leaf area (SLA), specific root length (SRL) and leaf and root nutrient concentrations (N, P, K, Mg, Ca). We used variance decomposition techniques to characterize ITV structure across scales.
- Our results show that an important proportion of ITV occurred at the local scale when sampling included contrasting environmental conditions resulting from local disturbance. A certain proportion of the variability in both leaf and root traits remained unaccounted for by the three sampling scales included in the design (36% on average), with the largest amount for SRL (54%). Substantial differences in magnitude of ITV were found among the six species, and between analogous traits, suggesting that trait distribution was influenced by species strategy and reflects the extent of understorey environment heterogeneity.
- Even for species with broad geographical distributions, a large proportion of within?species trait variability can be captured by sampling locally across ecological gradients. This has practical implications for sampling design and trait selection for both local studies and continental?scale modelling.
Eloïse LeStum-Boivin, Gabriel Magnan, Michelle Garneau, Yves Bergeron, Nicole J. Fenton, Pierre Grondin. Spatiotemporal evolution of paludification associated with autogenic
and allogenic factors in the black spruce–moss boreal forest of
Québec, Canada. 2019. Quaternary Research 91(2):650-664
DOI : 10.1017/qua.2018.101
Paludification is the most common process of peatland formation in boreal regions. In this study, we investigated the autogenic (e.g., topography) and allogenic (fire and climate) factors triggering paludification in different geomorphological contexts (glaciolacustrine silty-clayey and fluvioglacial deposits) within the Québec black spruce (Picea mariana)–moss boreal forest. Paleoecological analyses were conducted along three toposequences varying from a forest on mineral soil to forested and semi-open peatlands. Plant macrofossil and charcoal analyses were performed on basal peat sections (?50 cm) and thick forest humus (<40 cm) to reconstruct local vegetation dynamics and fire history involved in the paludification process. Results show that primary paludification started in small topographic depressions after land emergence ca. 8000 cal yr BP within rich fens. Lateral peatland expansion and secondary paludification into adjacent forests occurred between ca. 5100 and 2300 cal yr BP and resulted from low-severity fires during a climatic deterioration. Fires that reduced or eliminated entirely the organic layer promoted the establishment of Sphagnum in microdepressions. Paludification resulted in the decline of some coniferous species such as Abies balsamea and Pinus banksiana. The paleoecological approach along toposequences allowed us to understand the spatiotemporal dynamics of paludification and its impacts on the vegetation dynamics over the Holocene.
Mélanie Jean, Yves Bergeron, Nicole J. Fenton, David Paré, Benoit Lafleur. Influence of fire and harvest severity on understory plant communities. 2019. For. Ecol. Manage. 436:88-104
DOI : 10.1016/j.foreco.2019.01.004
In the managed portion of the boreal forest of eastern North America, logging has replaced fire as the most important disturbance agent. There, a large proportion of timber is harvested in forests susceptible of accumulating a thick Sphagnum layer that decreases forest productivity, a process called paludification. In such a context, understanding how disturbance type and severity of soil disturbances may affect post-disturbance microhabitat characteristics and understory community composition is critical for forest management. Different management techniques have been used such as careful logging and clearcutting, as well as winter and summer harvests, with various impacts on soils and forest regeneration. In the current study, we used 55 study sites representing a gradient of soil disturbance severity by harvesting (winter and summer) and fire (low and high severity) to compare their impacts on understory plant communities in the Clay Belt area of eastern Canada. At each site, understory community composition (vascular plants, bryophytes, and lichens) was assessed. We found a strong response of communities to overall severity as represented by disturbance type (careful logging, clearcutting, and fire), but little impact of fine scale disturbance severity (winter vs. summer, low vs. high severity disturbance) within each type of disturbance. Differences in community composition were reflected in the abundance of the various plant functional types, with invaders being more common in harvested sites, endurers being common in all disturbances except high severity fires, and avoiders being more common in older sites. Understory communities in harvested sites (<40?years old) were similar to communities typical of old sites originating from natural wildfire disturbances (75–100?years old low severity fires or 200?years old high severity fires) in terms of composition, but also Sphagnum spp. abundance. In order to maintain long-term forest productivity and manage forests in ways that more closely reproduce post-fire conditions, logging operations should aim at increasing soil disturbances, for example by using prescribed burns, in the Clay Belt area of eastern North America.
Yves Bergeron, Louiza Moussaoui, Nicole J. Fenton, Alain Leduc. Changes in forest structure along a
chronosequence in the black spruce boreal forest: Identifying structures to be reproduced
through silvicultural practices. 2019. Ecological Indicator 97:89-99
DOI : 10.1016/j.ecolind.2018.09.059
In managed boreal forests, partial harvesting has been proposed to promote forest structural complexity and to therefore maintain associated biodiversity. However, there have been few studies identifying forest structures that should be maintained within the forest matrix, and fewer still on changes in these structures during succession. Consequently, there is no tool to identify these different structures in the field or their sequence along natural succession. This study proposes a key that can be used in the field and allows for the identification of different forest diameter structures along a successional sequence in the black spruce boreal forest. The specific objectives of this study were (1) to classify the types of forest structures encountered in natural black spruce boreal forest based on their diameter distribution, and (2) to link this classification to time since last fire and its spatial homogeneity at the stand level. This study shows that the forest stand structure, in black spruce forests, is varied and that this structural variety is mainly controlled by time since last fire. It also shows that the timing of stand structural maturation varies with severity of the last fire and surficial deposit. The identification key suggests that based on tree diameter distribution it is possible to discriminate among young, mature and old forest structures, which could help forest managers select stands to be harvested according to different objectives and hence maintain the variety of black spruce forest structures at the landscape scale.
Franck O.P. Stefani, Hughes B. Massicotte, Nicole J. Fenton, Marine Pacé, Linda E. Tackaberry, Yves Bergeron, David Paré. Lichens Contribute to Open Woodland
Stability in the Boreal Forest Through
Detrimental Effects on Pine Growth and
Root Ectomycorrhizal Development. 2019. Ecosystems 22(1):189-201
DOI : 10.1007/s10021-018-0262-0
In the boreal forest, open lichen woodlands have been described as an alternative stable state to closed-crown feather moss forest. In this study, we addressed the role of terricolous lichens in stabilizing open woodlands by hindering tree regeneration and/or growth. Based on field and greenhouse experiments, we compared germination and growth of jack pine (Pinus banksiana) on feather mosses (primarily Pleurozium schreberi) and lichens (primarily Cladonia stellaris), using bare mineral soil as a control. Drivers were investigated by (1) manipulating nutrient supply, (2) simulating shade of a closed canopy on the ground layer with the assumption this would mitigate lichen influence on pine growth, and (3) examining pine root ectomycorrhizal colonization and diversity as indicators of pine ability to take up nutrients. Total growth of 6-month-old greenhouse and 2–3-year-old field seedlings, as well as belowground growth of 2-year-old greenhouse seedlings, was significantly greater in moss than in lichen. Seed germination was not affected by ground cover type. Although field phosphorus and base cation availability was greater in mosses than in lichens, fertilization did not entirely compensate for the negative effects of lichens on pine growth in the greenhouse. Ground layer shading had no impact on pine growth. Lichens were associated with reduced abundance and modified composition of the root ectomycorrhizal community. By suggesting that terricolous lichens constitute a less favorable growth substrate than mosses for pine, our results support the hypothesis that lichens contribute to open woodland stability in the potentially closed-crown feather moss forest.
Sophie Laliberté, Nicole J. Fenton. Création d'une nouvelle chaire de recherche tirant profit de trois pôles d'expertise de l'UQAT. 2018. Le Couvert Boréal p.10-11
Yves Bergeron, Luc Guindon, Nicolas Mansuy, André Beaudoin, Mohammed Henneb, Nicole J. Fenton, Ahmed Laamrani, Sonia Légaré, Osvaldo Valeria. Soil data for mapping paludification in black spruce forests of eastern Canada. 2018. Data in brief 21:2616-2621
DOI : 10.1016/j.dib.2018.11.131
Soil data and soil mapping are indispensable tools in sustainable forest management. In northern boreal ecosystems, paludification is defined as the accumulation of partially decomposed organic matter over saturated mineral soils, a process that reduces tree regeneration and forest growth. Given this negative effect on forest productivity, spatial prediction of paludification in black spruce stands is important in forest management. This paper provides a description of the soil database to predict organic layer thickness (OLT) as a proxy of paludification in northeastern Canada. The database contains 13,944 OLT measurements (in cm) and their respective GPS coordinates. We collected OLT measurements from georeferenced ground plots and transects from several previous projects. Despite the variety of sources, the sampling design for each dataset was similar, consisting of manual measurements of OLT with a hand probe. OLT measurements were variable across the study area, with a mean ± standard deviation of 21 ± 24?cm (ranging from a minimum of 0?cm to a maximum of 150?cm), and the distribution tended toward positive skewing, with a large number of low OLT values and fewer high OLT values. The dataset has been used to perform OLT mapping at 30-m resolution and predict the risk of paludification in northeastern Canada (Mansuy et al., 2018) [1]. The spatially explicit and continuous database is also available to support national and international efforts in digital soil mapping.
Nicole J. Fenton. Global trait–environment relationships of plant communities. 2018. Nature - Ecology & evolution
DOI : 10.1038/s41559-018-0699-8
Plant functional traits directly affect ecosystem functions. At the species level, trait combinations depend on trade-offs representing different ecological strategies, but at the community level trait combinations are expected to be decoupled from these trade-offs because different strategies can facilitate co-existence within communities. A key remaining question is to what extent community-level trait composition is globally filtered and how well it is related to global vs. local environmental drivers. Here, we perform a global, plot-level analysis of trait-environment relationships, using a database with more than 1.1 million vegetation plots and 26,632 plant species with trait information. Although we found a strong filtering of 17 functional traits, similar climate and soil conditions support communities differing greatly in mean trait values. The two main community trait axes which capture half of the global trait variation (plant stature and resource acquisitiveness) reflect the trade-offs at the species level but are weakly associated with climate and soil conditions at the global scale.Similarly, within-plot trait variation does not vary systematically with macro-environment. Our results indicate that, at fine spatial grain, macro-environmental drivers are much less important for functional trait composition than has been assumed from floristic analyses restricted to co-occurrence in large grid cells. Instead, trait combinations seem to be predominantly filtered by local-scale factors such as disturbance, fine-scale soil conditions, niche partitioning or biotic interactions.
Luc Guindon, Yves Bergeron, Nicolas Mansuy, André Beaudoin, Nicole J. Fenton, Ahmed Laamrani, Sonia Légaré, Osvaldo Valeria. Digital mapping of paludification in soils under black spruce forests of eastern Canada. 2018. Geoderma 15:e00194
DOI : 10.1016/j.geodrs.2018.e00194
In northern boreal ecosystems, paludification is defined as the accumulation of partially decomposed organic matter over saturated mineral soils, a process that reduces tree regeneration and forest growth. Given this negative effect on forest productivity, spatial prediction of paludification in black spruce stands is important in forest management. Here, we used the Random Forest approach to predict organic layer thickness (OLT) as a proxy of paludification in northeastern Canada, where forests tend to paludify naturally. The RF approach involved regression and classification models using a suite of 20 environmental predictors derived from multiple sources. The performance of each model was evaluated using cross-validation and an independent dataset based on conventional ecological survey maps from a provincial forest inventory. Importance measures of the predictors indicated that slope, topographic position index, spectral bands 4 and 5 from Landsat, latitude, and PALSAR_HH were the most important variables explaining the spatial distribution of OLT for both models. Cross-validated relative root mean square error (± standard deviation) for the regression model was estimated at 20.66%?±?0.576, with R2 of 0.41?±?0.020, whereas the average out-of-bag error for the classification model was estimated at 44.75%. However, both models performed better in predicting high risk of paludification (OLT values >40?cm). With predicted OLT values averaging 44.07?±?16.80?cm (range 4.25–104.58?cm), the spatial patterns were in accordance with the results of previous studies at the national and landscape scale. These results highlight that ecological types such as black spruce–sphagnum on thin-to-thick organic deposit, with ombrotrophic drainage, are particularly prone to paludification (OLT depth?>?40?cm) throughout the study area. Limitations of the models and applications for decision-making in forest management are discussed.
Gabriel Magnan, Eloïse LeStum-Boivin, Yves Bergeron, Michelle Garneau, Pierre Grondin, Nicole J. Fenton. Holocene vegetation dynamics and hydrological variability in forested peatlands of the Clay Belt, eastern Canada, reconstructed using a palaeoecological approach. 2018. Boreas
DOI : 10.1111/bor.12345
Forested peatlands are widespread in boreal regions of Canada, and these ecosystems, which are major terrestrial carbon sinks, are undergoing significant transformations linked to climate change, fires and human activities. This study targets millennial?scale vegetation dynamics and related hydrological variability in forested peatlands of the Clay Belt south of James Bay, eastern Canada, using palaeoecological data. Changes in peatland vegetation communities were reconstructed using plant macrofossil analyses, and variations in water?table depths were inferred using testate amoeba analyses. High?resolution analyses of macroscopic charcoal >0.5 mm were used to reconstruct local fire history. Our data showed two successional pathways towards the development of present?day forested peatlands influenced by autogenic processes such as vertical peat growth and related drying, and allogenic factors such as the occurrence of local fires. The oldest documented peatland initiated in a wet rich fen around 8000 cal. a BP shortly after land emergence and transformed into a drier forested bog rapidly after peat inception that persisted over millennia. In the second site, peat started to accumulate from ~5200 cal. a BP over a mesic coniferous forest that shifted into a wet forested peatland following a fire that partially consumed the organic layer ~4600 cal. a BP. The charcoal records show that fires rarely occurred in these peatlands, but they have favoured the process of forest paludification and influenced successional trajectories over millennia. The macrofossil data suggest that Picea mariana (black spruce) persisted on the peatlands throughout their development, although there were periods of more open canopy due to local fires in some cases. This study brings new understanding on the natural variability of boreal forested peatlands which may help predict their response to future changes in climate, fire regimes and anthropogenic disturbances.
Maxence Martin, Nicole J. Fenton, Hubert Morin. Structural diversity and dynamics of boreal old-growth forests case study in Eastern Canada. 2018. For. Ecol. Manage. 422:125-136
DOI : 10.1016/j.foreco.2018.04.007
Old-growth stands are considered as key components of boreal forest diversity and their preservation is largely integrated into management plans. However, while the differences between old-growth and young forests have largely been studied, little is known about the diversity of boreal old-growth forests. In managed landscapes, the efficacy of old-growth conservation plans may be reduced depending on how these old-growth forests are considered: as a single, homogeneous and steady-state forest type or as multiple, diverse and dynamic forest types. To fulfil this gap, our objectives were: (1) to create a typology of old-growth boreal structures; (2) to observe how these structures are influenced by environmental and temporal parameters; and (3) to elaborate a succession model of old-growth structural dynamics along temporal and environmental gradients. Seventy-one mature and overmature stands were sampled within a 2200?km2 territory situated in Eastern Canada. Cluster analysis divided the sampled stands into two even-aged types, three transition old-growth types and six true old-growth types. Slope, minimum time since last fire and organic horizon depth were the three environmental and temporal parameters influencing the old-growth structures. Paludification-related productivity decline was present in only one old-growth forest type, while the other sites remained productive. These results allowed the creation of three succession models of the dynamics of old-growth stands in the boreal forest of eastern Canada. Boreal stands can undergo numerous structural changes once the old-growth succession process is initiated. An increase in structural diversity when the true old-growth stage is reached, coupled with a variety of secondary disturbance characteristics, favours multiple pathways of structural evolution of these ecosystems over time. Therefore, forest management planning should incorporate this complexity to improve the preservation of old-growth forests in managed territories.
Sophie Laliberté, Alain Leduc, Pierre Drapeau, Nicole J. Fenton, Daniel Kneeshaw, Osvaldo Valeria, Yves Bergeron, Timothy Work. Commentaires de l’Institut de recherche sur les forêts et de la Chaire en aménagement forestier durable. 2018. Consultation sur le projet de stratégie nationale de production de bois MFFP 9 p.
À l’été 2018, le Ministère des forêts, de la faune et des parcs (MFFP) a tenu des consultations sur un projet de Stratégie nationale de production de bois. Dans ce document se trouvent les commentaires formulés aux noms de l’Institut de recherche sur les forêts (IRF) et de la Chaire en aménagement forestier durable (AFD). Ils sont structurés en fonction des questions contenues dans le formulaire fourni par le MFFP.
Yves Bergeron, Nicole J. Fenton, Martin Simard, Benoit Lafleur, David Paré, Osvaldo Valeria, Alain Leduc. Ecosystem management in paludified
boreal forests: enhancing wood production,
biodiversity, and carbon sequestration at
the landscape level. 2018. Forest Ecosystems 5:27
DOI : 10.1186/s40663-018-0145-z
Canada’s boreal forest represents an important contributor of the world’s wood supply industry. However, maintaining or increasing productivity of the boreal forest may be challenging in areas dominated by forested peatlands. Moreover, sustainable management of these forests must also consider other important aspects of the forest ecosystem such as biodiversity and carbon sequestration. To address these concerns, ecosystem-based management has been implemented in some Canadian jurisdictions, such as in regions where a large portion of the boreal forest is dominated by forested peatlands. The objectives of this paper are (1) to summarize our current understanding of how natural disturbances influence stand dynamics and biodiversity in forested peatlands, and (2) to review the main differences between natural and managed forest stands with respect to soil properties, stand productivity, understory plant communities. We also discuss how even-age management regime succeeds or fails to preserve old forests and how this loss affects both forest structure and habitat diversity at the landscape level. We conclude by showing how, in boreal forested peatlands, forest management could contribute to carbon sequestration and mitigate projected climate change.
Mathieu Paquette, Yves Bergeron, David Pothier, Nicole J. Fenton, Catherine Boudreault. Changes in bryophytes assemblages along a chronosequence in
eastern boreal forest of Quebec. 2018. Can. J. For. Res. 48(7):821-834
DOI : 10.1139/cjfr-2017-0352
Les vieilles forêts sont souvent considérées comme des centres de biodiversité pour les bryophytes en raison de leur
grande diversité de niches environnementales, de microhabitats et de leur continuité forestière. Selon cette hypothèse, les
vieilles forêts renfermeraient des espèces et traits associés à la dispersion différents des forêts plus jeunes. Dans cette étude, nous
avons comparé les bryophytes de vieilles forêts et de forêts plus jeunes en fonction de la composition en espèces, des traits
fonctionnels et des associations avec les microhabitats. Nous avons étudié les bryophytes dans 22 sites répartis en trois classes
d’âge (18 à >200 ans) en forêt boréale de l’est du Québec. La richesse des hépatiques, des espèces se reproduisant de façon
végétative et des espèces dont la reproduction sexuée est infréquente étaient supérieures dans la classe d’âge la plus vieille. Les
variables les plus influentes pour expliquer la richesse en espèces étaient les matériaux ligneux grossiers (MLG) et les autres
microhabitats, et la variable la plus influente pour expliquer la composition en espèces était la surface terrière du sapin baumier.
Les microhabitats les plus souvent associés aux espèces indicatrices étaient la matière organique, les MLG et les dépressions. Nos
résultats indiquent que les communautés associées aux vieilles forêts sont potentiellement sensibles à l’aménagement forestier
puisqu’elles renferment plusieurs espèces caractérisées par une faible capacité de dispersion et une tolérance moindre à la
compétition. Une approche combinant la protection d’habitats essentiels pour les espèces avec une faible capacité de dispersion
avec la protection de microhabitats essentiels dans les peuplements avoisinants aménagés est nécessaire pour assurer le succès de
recolonisation des espèces avec une faible capacité de dispersion et maintenir la diversité des bryophytes dans les paysages aménagés.
Louis Dubois, Jean Faubert, Yves Bergeron, Nicole J. Fenton, Marion Barbé, Martin Lavoie. Range Extensions of 35 Bryophyte Species in the Black Spruce–
Feather Moss Forest of Western Quebec, Canada. 2018. Can. Field Nat. 131(3): 258-269
DOI : 10.22621/cfn.v131i3.1901
Although the North American bryophyte flora are relatively well known, bryophytes of the Black Spruce–feather moss forest in the Nord-du-Québec administrative region, especially its southern portion (49–51°N, 74–79°W), remain under-sampled. Here, we report 169 bryophyte taxa for this region, of which 35 (14 true mosses, 20 liverworts, one sphagnum) represent noteworthy records, including 20 taxa new for the region. These new occurrences close several gaps in distribution in the study area and, more broadly, in the boreal Black Spruce (Picea mariana) forest of adjacent ontario. Microhabitat preferences of the species are also documented. This work represents a substantial contribution to knowledge of the bryophyte flora, which will help refine protection priority ranks of species of Quebec and Labrador.
Yves Bergeron, Marine Pacé, David Paré, Nicole J. Fenton. Differential effects of feather and Sphagnum spp. mosses on black spruce
germination and growth. 2018. For. Ecol. Manage. 415-416:10-18
DOI : 10.1016/j.foreco.2018.02.020
The composition of the bryophyte layer influences boreal forest regeneration and growth through its effect on soil conditions. Canopy openings in boreal spruce stands can favor the expansion of Sphagnum spp. in the understory at the expense of feather mosses. We use an experimental approach in both paludified field and greenhouse fully-randomized conditions to examine the differential effects of these two ground cover types on black spruce germination and growth, specifically the role of nutrient limitation in generating these effects. We also tested the impact of ground cover shading, simulating the effect of a closed forest canopy on the ground layer, with the assumption that the stress induced to mosses, especially to Sphagnum spp., would have a beneficial impact on tree growth. The two moss types had no differential effects on spruce germination and 0–6-month-old seedling growth in the greenhouse. However, the growth of 2-year-old seedlings in the greenhouse was lower in Sphagnum spp. than in feather mosses. This negative effect was removed by fertilization, suggesting that soil nutrient availability could explain the seedling growth difference between moss types. Greenhouse 2-year-old seedlings also allocated a greater proportion of biomass to roots in Sphagnum spp. than in feather mosses. In the field, feather and Sphagnum spp. mosses had no differential effects on 3-year-old seedling growth, and ground cover shading did not have any short-term positive impact on spruce growth. Although they were not validated in the field, the results we obtained in the greenhouse suggest that the replacement of feather mosses by Sphagnum spp. mosses do not only affect spruce growth through the build-up of an organic layer often associated with low soil temperature and excess water, but also through more direct effects on nutrient availability. Therefore, silvicultural treatments that would favor Sphagnum spp. expansion at the expense of feather mosses, such as partial or total harvesting with protection of regeneration and soils, may result in subsequent tree growth problems even in sites with moderate organic layer accumulation.
Yves Bergeron, Tadeusz Splawinski, Nicole J. Fenton, Sylvie Gauthier, Daniel Houle. The colonization of young fire initiated stands by the
crustose lichen Trapeliopsis granulosa and its potential
effect on conifer establishment and stand succession. 2018. Silva Fennica 52(1):7791
DOI : 10.14214/sf.7791
The resilience of closed-crown coniferous stands within the boreal forest of North America is highly dependent on successful re-establishment of tree species following fire. A shift from closed-crown forest to open lichen woodland is possible following poor natural regeneration during the initial establishment phase, followed by the development of extensive lichen cover, which may hinder ongoing recruitment. We examined the development of the crustose lichen Trapeliopsis granulosa (Hoffm.) 18 to 21 years following fire within six sites in the boreal forest of northwestern Quebec, and explored its potential to affect ongoing recruitment during early successional stages of stand development. Germination and survivorship trials were conducted within the laboratory to determine the establishment rate of Pinus banksiana Lamb. (jack pine) on T. granulosa, mineral soil, and burnt duff under two separate watering frequencies (observed and drought). Survival and establishment rates of jack pine were highest on burnt duff, and poor on both T. granulosa and mineral soil. Under the drought treatment, no seedlings survived on any substrates. In the field, T. granulosa cover had a positive relationship with mineral soil cover, and negative relationships with duff cover, ericaceous shrub cover, organic layer depth, other lichen cover, and Sphagnum moss cover. No discernable relationship was found between T. granulosa and tree density, rock cover, dead wood cover or other moss cover. The development of extensive T. granulosa cover in fire-initiated stands can impede ongoing recruitment of conifer species due to its poor seedbed quality, thereby maintaining open forests.
Martin Barrette, Marine Pacé, Yves Bergeron, Nicole J. Fenton, David Paré. Ground-layer composition may limit the positive impact of precommercial thinning on boreal stand productivity. 2017. Forest Science 63(6):559-568
DOI : 10.5849/FS-2017-062R2
In the boreal forest, ground-layer composition may modulate the effects of precommercial thinning (PCT) on stand productivity by affecting tree growth conditions. Based on data from 15 years of PCT monitoring in black spruce (Picea mariana) and jack pine (Pinus banksiana) stands, the objectives of this study were to investigate the effects of PCT on ground-layer composition and the way ground-layer composition is related to tree growth, stand productivity, and the PCT impact on stand productivity. PCT favored lichen expansion in xeric sites. The positive impact of PCT on stand productivity after 15 years was lower in sites with high year-one lichen cover, suggesting that the aboveground positive effect of PCT on growth may have been mitigated by a belowground negative feedback resulting from lichen expansion in xeric sites. Although Sphagnum spp. cover was not affected by PCT, 15-year increase in stand productivity was lower in sites with high year-one Sphagnum spp. cover. These results suggest that xeric stands with high lichen cover should not be targeted for PCT because of either null or negative effects on stand productivity. Subhydric stands with high Sphagnum spp. cover should also be avoided because of lower potential stand productivity. © 2017 Society of American Foresters.
Richard Caners, Yves Bergeron, Marion Barbé, Nicole J. Fenton. Interannual variation in bryophyte dispersal: linking
bryophyte phenophases and weather conditions. 2017. Botany 95(12):1151-1169
DOI : 10.1139/cjb-2017-0054
Les changements globaux, modifiant les aires de distributions des espèces, rendent opportun d’identifier les variables climatiques jouant sur les patrons de dispersion. Nous étudions les pluies de propagules aériennes (unités sexuelles et asexuelles de dispersion) de bryophytes boréales en réponse au climat. Cette étude est la première effectuée à l’échelle de la communauté et où le cycle phénologique des bryophytes est divisé en phases. Les propagules furent interceptées en 2013 (été et automne) et 2014 (printemps et automne), et les variables climatiques de la région compilées de 2012 à 2014. Les variables climatiques influençant chaque phase du cycle, une saison à deux ans avant la dispersion, furent identifiées pour déterminer quelles phases et quelles variables impactent majoritairement le relargage des propagules. Ce relargage dépendait de variables climatiques contemporaines à la dispersion (directes) et indirectes durant l’hiver et l’été précédent (indirectes). Ces variables joueraient sur la survie/croissance de la plante mère, la fertilisation et le développement des propagules et des sporophytes. Le relargage des propagules semble particulièrement dépendre de l’humidité, de la température et de la longueur de l’hiver des saisons en amont. En divisant leur cycle phénologique en phases nous fournissons ici une méthode novatrice pour comprendre les relations entre la dispersion des bryophytes et le climat.
Nicole J. Fenton, Yves Bergeron, Marion Barbé. Boreal bryophyte response to natural fire edge creation. 2017. J. Veg. Sci. 28(5):915-927
DOI : 10.1111/jvs.12552
Question
Changes in species richness and composition in plant communities as a result of edge creation are well documented in anthropogenically modified landscapes, but what happens after natural disturbance? We investigate the responses of boreal bryophytes to edge creation in a post-wildfire residual forest patch system.
Location
Boreal black spruce–feather moss forest, western Québec, Canada.
Methods
Bryophyte community was sampled in 50-m2 plots: 117 plots in 39 undisturbed forest cores (control) and 108 plots in 30 residual forest patches from wildfire, divided into 48 core plots, 30 north-facing edge plots and 30 south-facing edge plots. Temporal, severity, spatial and structural characteristics of the stands were also recorded to explain bryophyte community composition.
Results
Residual edges and cores were more species-rich than undisturbed cores, particularly north-facing edges, but community composition differed between undisturbed and residual cores. Indicator species of undisturbed cores and residual edges differed in their species traits. Spatial variables explained variations in composition, with a larger difference between core and edge communities in patches over 3 ha compared to smaller patches.
Conclusion
We observed community composition change in response to natural edge creation. While edge influence is reduced in large patches, the bryophyte community remains distinct from undisturbed cores. This community change is a ‘control’ in studies of boreal bryophyte response to anthropogenic edge creation, and suggests that we should consider the natural range of variability. Finally, this study emphasizes that forest remnants do not substitute for continuous and undisturbed forests.
Daniel H Norris, Ekaphan Kraichak, Allen C. Risk, Diane Lucas, Dorothy J. Allard, Frida Rosengren, Theresa A. Clark, Nicole J. Fenton, Micheal Tessler, Nonkululo Phephu, Evelyne T. Lennette. On the diversity and richness of understory bryophytes at Nectandra Cloud Forest Reserve, Costa Rica. 2017. Biodiversity Data Journal 5(1):e11778
DOI : 10.3897/BDJ.5.e11778
Background A survey of the understory bryophytes in the Nectandra Cloud Forest Preserve yielded 1083 specimens distributed among 55 families, represented by 74 genera of mosses, 75 genera of liverworts and 3 of hornworts. We studied and analyzed the bryophytic distribution on six types of substrates: 1) corticolous, 2) epiphyllous, 3) saxicolous, 4) terricolous, 5) aquatic and 6) lignicolous. The richness and composition of bryophyte genera are compared to those of other previous bryophyte surveys from 4 other sites with different oceanic exposures, climatic and geographic conditions in Costa Rica. New information This is a report of the first extensive general survey of bryophytes at the Nectandra Reserve, a premontane cloud forest located on the Atlantic slope of Costa Rica, an area much less studied compared to the Monteverde cloud forest on the Pacific slope. © Norris D et al.
Yves Bergeron, Marion Barbé, Nicole J. Fenton. Are post-fire residual forest patches refugia for boreal bryophyte species? Implications for ecosystem based management and conservation. 2017. Biodiversity and Conservation 26(4):943-965
DOI : 10.1007/s10531-016-1281-9
Residual patches of forest remaining after natural or anthropogenic disturbance may facilitate regeneration of fragmented forest. However, residual patch function remains unclear, especially after natural wildfire. We investigate the role of residual boreal forest patches as refugia for bryophytes and ask the question, do they house bryophyte communities similar to those encountered in undisturbed forests? Bryophytes were sampled in three habitat types in black spruce boreal forests illustrating a gradient of disturbance severity: undisturbed forests, residual patches and burned matrices. Temporal, disturbance severity, spatial and structural variables of habitats were also recorded. Bryophyte community composition differed among habitat types with residual patches characterized by higher species richness, the loss of forest specialists and the addition of disturbance-prone species. The bryophyte community found in residual patches is at the interface between the communities of undisturbed forests and burned matrices. As residual patches did not conserve all species, particularly forest specialists, they were not refugia. However, we identify temporal, spatial and structural characteristics that can maintain bryophyte communities most similar to undisturbed forests and enhance residual patch “refugia potential”. Residual patches enhance bryophyte diversity of the landscape housing species that cannot survive in the burned matrix. As conclusion we discuss the use of retention patches in harvested stands, together with the preservation of undisturbed stands that house singular bryophyte communities and especially sensitive forest specialists.
Marine Pacé, Yves Bergeron, Nicole J. Fenton, David Paré. Ground layer composition affects tree fine root biomass and soil nutrient availability in jack pine and black spruce forests under extreme drainage conditions. 2017. Can. J. For. Res. 47(4):433-444
DOI : 10.1139/cjfr-2016-0352
In the boreal forest, long-lasting canopy gaps are associated with lichens on dry sites and with Sphagnum spp. on wet sites. We hypothesize that ground layer composition plays a role in maintaining gaps through its effects on fine root biomass (Ø?2mm) and soil nutrient availability. Along gradients of canopy openness in both jack pine-lichen and black spruce-moss forests, the relationships between canopy closure, ground layer composition, tree fine root biomass and soil nutrients were analyzed and decomposed using path analysis. The effects of lichen and Sphagnum spp. removal on tree fine root biomass and soil nutrients were tested in situ. Although variations in pine fine root biomass were mainly explained by stand aboveground biomass, lichen removal locally increased fine root biomass by more than 50%, resin extractable soil potassium by 580% and base cations by 180%. While Sphagnum cover was identified as a key driver of stand aboveground biomass reduction in paludified forest sites, its removal had no short-term effects on spruce fine root biomass and soil nutrients. Our results suggest that lichens, unlike Sphagnum spp., affect tree growth via direct effects on soil nutrients. These two different patterns call for different silvicultural solutions to maintain productive stands.
Nicole J. Fenton. Introduction to “Bryophytes and graminoids: Key roles in restoring boreal wetlands and forests”. 2016. Botany 94(11):vv
DOI : 10.1139/cjb-2016-0178
The boreal zone of Canada is of increasing interest nationally and internationally for the natural resources it contains, but also as one of the last generally undeveloped regions of the world. It is also predicted to experience some of the fastest warming over the next decades, owing to climate change.
With this increased interest in the boreal zone, research has evolved from a focus on understanding and mitigating anthropogenic disturbances to include restoration of forest and peatland ecosystems after extreme disturbances. These disturbances that remove nearly all biological legacies of the previous ecosystem could force the sites into an alternate stable state, which may not provide the same desired ecosystem services. Consequently, research needs to be undertaken to ensure that ecosystems can be restored to the original or desired end states. However, the nature of these end states and how to determine when they are reached remain to be defined.
In this context, the symposium “Ecological impacts and restoration of industrial sites: roles of bryophytes and graminoid vascular plants” at the 2015 Botany conference in Edmonton, Alberta, Canada, featured research dealing with habitat restoration. This special issue consists of a commentary integrating the research in a theoretical context (Fenton) and four articles based on presentations from the symposium (Vitt et al., Hartsock et al., Rochefort et al., and Guittonny-Larchevêque et al.).
Vitt et al. and Hartsock et al. follow a reconstructed fen watershed, examining plant composition and net nitrogen mineralization to determine its similarity to natural ecosystems of a similar type. Rochefort et al. also deal with fen ecosystems, and examine ways to restore a peat-generating system on a bog exploited for horticultural peat down to the fen layer. In the article by Guittonny-Larchevêque et al., we move to a terrestrial ecosystem and examine the potential role of graminoids in stabilizing anthropogenic soils generated by mine tailings. Together these articles showcase different types of research programs being undertaken in Canada on ecosystem restoration.
Marion Barbé, Emilie Chavel, Pierre Drapeau, Yves Bergeron, Nicole J. Fenton, Marc Mazerolle, Louis Imbeau. Dispersal of bryophytes and ferns is facilitated by small mammals in the boreal forest. 2016. Ecoscience 23(3-4):67-76
DOI : 10.1080/11956860.2016.1235917
Bryophytes and pteridophytes are important contributors to ecosystem services in boreal regions. Abiotic agents are considered their main dispersers, but recent studies suggest that biotic agents including invertebrates, birds and large mammals might also be efficient dispersal agents. Dispersal of cryptogams by ground-dwelling small mammals is often assumed to occur, but has yet to be demonstrated. In this study, we present the first evidence of boreal cryptogam species being dispersed by ground-dwelling small mammals. In 2013 and 2014, we recorded bryophyte cover and fern presence in 35 sites in black spruce forest. We also collected diaspores by brushing the fur of 99 ground-dwelling small mammals live-trapped in the same sites. Diaspores were then germinated on nutrient agar for six months. Viable diaspores of five bryophyte species and one fern species were successfully grown. No association was found between the cryptogam community sampled on site and the diaspore community grown on artificial substrate. Unlike abiotic agents that randomly disperse cryptogams, small mammals are more likely to transport diaspores to suitable substrates where microhabitat requirements for germination are met. Our results highlight the need to consider a broad spectrum of dispersal agents when focusing on the community dynamics of cryptogams.
Les cryptogames (bryophytes et ptéridophytes) représentent une composante fondamentale des régions boréales, et leur dispersion à moyenne et longue distances dépend principalement d’agents abiotiques. Des études récentes suggèrent pourtant l’importance d’agents biotiques tels que les invertébrés, les oiseaux et les grands mammifères comme vecteur de dispersion. La dispersion des cryptogames par les micromammifères est régulièrement admise mais n’a encore jamais été formellement examinée. Dans cette étude, nous présentons la première preuve tangible du transport des cryptogames boréaux par des micromammifères. Au cours des étés 2013 et 2014, nous avons estimé le couvert des bryophytes et la présence des fougères (communauté in situ) dans 35 sites en pessière noire à mousses. Nous avons brossé le pelage de 99 micromammifères de cinq espèces différentes capturés vivants dans les mêmes sites. Le matériel végétal collecté a été mis à germer durant six mois sur un gel nutritif d’agar. Nous avons observé la germination de cinq espèces de bryophytes et d’une espèce de fougère. Nous n’avons trouvé aucune association entre la communauté de cryptogames in situ présente dans les sites et la communauté germée sur un substrat artificiel. Contrairement à la dispersion aléatoire par des agents abiotiques, la dispersion par les micromammifères est plus susceptible de transporter les diaspores vers des substrats propices à leur germination. Nos résultats soulignent l’importance de considérer une vaste gamme d’agents de dispersion lors de l’étude des dynamiques des communautés de cryptogames.
Nicole J. Fenton. Applied ecology in Canada’s boreal: a holistic view of the
mitigation hierarchy and resilience theory. 2016. Botany 94(11):1009-1014
DOI : 10.1139/cjb-2016-0123
Le biome boréal canadien est une mosaïque de forêts et de tourbières. Ces écosystèmes se sont développés dynamiquement, affectés périodiquement par des événements perturbateurs d’une étendue spatiale significative et de sévérités variables, réduisant la biomasse des écosystèmes. Les mêmes types d’écosystèmes se régénèrent typiquement à partir des systèmes biologiques antérieurs. Cependant, il y a de plus en plus d’inquiétude quant à l’impact de ces perturbations anthropiques différentes, particulièrement les effets cumulatifs des perturbations dont les changements climatiques, qui ouvrent la porte à des déplacements vers des états stables alternatifs. Une stratégie favorisant la régulation des perturbations anthropiques est la « hiérarchie des mesures d’atténuation » lors de projets de développement, où les impacts sur les écosystèmes sont évités, atténués, réhabilités ou compensés. Cette approche pratique n’est pas encore intégrée dans la théorie de la perturbation et de la résilience. L’auteur développe ici une vision intégrée de la hiérarchie d’attenuation et de la théorie de la résilience et de la perturbation, en contexte boréal, en utilisant des services écosystémiques pour mesurer l’état de l’écosystème dans un processus à deux étapes qui modélise d’abord la perte de la fonction de l’écosystème et qui intègre ensuite la hiérarchie des mesures d’atténuation et la théorie de la résilience. L’application de ce modèle est discutée dans un contexte d’études de la réhabilitation après différents types de catastrophes anthropiques. Ces études, dont certaines sont publiées dans ce numéro spécial, soulignent le rôle important des bryophytes et des plantes de sous-étage pour établir des cibles de réhabilitation et développer des critères et des indicateurs de succès.
Canada’s boreal biome is a mosaic of forests and peatlands. These ecosystems have developed dynamically, periodically affected by disturbance events of significant spatial extent and variable severity, reducing ecosystem biomass. The same ecosystem types typically regenerate from biological legacies. However, concern is growing about the impact of these different anthropogenic disturbances, particularly compound disturbances including climate change, which open the door to shifts to alternate stable states. One strategy promoted to regulate anthropogenic disturbance is the “mitigation hierarchy” for development projects, where impacts on ecosystems are avoided, mitigated, restored, or compensated. This practical approach is not yet integrated into disturbance and resilience theory. Here, I develop an integrated view of the mitigation hierarchy, as well as resilience and disturbance theory, in a boreal context using ecosystem services to measure ecosystem state in a two-step process that first models loss of ecosystem function and then integrates the mitigation hierarchy and resilience theory. The application of this model is discussed in the context of restoration studies after different types of catastrophic anthropogenic disturbance. These studies, some of which are published in this special issue, highlight the important role of bryophytes and understory plants in setting restoration targets and developing criteria and indicators of success.
Louiza Moussaoui, Yves Bergeron, Nicole J. Fenton, Alain Leduc. Can Retention Harvest Maintain Natural Structural
Complexity? A Comparison of Post-Harvest and
Post-Fire Residual Patches in Boreal Forest. 2016. Forests 7(10):243
DOI : 10.3390/f7100243
Variable retention harvest promotes biodiversity conservation in managed boreal forests by
ensuring forest continuity and structural complexity. However, do post-harvest and post-fire patches
maintain the same structural complexity? This study compares post-harvest and post-fire residual
patches and proposes retention modalities that can maintain the same structural complexity as in
natural forests, here considering both continuous forest stands and post-fire residual patches. In boreal
black spruce forests, 41 post-fire residual patches, and 45 post-harvest retention patches of varying
size and ages (exposure time to disturbed matrix) and 37 continuous forest stands were classified
into six diameter structure types. Types 1 (inverted-J) and 2 (trunked-unimodal) characterized stands
dominated by small trees. The abundance of small trees decreased and the abundance of large
trees increased from Type 1 to Type 6. Type 6 had the most irregular structure with a wide range of
diameters. This study indicates that: (1) old post-harvest residual retentions maintained the range of
structural complexity found in natural stands; (2) Types 1 and 2 were generally associated with young
post-fire patches and post-harvest retention clumps; (3) the structure of residual patches containing
only small trees was usually younger (in terms of the age of the original forest from which residual
patches were formed) than those with larger trees. To avoid the risk of simplifying the structure,
retention patches should be intentionally oriented towards Types 3–6, dominated by intermediate
and large trees.
Marion Barbé, Yves Bergeron, Nicole J. Fenton. So close and yet so far away: long-distance dispersal
events govern bryophyte metacommunity reassembly. 2016. Journal of Ecology 104(6):1707-1719
DOI : 10.1111/1365-2745.12637
1.Metapopulation dynamics have been used to explain bryophyte dispersal patterns and they predict that population abundances vary with the spatial distribution of habitat and with species traits. However, results from stand and landscape studies are contradictory as both distance-dependent and distance-independent patterns have been found. These studies have typically included only a few species, which limits interspecies comparison. It is the time to investigate bryophyte dispersal at the metacommunity scale.
We studied bryophyte dispersal patterns in a system made up of burned matrices containing unburned residual forest patches. The importance of short- versus long-distance dispersal was examined by comparing extant and propagule rain communities in residual forest patches of three fire sites using both species and life strategies.
Extant and propagule rain communities were distinct. Several propagule rain species, of all life strategies, did not originate from the closest extant community, suggesting that regional dispersal events are important, following the inverse isolation hypothesis.
Temporal, spatial and structural characteristics of the environment had a greater influence on dispersal than distance, which only influenced similarity patterns at the regional scale, highlighting the importance of propagule source attributes for the conservation of bryophyte metacommunities.
Synthesis. Long-distance dispersal may be the rule and not the exception in bryophyte metacommunities. Therefore, bryophyte metacommunity dynamics depend on several dispersal scales, and residual forest patches can contribute both to local and regional diaspore clouds. Species’ environmental tolerance during establishment and their ability to produce copious amounts of spores may be more important filters in bryophyte metacommunity dynamics than dispersal distance.
Anna T. Trugman, Yves Bergeron, Xiangtao Xu, L.R. Welp, D. Medvigy, Nicole J. Fenton. Climate, soil organic layer, and nitrogen jointly drive forest development after fire in the North American boreal zone. 2016. Journal of Advances in Modeling Earth Systems 8(3):1180-1209
DOI : 10.1002/2015MS000576
Previous empirical work has shown that feedbacks between fire severity, soil organic layer thickness, tree recruitment, and forest growth are important factors controlling carbon accumulation after fire disturbance. However, current boreal forest models inadequately simulate this feedback. We address this deficiency by updating the ED2 model to include a dynamic feedback between soil organic layer thickness, tree recruitment, and forest growth. The model is validated against observations spanning monthly to centennial time scales and ranging from Alaska to Quebec. We then quantify differences in forest development after fire disturbance resulting from changes in soil organic layer accumulation, temperature, nitrogen availability, and atmospheric CO2. First, we find that ED2 accurately reproduces observations when a dynamic soil organic layer is included. Second, simulations indicate that the presence of a thick soil organic layer after a mild fire disturbance decreases decomposition and productivity. The combination of the biological and physical effects increases or decreases total ecosystem carbon depending on local conditions. Third, with a 4°C temperature increase, some forests transition from undergoing succession to needleleaf forests to recruiting multiple cohorts of broadleaf trees, decreasing total ecosystem carbon by ?40% after 300 years. However, the presence of a thick soil organic layer due to a persistently mild fire regime can prevent this transition and mediate carbon losses even under warmer temperatures. Fourth, nitrogen availability regulates successional dynamics; broadleaf species are less competitive with needleleaf trees under low nitrogen regimes. Fifth, the boreal forest shows additional short-term capacity for carbon sequestration as atmospheric CO2 increases. This article is protected by copyright. All rights reserved.
Sébastien Renard, Cécile Leroy, Sylvie Gauthier, Yves Bergeron, Alain Leduc, Nelson Thiffault, Nicole J. Fenton, David Paré, Benoit Lafleur, Martin Simard. Silviculture to sustain productivity in black spruce paludified forests. 2016. For. Ecol. Manage. 375:172-181
DOI : 10.1016/j.foreco.2016.05.037
Fire is considered the major disturbance in boreal forests. Nonetheless, in several areas logging has become the primary driver of forest dynamics. In many areas of the boreal forest, stands may undergo paludification (i.e. the accumulation of thick, poorly decomposed organic layers over the mineral soil) in the prolonged absence of fire, which reduces forest productivity. Whereas high-severity fires (HSF) may restore forest productivity by burning the soil organic layer (SOL), low-severity fires (LSF) mainly burn the soil surface and do not significantly reduce SOL thickness. In the Clay Belt region of eastern Canada, an area prone to paludification, forest stands have historically been harvested by clearcutting (CC), but concerns about the protection of soils and tree regeneration lead to the replacement of CC by careful logging (CL). Whereas CC disturbs the SOL and is thought to favor tree growth, CL has little impact on the SOL. Furthermore, it has been suggested that prescribed burning after clearcut (CCPB) could also be used to control paludification. Using a retrospective approach, this study sought to understand how CC, CL, and CCPB compare to LSF and HSF with respect to soil properties, SOL thickness, vegetation ground cover, tree nutrition, and stand height in paludified black spruce stands of the Clay Belt region. HSF led to significantly taller trees than CL and LSF, but did not differ from CC and CCPB. Foliar N was significantly higher in HSF and CCPB sites relative to CL and LSF, with an intermediate value in CC sites. Ground cover of Rhododendron groenlandicum was significantly lower in HSF and CC sites relative to LSF, with intermediate values in CL and CCPB sites. Sphagnum spp. ground cover was significantly lower in HSF and CCPB sites relative to CL, with intermediate values in CC and LSF sites. High-severity fire sites had a significantly thinner SOL than the four other disturbances. Finally, regression tree analysis showed that SOL thickness represented the best predictor of tree height, whereas segmented regression showed that tree height was negatively correlated to SOL thickness and revealed a cut-off point circa 23 cm, which suggests that tree growth is impeded beyond this threshold. These results support the idea that management strategies intending to regenerate paludified forests should primarily aim at reducing organic layer thickness, either through mechanical disturbance or combustion.
Nicolas Faivre, Sébastien Renard, Sylvie Gauthier, Yves Bergeron, Nicole J. Fenton, Catherine Boudreault. Prescribed burning of harvested boreal black spruce forests in eastern Canada: effect on understory vegetation. 2016. Can. J. For. Res. 46(6):876-884
DOI : 10.1139/cjfr-2015-0439
Les stratégies d’aménagement forestier écosystémique préconisent d’imiter les effets des perturbations naturelles pour atténuer l’impact de traitements sylvicoles à l’échelle du paysage. Cette étude compare les effets de coupe totale suivie de brûlage dirigé (CCPB) avec ceux de coupe totale (CC) et de pratique sylvicole appliquée limitant la perturbation du sol (CLAAG : « careful logging around advanced growth ») sur la composition des espèces de sous-bois, au sein de peuplements d’épinette noire (Picea mariana Miller (BSP)) touchés par la paludification. Les analyses, effectuées à l’échelle de la placette, du site et du traitement ont permis via l’analyse des taxons et des types fonctionnels d’examiner les effets respectifs de chaque traitement. Des différences de composition significatives parmi les espèces vasculaires et non-vasculaires ont été observées à l’échelle de la placette selon le type de traitement considéré. Nous avons constaté que les espèces pionnières étaient associées aux sites CCPB tandis que les espèces de fin de succession étaient caractéristiques des sites CC. Une richesse spécifique plus élevée a été observée parmi les sites CLAAG que dans les sites CCPB et CC. Nous avons par ailleurs trouvé que les traitements CCPB étaient davantage enclin à promouvoir des patrons de composition d’espèces vasculaires similaires à ceux observés après des perturbations naturelles comme les feux de forêt. Nous avons également constaté une abondance relative plus faible des espèces de sphaigne, responsable du phénomène de paludification, au sein des sites traités par brûlage dirigé. Les résultats de cette étude suggèrent ainsi que le brûlage dirigé représente une alternative durable aux pratiques sylvicoles actuelles en permettant de conserver la biodiversité (en termes d’assemblages d’espèces) et de maintenir voire d’augmenter la productivité des peuplements exploités.
Saliha Zouaoui, Yves Bergeron, Nicole J. Fenton, Pierre Drapeau, Benoit Lafleur. Short-term response of Cladonia lichen communities to logging and fire
in boreal forests. 2016. For. Ecol. Manage. 372:44-52
DOI : 10.1016/j.foreco.2016.04.007
Fire is the major disturbance agent in boreal forests that initiates forest regeneration and succession, and plays a major role in determining the composition of terricolous lichen communities. In recent decades however, logging has become an important disturbance agent in boreal forests. In this context, growing concerns about logging effects on endangered species such as woodland caribou (Rangifer tarandus caribou) has emerged and drawn attention on how reindeer lichens (i.e. Cladonia arbuscula, Cladonia mitis, Cladonia rangiferina, Cladonia stellaris, and Cladonia stygia) respond to logging and fire given their importance as winter forage for caribou. We compared critical lichen habitat factors (i.e., forest floor thickness, tree height, and canopy closure) between fire and logged sites and evaluated how Cladonia lichen species richness, biomass, and ground cover were related to these habitat factors in the first decades following disturbance. We found no significant differences in habitat factors and no significant differences in lichen species richness or ground cover between logged and fire sites. However, Cladonia lichen biomass was significantly higher following logging. These results support the hypothesis that Cladonia lichens can persist following logging and suggest that forestry practices that include in their toolbox winter harvesting or machinery traffic restricted to specific trails are likely to preserve undisturbed forest floor habitat conditions with source populations of lichens.
Louiza Moussaoui, Yves Bergeron, Nicole J. Fenton, Alain Leduc. Deadwood abundance in post-harvest and post-fire residual patches:
An evaluation of patch temporal dynamics in black spruce boreal forest. 2016. For. Ecol. Manage. 368:17-27
DOI : 10.1016/j.foreco.2016.03.012
In managed boreal forests, variable retention harvest is considered by forest managers as a means of mitigating harvest impacts on biodiversity. Variable retention harvest consists of maintaining within a cutblock structural attributes of the original forest stand in intact forest patches that could provide quality habitat (i.e., with large trees and deadwood) for many forest species during forest regeneration. However, retention patch modalities (size, shape, age of the forest) allowing both persistence and sustainable recruitment of deadwood over time remains unknown. The objective of this study is to evaluate the abundance of recent deadwood in post-harvest and post-fire residual patches and to compare their temporal dynamics in black spruce dominated stands located in northwestern Quebec. Abundance of the recent deadwood, estimated as the sum of recent standing deadwood volume and recently fallen deadwood volume was analyzed in 41 post-fire residual patches, and in 45 post-harvest retention patches of varying ages (i.e. exposure time to the disturbed matrix) and in 37 continuous black spruce forest stands (controls). This study shows that post-fire residual patches appear in general more durable than post-harvest retention patches after disturbance. In a management context, our results indicate that: (1) large island patches and large linear separators oriented to escape windthrow usually have deadwood recruitment dynamics similar to that of post-fire patches; (2) retention patches with an initial stand volume greater than 60 m3/ha will generate more deadwood volume over time. This suggests that the selection of large retention patches in the shape of an island or a separator, with high volume (between 60 and 300 m3/ha) should help increase the persistence of post-harvest retention patches in black spruce forest, and simultaneously ensure quality habitat for several forest species while the adjacent managed forest regenerates.
Myriam Paquette, David Pothier, Yves Bergeron, Nicole J. Fenton, Catherine Boudreault. Bryophyte species assemblages in fire and clear-cut origin boreal forests. 2016. For. Ecol. Manage. 359:99-108
DOI : 10.1016/j.foreco.2015.09.031
Natural and anthropogenic disturbances could have different impacts on understory plant communities. Investigating these differences could help improve silvicultural and management practices in order to better achieve biodiversity protection objectives. Using post-fire (20–90 years) and post-clearcutting (20–70 years) forest chronosequences placed on similar sites, we examined which environmental factors are the main drivers of bryophyte community assembly in eastern Canadian boreal forests, using information on bryophyte life-history strategies (colonist: high reproductive effort but a short potential life span; perennial: low reproductive effort and a long potential life span) to interpret the resulting patterns. The fire origin stands were affected by high-severity fires followed by natural regeneration, whereas the clear-cut stands were regenerated through the advance regeneration present in the understory of the harvested stands. Our results indicate that by killing the existing mosses and baring the mineral soil, fire tends to decrease the cover of perennial species (such as Pleurozium scherberii) and increase the presence of colonist species compared with clear-cut. Overall species richness does not increase much in older stands, but some species that have been identified by previous studies as being more sensitive to management activities, such as liverworts, tend to be strongly associated with balsam fir basal area, which is higher in mature clear-cut origin stands. This tree species tends to be heavily affected by partial mortality events after >50 years (insect outbreaks, windthrow), which could accelerate the creation of heterogeneous canopy structure and generate a greater diversity of microhabitats suitable for sensitive bryophyte species. More research needs to be conducted to better understand the underlying functional relationships between overstory tree composition and bryophyte communities.
Sébastien Renard, Yves Bergeron, Nicole J. Fenton, Sylvie Gauthier, Benoit Lafleur. Prescribed burning after clearcut limits paludification in black spruce
boreal forest. 2016. For. Ecol. Manage. 359:147-155
DOI : 10.1016/j.foreco.2015.09.037
Paludification, the accumulation over the mineral soil of poorly decomposed organic matter mainly originating from Sphagnum spp., transforms black spruce (Picea mariana) boreal forests into forested peatlands in the prolonged absence of fire, which diminishes forest productivity. High-severity wildfires reset this process by burning the soil organic layer (SOL) and reinitiating forest succession. In contrast, low severity wildfires impact mainly the soil surface and tree layer and do not significantly reduce SOL depth. In the Clay Belt region of eastern Canada, an area prone to paludification, the current forest harvest practice (careful logging around advanced growth [CLAAG]) removes trees but has little impact on the SOL and the understorey vegetation. This is thought to further promote paludification, which consequently reduces forest productivity. Conversely, clearcut (CC) disturbs the SOL and the understorey vegetation, and is thought to favor tree growth. Furthermore, prescribed burning after clearcut (CCPB) is used as a site preparation technique, but may also be used to control paludification as it can burn part of the organic soil layer. Using a retrospective approach, our study examines three hypotheses: compared to CLAAG, CC and CCPB: (1) have positive effects on soil conditions (e.g. decomposition level and pH), (2) reduce Sphagnum spp. and ericaceous shrub cover and (3) result in enhanced black spruce growth. We sampled 22 sites in which we measured SOL characteristics (e.g. depth, decomposition state), understorey vegetation cover and black spruce growth. Compared to CLAAG, CCPB resulted in increased soil decomposition level and higher pH. CCPB also reduced Sphagnum spp. cover but not ericaceous shrub cover. Black spruce growth rate was higher following CCPB than CC, and mean dominant tree height was marginally higher following CCPB than CLAAG and CC. Our results demonstrate that CCPB is beneficial to black spruce growth, presumably through its effects on forest understorey and SOL chemistry. While not similar to a high severity fire, prescribed burning after clearcut in paludified stands on the Clay Belt emulates some wildfire effects such as increasing soil pH. We suggest that unlike CLAAG, prescribed burning after clearcut can restore black spruce stand productivity and should be considered in the context of forest ecosystem management.
Nicole J. Fenton. La diversité cachée des mousses…
La surprenante diversité génétique des mousses en forêt boréale 2015. Le Couvert Boréal 18
Kristoffer Hylander, E.J. Pharo, Nicole J. Fenton. Bryophytes in forest ecosystems. 2015. Routledge Handbook of Forest Ecology pp. 239-249
M.T. Moroni, Dave M. Morris, C. Shaw, J.N. Stokland, M.E. Harmon, Nicole J. Fenton, K. Merganicova, J. Merganic, K. Okabe, U. Hagemann. Buried Wood: A Common Yet Poorly
Documented Form of Deadwood. 2015. Ecosystems
DOI : 10.1007/s10021-015-9850-4
Buried wood (BW: downed deadwood buried more than 50% by soil, litter, or ground vegetation) is a common but understudied part of forest ecosystems. We reviewed the literature and conducted a meta-analysis of BW that included new data from Australia, Belarus, Canada, Germany, Japan, Norway, Russia, Slovakia, Sweden, the USA, and Wales. Buried wood occurred in a wide range of forest types of natural and anthropogenic origin. In some forests, BW was effectively preserved and volumes of BW exceeded the volume of all other live and deadwood combined. Boreal and oroboreal coniferous forests contained large amounts of BW, whereas hardwood forests appeared to contain little BW due to differences in ground vegetation, wood decomposition pathways, and climatic and edaphic conditions. Coniferous forests growing on paludified ground represent areas with a large capacity to store BW. The largest quantity of BW reported was 935 m3 ha?1 in paludified black spruce (Picea mariana (Mill.)) forests, where typically mature live bole volumes are only 150 m3 ha?1. Buried wood can accumulate over several disturbance cycles (centuries), due to greatly reduced rates of decomposition following burial. As such, BW can represent a large forest C pool that is currently not recognized in forest C accounting using field measurements or models. Failing to account for wood burial can lead to underestimates of ecosystem deadwood stocks as well as misinterpretations of ecosystem dynamics. Buried wood and the burial process should be included in forest measurement and models, particularly for boreal and oroboreal ecosystems, to reduce uncertainty and improve accuracy in forest C accounting. This will require improvements to existing field sampling protocols and collection of long-term data on processes creating BW.
Mohammed Henneb, Yves Bergeron, Nicole J. Fenton, Osvaldo Valeria, Nelson Thiffault. Mechanical site preparation: Key to microsite creation success on Clay Belt paludified sites. 2015. For. Chron. 91(2): 187-196
DOI : 10.5558/tfc2015-030
La paludification est l'accumulation de la couche organique partiellement décomposée sur le sol minéral saturé en eau. La paludification réduit la régénération et la croissance des arbres, principalement en raison des faibles températures et la teneur élevée en eau dans la zone racinaire, réduisant ainsi la décomposition de la couche organique, et par conséquent, la disponibilité des éléments nutritifs. Dans la Ceinture d'Argile de l'ouest du Québec et l'est de l'Ontario, les forêts tendent vers une paludification naturellement, mais ce processus pourrait être contré par des méthodes d'exploitation forestière. Notre objectif était d'identifier laquelle des deux techniques de préparation mécanique du terrain (PMT) couramment utilisées est la mieux adaptée pour réduire l’épaisseur de la couche organique (ECO) et générer des microsites de plantation favorables après récolte dans les sites paludifiés. Neuf blocs expérimentaux (entre 20 ha–61 ha chacun) ont été délimités dans un secteur forestier de 35 km2 avec des niveaux variables de paludification. Le secteur a été récolté en utilisant la coupe avec protection de la régénération et des sols (CPRS). Les neuf blocs expérimentaux ont ensuite été traités avec une herse forestière, un scarificateur à disques (T26) ou laissés comme témoins non traités (récolte seulement), avec trois blocs répétés par traitement. Nous avons mesuré l'ECO avant et après PMT et déterminé la qualité des microsites à l'intérieur de chaque bloc. Les résultats ont révélé des différences significatives d'ECO entre les traitements de PMT et la récolte seulement. Globalement, la herse forestière était la meilleure technique de PMT, car cette dernière a réduit davantage l'ECO que le scarificateur T26 et a généré le pourcentage le plus élevé de bons microsites, sauf dans le seuil d'ECO initiale 44 cm–56 cm. Nos résultats favorisent l'utilisation réussie de la PMT dans les forêts paludifiées.
Chafi Chaieb, Yves Bergeron, Benoit Lafleur, Nicole J. Fenton. Can We Use Forest Inventory Mapping as a Coarse Filter in Ecosystem Based Management in the Black Spruce Boreal Forest? 2015. Forests 6:1195-2007
DOI : 10.3390/f6041195
Forest inventory mapping is used worldwide to describe forests at a large spatial scale via the delimitation of portions of the landscape that are structurally homogeneous. Consequently, there is a significant amount of descriptive forest data in forest inventory maps, particularly with the development of ecosystem classification, which represents a significant potential for use in ecosystem based management. With this study we propose to test whether forest inventory maps can be used to describe not only stand characteristics but also dynamic processes. The results indicate that stand types identifiable in forest inventory maps do not in fact represent unique developmental stages, but rather confound stands at multiple developmental stages that may be undergoing different ecological processes. The reasons for this are linked to both the interaction between succession, fire severity and paludification. Finally, some aspects of the process of forest inventory mapping itself contribute to the disjunction between forest types and forest succession. Given the low similarity between spruce mapping types and their actual description following forest inventories, it would be too ambitious to infer the dynamic aspects of spruce forest by map units.
Yves Bergeron, Nicole J. Fenton, Benoit Lafleur. Forecasting the development of boreal forested peatlands in response to climate change: A case study using forest maps. 2015. Forest Ecosystems
DOI : 10.1186/s40663-015-0027-6
Background Successional paludification, a dynamic process that leads to the formation of peatlands, is influenced by climatic factors and site features such as surficial deposits and soil texture. In boreal regions, projected climate change and corresponding modifications in natural fire regimes are expected to influence the paludification process and forest development. The objective of this study was to forecast the development of boreal paludified forests in northeastern North America in relation to climate change and modifications in the natural fire regime for the period 2011?2100.MethodsA paludification index was built using static (e.g. surficial deposits and soil texture) and dynamic (e.g. moisture regime and soil organic layer thickness) stand scale factors available from forest maps. The index considered the effects of three temperature increase scenarios (i.e. +1?C, +3?C and +6?C) and progressively decreasing fire cycle (from 300?years for 2011?2041, to 200?years for 2071?2100) on peat accumulation rate and soil organic layer (SOL) thickness at the stand level, and paludification at the landscape level.ResultsOur index show that in the context where in the absence of fire the landscape continues to paludify, the negative effect of climate change on peat accumulation resulted in little modification to SOL thickness at the stand level, and no change in the paludification level of the study area between 2011 and 2100. However, including decreasing fire cycle to the index resulted in declines in paludified area. Overall, the index predicts a slight to moderate decrease in the area covered by paludified forests in 2100, with slower rates of paludification.ConclusionsSlower paludification rates imply greater forest productivity and a greater potential for forest harvest, but also a gradual loss of open paludified stands, which could impact the carbon balance in paludified landscapes. Nonetheless, as the thick Sphagnum layer typical of paludified forests may protect soil organic layer from drought and deep burns, a significant proportion of the territory has high potential to remain a carbon sink.
Yves Bergeron, Ahmed Laamrani, Li Zhen Cheng, Nicole J. Fenton, Osvaldo Valeria. Distinguishing and mapping permanent and reversible paludified landscapes in Canadian black spruce forests. 2015. Geoderma 237-238:88-97
DOI : 10.1016/j.geoderma.2014.08.011
Northern Canadian boreal forest is characterised by accumulation of a thick organic soil layer (paludification). Two types of paludification are recognised on the basis of topography and time since the last fire, viz., permanent paludification that dominates in natural depressions within the landscape, and reversible paludification that occurs on flat or sloping terrain over time following fire or mechanical site preparation. Accurate information about the occurrence of permanent or reversible paludification is required for land resource management. Such information is useful for the identification of locations of existing paludified areas where investment after harvesting should help to achieve greater productivity. This study investigated the potential for using a semi-automated method that was based on geomorphological analysis to map and differentiate between the two paludification types at the landscape scale within the Canadian Clay Belt region. For the purposes of this study, slope, topographic position index (TPI), and topographic wetness index (TWI) were generated from a LiDAR digital terrain model. TPI and TWI are, respectively, predictors of surface morphology (i.e., depressions vs flat areas) and moisture conditions (i.e., wet vs dry), and were used to explain paludification occurrence. A semi-automated classification method based on TPI and slope was firstly used to create six initial topographic position classes: deep-depressions, lower-slope depressions, flat surfaces, mid-slopes, upper-slopes, and hilltops. Each of these six classes was then combined with TWI classes (representing moisture conditions: wet, moderately wet, and dry) and this combination assisted in assigning each resulting class to one of the two paludification types. Slope and TWI values were used in sub-dividing the lower slope depression class, based on slope, into significantly different sub-classes, namely open and closed depressions (Tukey's HSD, P < 0.001). The distribution of field data (e.g., tree basal area, organic layer and fibric horizon thicknesses) within each position class provided additional information for corroborating the assignment of each class to a defined paludification type. The proposed semi-automated classification provided a relatively simple and practical tool for distinguishing and mapping permanent and reversible paludification types with an overall accuracy of 74%. The tool would be particularly useful for implementing strategies of sustainable management in remote boreal areas where field survey information is limited.
Nicole J. Fenton. LES 15 ANS DE LA CHAIRE INDUSTRIELLE EN AMÉNAGEMENT FORESTIER DURABLE : un impact tangible en région, au Québec et à travers le monde! 2014. Le Couvert Boréal 34
Nicole J. Fenton. LE CÈDRE BLANC : un arbre millénaire qui trouve ses limites en Abitibi 2014. Le Couvert Boréal 16
Ahmed Laamrani, Yves Bergeron, Li Zhen Cheng, Nicole J. Fenton, Osvaldo Valeria. The role of mineral soil topography on the spatial distribution of organic layer thickness in a paludified boreal landscape. 2014. Geoderma 221-222:70-81
DOI : 10.1016/j.geoderma.2014.01.003
Mineral soil topography is difficult to describe in boreal regions because of the thick overlying organic layer despite its presumed importance in determining where and at what rate an organic layer will accumulate (paludification). The overall purpose of this study was to examine the relationship between mineral soil topography and OLT at the landscape scale. More specifically, these relationships can be used to map the distribution and spatial variability of paludification across the landscape, thereby exploring the potential to discriminate between the two commonly known paludification types (permanent and reversible). Seven topographic variables (elevation, slope, aspect, mean curvature, plan curvature, profile curvature and topographic wetness index) were generated from a digital elevation model that we developed for the mineral soil surface (MS-DEM). OLT data were collected from field measurements across the landscape by manual probing and values varied from 5 to 150 cm. The MS-DEM was generated by subtracting OLT field values from the corresponding LiDAR-derived elevation values. Most correlations between OLT and individual predictor variables were weak and illustrated that OLT and its landscape-scale distribution cannot be explained by simple bivariate relationships. Consequently, two regression tree-based models were developed using: (1) only the seven mineral soil topographic variables, and (2) all predictor variables (mineral soil topography and surficial deposits). Mineral soil slope was the most important variable for both models and corresponded to the first level of splitting the dataset into homogenous landscape units in terms of organic layer thickness. Surficial deposit, topographic wetness index (TWI) and aspect were also related to OLT and proved to be contributing to the development of the two models.
Model 1 explained 0.34 of the OLT variability and offer simple models with few landscape units that are easy to interpret. Model 1 splitting rules allowed the combination of different maps (slope, TWI and aspect) for producing a landscape units map, on which OLT was determined and related to increasing paludification categories. A good overall accuracy of 74% was achieved for this map. Model 2 was the best model in terms of estimate quality (R2adj = 0.52). Both models were successful in discriminating highly paludified landscape units. Except for one landscape unit that was assigned to permanent paludification type, both models were unable to further subdivide more landscape units into reversible and permanent paludification, suggesting that both of these types interact within the same landscape unit. This study demonstrated that the combination of topographic information from remotely sensed LiDAR data and field OLT measurement data has the potential to be useful for defining both promising and vulnerable areas for forest management.
Ahmed Laamrani, Yves Bergeron, Nicole J. Fenton, Osvaldo Valeria. Landscape-Scale Influence of Topography on
Organic Layer Accumulation in Paludified Boreal
Forests. 2014. Forest Science 60(3):579-590
DOI : 10.5849/forsci.13-025
The aim of this study was to quantitatively investigate the relationship between topographic variables and organic layer thickness (OLT) and to use these relationships for mapping OLT distributions at the landscape scale within the paludified boreal forests of eastern Canada. Topography was quantified by a set of predictor variables (slope, elevation, aspect, mean curvature, plan curvature, and profile curvature) that were extracted from a LiDAR-derived digital terrain model (DTM) with four resolutions (1, 5, 10, and 20 m). OLT was collected from field measurement (n = 1,600) across the landscape and varied from 5 to 150 cm. Weak correlations between OLT and individual topographic variables were obtained at the landscape scale. Stratification by aspect did not significantly improve these correlations. Consequently, regression tree analysis divided the data into six different landscape units, based on slope, aspect, and mean curvature. The resulting landscape units delimited the major patterns of OLT and elucidated three spatial relationships between OLT and topographic variables: greater OLTs (mean = 62 cm) were confined to gentle slopes (≤1.8%), whereas lower OLTs (mean = 27 cm) were found in steeper slopes (slope >3.2%); OLTs were deeper on south- and west-facing than on north- and east-facing slopes; and the most accurate results were obtained by the LiDAR-derived DTM at 10- and 20-m resolutions. A thematic productive map of the distribution of the resulting six landscape units showed good matching (71%) with both vulnerable and promising areas for forest management. This study confirmed the fact that topographic variables influence OLT at the landscape scale, which had been previously reported at the plot scale within the Clay Belt.
Myriam Paquette, Nicole J. Fenton. LE SOUS-BOIS FORESTIER, PLUS RICHE QU’IL N’EN PARAÎT! 2013. Le Couvert Boréal 14
Yves Bergeron, Nicole J. Fenton. Stochastic processes dominate during boreal bryophyte community assembly. 2013. Ecology 94(9):1993-2006
DOI : 10.1890/12-1944.1
Why are plant species found in certain locations and not in others? The study of community assembly rules has attempted to answer this question, and many studies articulate the historic dichotomy of deterministic (predictable niches) vs. stochastic (random or semi-random processes). The study of successional sequences to determine whether they converge, as would be expected by deterministic theory, or diverge, as stochastic theory would suggest, has been one method used to investigate this question. In this article we ask the question: Do similar boreal bryophyte communities develop in the similar habitat created by convergent succession after fires of different severities? Or do the stochastic processes generated by fires of different severity lead to different communities? Specifically we predict that deterministic structure will be more important for large forest-floor species than stochastic processes, and that the inverse will be true for small bryophyte species. We used multivariate regression trees and model selection to determine the relative weight of structure (forest structure, substrates, soil structure) and processes (fire severity) for two groups of bryophyte species sampled in 12 sites (seven high-severity and five low-severity fires). Contrary to our first hypothesis, processes were as important for large forest-floor bryophytes as for small pocket species. Fire severity, its interaction with the quality of available habitat, and its impact on the creation of biological legacies played dominant roles in determining community structure. In this study, sites with nearly identical forest structure, generated via convergent succession after high- and low-severity fire, were compared to see whether these sites supported similar bryophyte communities. While similar to some degree, both the large forest-floor species and the pocket species differed after high-severity fire compared to low-severity fire. This result suggests that the “how,” or process of habitat generation, influences community composition in this system and that a snapshot of habitat conditions taken at only one point in time is insufficient to explain species distribution.
Read More: http://www.esajournals.org/doi/abs/10.1890/12-1944.1
Yves Bergeron, Benoit Lafleur, Nicole J. Fenton. The Potential Effects of Climate Change on the Growth and Development of Forested Peatlands in the Clay Belt (Ecodistrict 3E-1) of Northeastern Ontario. 2013. (Climate change research report ; CCRR-35) ISBN 978-1-4606-2958-1 16 p.
L’objectif de cette étude était de modéliser le développement des tourbières forestières du nord-est de l’Ontario en fonction des changements de températures, de précipitations et de régime de feux pour la période 2011-2100, et explorer les effets de la paludification ou de l’accumulation de tourbe sur des sols minéraux secs. Les projections du modèle indiquent une diminution légère ou modérée de la surface occupée par les tourbières forestière pour l’horizon 2100, ainsi qu’un taux de paludification plus bas. La diminution projetée du taux de paludification implique une productivité forestière accrue et une augmentation potentielle de la récolte. Ces résultats suggèrent aussi une perte graduelle de peuplements paludifiés ouverts, ce qui pourrait affecter le bilan de carbone régional ainsi que la disponibilité d’habitats pour les espèces associées aux habitats ouverts. Finalement, nous faisons des recommandations afin d’améliorer le modèle ainsi que la planification des aménagements forestiers.
Nelson Thiffault, François Hébert, Richard Fournier, Alison Munson, Robert L. Bradley, Yves Bergeron, Nicole J. Fenton, Pierre Grondin, Gilles Joanisse, David Paré, Osvaldo Valeria. Managing Understory Vegetation for Maintaining Productivity in Black Spruce Forests: A Synthesis within a Multi-Scale Research Model. 2013. Forests 4:613-631
DOI : 10.3390/f4030613
Sustainable management of boreal ecosystems involves the establishment of vigorous tree regeneration after harvest. However, two groups of understory plants influence regeneration success in eastern boreal Canada. Ericaceous shrubs are recognized to rapidly dominate susceptible boreal sites after harvest. Such dominance reduces recruitment and causes stagnant conifer growth, lasting decades on some sites. Additionally, peat accumulation due to Sphagnum growth after harvest forces the roots of regenerating conifers out of the relatively nutrient rich and warm mineral soil into the relatively nutrient poor and cool organic layer, with drastic effects on growth. Shifts from once productive black spruce forests to ericaceous heaths or paludified forests affect forest productivity and biodiversity. Under natural disturbance dynamics, fires severe enough to substantially reduce the organic layer thickness and affect ground cover species are required to establish a productive regeneration layer on such sites. We succinctly review how understory vegetation influences black spruce ecosystem dynamics in eastern boreal Canada, and present a multi-scale research model to understand, limit the loss and restore productive and diverse ecosystems in this region. Our model integrates knowledge of plant-level mechanisms in the development of silvicultural tools to sustain productivity. Fundamental knowledge is integrated at stand, landscape, regional and provincial levels to understand the distribution and dynamics of ericaceous shrubs and paludification processes and to support tactical and strategic forest management. The model can be adapted and applied to other natural resource management problems, in other biomes.
Jenna Jacobs, Yves Bergeron, Hervé Bescond, Pierre Drapeau, Louis Imbeau, Nicole J. Fenton, Timothy Work. Lessons learned from 12 years of ecological research on partial cuts in black spruce forests of north-western Québec. 2013. For. Chron. 89(3):350-359
DOI : 10.5558/tfc2013-065
L’aménagement multi-cohortes qui crée ou maintient une structure irrégulière dans les peuplements forestiers a été largement préconisé pour atténuer l’impact de l’exploitation forestière. Un réseau expérimental a été mis en place dans les forêts d’épinettes noires du nord-ouest du Québec pour tester cette affirmation. Dans cet article, nous retenons deux enseignements des résultats obtenus sur la biodiversité: (1) il a fallu laisser au moins de 40 % à 60 % de la surface terrière avant coupe pour maintenir des conditions d’avant la récolte pour la plupart des groupes d’espèces, (2) les coupes partielles ont montré qu’elles avaient la capacité de produire et de maintenir de façon efficace le recrutement” du bois mort. En plus de ces deux principales conclusions, nous soulignons que les recherches à venir devraient tenter de déterminer si la récolte partielle a le potentiel de faire progresser la succession forestière.
Yves Bergeron, Hervé Bescond, Nicole J. Fenton. Impact des coupes partielles sur les communautés de sphaignes en pessière noire à mousses. 2013. Chaire industrielle CRSNG UQAT-UQAM-AFD. Note de recherche 17. 4 p.
En forêt boréale, le temps écoulé entre deux perturbations peut être très long (±150 ans), permettant aux généra-tions d’arbres de se succéder au sein d’un même peuplement. La succession naturelle apporte une diversité structurale dans l’agencement des étages forestiers et d’individus de différents âges. Les conditions microclima-tiques y offrent alors une charpente de base pour l’élaboration d’une grande variété d’habitats fauniques et floris-tiques. Les coupes à faible rétention telles que la coupe avec protection de la régénération et des sols (CPRS) pratiquée actuellement, même si celles-ci semblent imiter à première vue les grandes perturbations naturelles, changent en profondeur les écosystèmes forestiers. En effet, les paramètres définissant les habitats naturels se retrouvent radicalement modifiés, par un retrait des tiges du couvert, un compactage du sol et un changement dans la complexité d’âges par l’établissement de peuplements équiennes. Ces modifications suppriment la varié-té des conditions microclimatiques qui sont habituellement associées aux forêts anciennes. Ainsi, pour réduire ces effets, d’autres techniques de récolte moins sévères ont été testées. Les coupes partielles ont été proposées comme stratégie de récolte afin de réintégrer les caractéristiques des forêts anciennes et donc de renouer avec les attributs écosystémiques qui les caractérisent.
Yves Bergeron, Hervé Bescond, Nicole J. Fenton. Impact des coupes partielles sur la végétation de sous-bois en pessière noire à mousses. 2013. Chaire industrielle CRSNG UQAT-UQAM-AFD. Note de recherche 16. 4 p.
Dans le contexte actuel de l’aménagement forestier au Québec, les techniques de récolte ne permettent pas le maintien des forêts anciennes dans le paysage. Or, les attributs écologiques que les forêts anciennes offrent sont nombreux et surtout essentiels aux populations fauniques et floristiques qui en dépendent. Il est donc important de développer des méthodes de coupes qui pourraient reproduire ces attributs. Pour ce faire, les coupes par-tielles pourraient représenter un traitement sylvicole intéressant puisqu’il permet de reproduire les attributs des forêts anciennes ou surannées, surtout en ce qui a trait à la structure inéquienne, essentielle au maintien des ha-bitats pour la biodiversité. Elles seraient alors une alternative intéressante aux coupes avec protection de la régé-nération et des sols (CPRS) qui ont tendance à réduire la proportion de forêts anciennes dans le paysage. Les effets des coupes partielles sur les aspects structuraux des forêts anciennes et sur la végétation de sous-bois sont mal connus. Réalisée dans des pessières noires d’Abitibi, cette étude donne ici les premiers résultats obte-nus sur les impacts des coupes partielles et des coupes à faible rétention cinq ans après la récolte sur la compo-sition végétale de sous-bois.
Julie Arseneault, Yves Bergeron, Nicole J. Fenton. Effects of variable canopy retention harvest on epixylic bryophytes in boreal black spruce – feathermoss forests. 2012. Can. J. For. Res. 42(8):1467-1476
DOI : 10.1139/x2012-054
La modification des attributs forestiers et des composantes structurales tel les débris ligneux grossiers (DLG) peut entraîner la perte locale d’espèces associées. Les bryophytes épixyliques ont été suggérées comme de bons indicateurs de ces changements. Un témoin non perturbé, une coupe à rétention variable de canopée et une coupe totale constituent un gradient d’impact des activités forestières et sont utilisés pour observer la réponse des épixyliques aux niveaux de perturbation. L’objectif de cette étude est de voir si la rétention variable de canopée atténue les changements micro environnementaux et la destruction des DLG associée avec la récolte maintenant ainsi une riche communauté d’épixyliques. Les résultats montrent que le traitement influence la richesse des épixyliques à travers son effet sur l’ouverture de la canopée, le diamètre moyen et la classe de décomposition. Moins d’espèces sont retrouvées dans les habitats ouverts et plus d’espèces sont retrouvées sur les gros DLG bien décomposés. La plupart des épixyliques sont plus communément retrouvées au sol que sur les DLG. La coupe totale est le traitement le moins propice à la colonisation par les épixyliques alors que la rétention variable de canopée offre le microclimat et une disponibilité de DLG de qualité propice à la colonisation par les épixyliques.
Nicole J. Fenton, Yves Bergeron. Boreal forests of eastern Canada revisited: old growth, nonfire disturbances, forest succession, and biodiversity. 2012. Botany 90(6): 509-523
DOI : 10.1139/b2012-034
Les forêts boréales sont généralement considérées comme étant une large étendue de peuplements monospécifiques issus de feux qui vont rebrûler bien avant que des processus écologiques autres que ceux liés aux feux ne puissent avoir cours. Les recherches réalisées au cours des 30 dernières années révèlent une perspective très différente. Les vieilles forêts sont abondantes et elles sont souvent contrôlées par des régimes de perturbations autres que les feux. À mesure que le temps s’écoule après les feux, les peuplements équiennes et monospécifiques se transforment graduellement en peuplements plus diversifiés et à structure inéquienne. Ce régime de perturbations complexe qui inclut à la fois le feu et d’autres types de perturbations crée une biodiversité (ex., sous-bois) plus élevée que généralement attendue. Le modèle d’aménagement actuellement préconisé dans la forêt boréale canadienne basé sur la coupe totale, et la reconduction en rotation courte de peuplements monospécifiques équiennes, s’éloigne passablement de la complexité de la dynamique naturelle observée.
Yves Bergeron, Nicole J. Fenton. Dynamic Old-Growth Forests? A Case
Study of Boreal Black Spruce Forest
Bryophytes. 2012. Silva Fennica 45(5):983-994
Old-growth forests have sparked significant interest over the last twenty years and definitions have evolved from structure based to process based, acknowledging the diversity of forests that could be considered old growth. However studies frequently group all forests over a certain age into a single type, negating the dynamic processes that create old growth. In this study we examine a 2350-year chronosequence in boreal black spruce forests in northwestern Quebec to determine whether continued community change can be observed in the bryophyte layer. Bryophytes dominate the understory of boreal forests and influence ecosystem functioning, particularly in paludified forests where production exceeds decomposition in the organic layer. Community composition and richness changed throughout the chronosequence with no evidence of a steady state associated with an old-growth phase. In contrast the bryophyte community continued to evolve with multiple phases being evident. These results suggest that old-growth forests on the Clay Belt of northwestern Quebec and northeastern Ontario, Canada, should be regarded as part of the continuous gradient in forest development rather than a single state. This complicates conservation of these forests as multiple phases should be considered when planning forest reserves.
Yves Bergeron, David Paré, Nicole J. Fenton, Benoit Lafleur. Growth and nutrition of black spruce seedlings in response to disruption of Pleurozium and Sphagnum moss carpets in boreal forested peatlands. 2011. Plant soil 345(1-2):141-153
DOI : 10.1007/s11104-011-0767-1
In boreal forested peatlands, we disturbed Sphagnum spp. and Pleurozium schreberi carpets to see how disturbance influenced substrate physico-chemistry, and growth and foliar nutrition of planted Picea mariana seedlings. Carpets were hand disturbed using gardening tools to a depth of approximately 25 cm. Carpet disturbance was aimed at disrupting only the organic layer and did not result in the mixing of organic matter with mineral soil. Disturbed carpets, whether P. schreberi or Sphagnum spp., were warmer than undisturbed carpets and had a lower cover of ericaceous shrubs. Pleurozium schreberi carpets had a higher decomposition index than Sphagnum spp. carpets, whereas disturbance had no effect on this variable. Pleurozium schreberi had higher Ntot and dissolved organic N concentrations (DON) than Sphagnum spp., whereas disturbance increased NH 4 + availability in both substrates. Moss disruption increased seedling growth rates as well as their foliar N and P concentrations in both substrates and these variables remained higher in P. schreberi than in Sphagnum spp. within a given treatment. Seedling growth was positively correlated to substrate Ntot, NH 4 + and DON concentrations, and to foliar N and P concentrations, and negatively to substrate C/N and ericaceous shrub cover. Disruption of the moss carpets without mineral soil mixing improved black spruce seedling growth and nutrition in both moss types but the superiority of P. schreberi compared to Sphagnum spp. as a growing substrate remained present.
Yves Bergeron, Benoit Lafleur, David Paré, Nicole J. Fenton. Growth of planted black spruce seedlings following mechanical site preparation in boreal forested peatlands with variable organic layer thickness: 5-year results. 2011. Ann. For. Sci. 1-12.
DOI : 10.1007/s13595-011-0136-5
Context
Following forest harvest, mechanical site preparation (MSP) is commonly used to regenerate harvested sites. In boreal forested peatlands, however, the effectiveness of MSP to regenerate harvested sites is likely to be hampered by thick organic layers.
Aim
We sought to determine the capability of different MSP techniques to improve growth conditions of planted black spruce seedlings in boreal forested peatlands where closed-crown productive forests could revert to unproductive forested peatlands in the absence of severe soil disturbance.
Methods
The effects of disc scarification, mounding and patch scarification on soil chemistry and seedling growth were contrasted.
Results
Seedlings of site-prepared plots were 15% taller than those of untreated ones, irrespective of the MSP technique used, likely owing to the greater abundance of exposed mineral soil and mesic substrates created. Mounding and patch scarification were able to expose mineral soil over a greater proportion (>25% vs. <10%) of the treated area compared with disc scarification and control, whereas the combined surface area of exposed mineral soil and mesic substrates was higher in every MSP treatments relative to the control (>57% vs. 41%, respectively). Individual seedling growth was influenced by substrate type and drainage. Seedlings planted in moderately and well-drained mesic substrates and mineral soil were 25% taller than those planted in poorly drained fibric substrates.
Conclusion
All three MSP techniques were effective because they succeeded in creating high-quality microsites despite thick organic layers.
Hervé Bescond, Yves Bergeron, Nicole J. Fenton. Partial harvests in the boreal forest: response of the understory vegetation five years after harvest. 2011. For. Chron. 87(1):86-98
Abstract: In the eastern boreal forest of Canada long fire cycles allow for a significant portion of stands to become old growth. Theseold-growth boreal forest stands are subjected to secondary disturbances that create uneven structure, which supports avariety of types of organisms. In order to maintain the proportion of stands with uneven structure on the landscape, partialcuts have been suggested as a management technique that could create or maintain these uneven structures. This studycompares the effects of partial and low-retention harvests and un-harvested control on understory plants in four sites fiveyears after harvest. The relative abundance of species was examined by a habitat group. While richness did not vary amongtreatments, increasing severity of harvest favoured pioneer species that prefer disturbed mineral soil and high light levels.Sites with thicker organic layers that were harvested in the winter were significantly less impacted by both partial and lowretentionharvest. Canopy opening alone had little impact in the three most northern sites. As old-growth black spruceforests are open by nature, this suggests that soil perturbation is a bigger driver of community change after harvest thanproportion of canopy removed for this forest type.
Résumé: Dans la forêt boréale de l’Est du Canada, les longs cycles de feu permettent à une portion importante des peuplementsd’évoluer en vieille forêt. Ces peuplements sont soumis à des perturbations secondaires qui entraînent la création de structuresinéquiennes servant de support à une diversité d’organisme. Afin de maintenir, dans le paysage, une proportion depeuplement ayant une structure inéquienne, il est envisagé d’utiliser les coupes partielles en tant qu’outil sylvicole dansl’aménagement forestier pour créer ou maintenir des peuplements ayant des structures proches de celles que l’on retrouvedans les vielles forêts. Cette étude compare l’effet des coupes partielles et des coupes à faible rétention sur les plantes desous-bois dans quatre dispositifs cinq ans après la récolte. L’abondance relative des espèces a été examinée par groupe d’habitat.Alors que la richesse ne variait pas parmi les traitements, l’augmentation de la sévérité de la récolte a favorisé lesespèces pionnières qui préfèrent les sols perturbés et la lumière. Les sites, où la couche de matière organique est la plusépaisse et dans lesquels la récolte a été réalisée en hiver, ont été moins affectés par les coupes partielles et de faible rétention.L’ouverture de la canopée a eu peu d’impact dans les trois sites les plus nordiques. Les vieilles forêts d’épinette noireétant ouvertes naturellement, ceci suggère que les perturbations du sol ont un rôle plus important sur les changementsdans les communautés suite à la récolte que la proportion de la canopée récoltée dans ce type de forêt.
Yves Bergeron, Nicole J. Fenton, David Paré, Martin Simard, Benoit Lafleur. Contrasting effects of season and method of harvest on soil properties and the growth of black spruce regeneraation in the boreal forested peatlands of eastern Canada. 2010. Silva Fennica 44(5):799-813
It has been suggested that without sufficient soil disturbance, harvest in boreal forested
peatlands may accelerate paludification and reduce forest productivity. The objectives of this
study were to compare the effects of harvest methods (clearcutting vs. careful logging) and
season (summer vs. winter harvest) on black spruce regeneration and growth in boreal forested
peatlands of eastern Canada, and to identify the soil variables that favour tree growth following
harvest. Moreover, we sought to determine how stand growth following harvest compared
with that observed following fire. The average tree height of summer clearcuts was greater
than that of summer carefully logged stands and that of all winter harvested sites. Summer
clearcutting also resulted in a higher density of trees > 3 m and > 4 m tall and in a 50% reduction
in Rhododendron groenlandicum cover, a species associated with reduced black spruce
growth. Height growth of sample trees was related to foliar N and P concentrations, and to
soil total N, pH and available Ca and Mg but not to harvest method or season. Our results
also indicate that summer clearcutting could produce stand productivity levels comparable to
those observed after high-severity soil burns. These results suggest that summer clearcutting
could be used to restore forest productivity following harvest in forested peatlands, and offer
further support to the idea that sufficient levels of soil disturbance may be required to restore
productivity in ecosystems undergoing paludification.
Yves Bergeron, David Paré, Nicole J. Fenton. Decomposition rates of bryophytes in managed boreal forests: influence of bryophyte species and forest harvesting. 2010. Plant and soil. 499-508
DOI : 10.1007/s11104-010-0506-z
The slow decomposition rate of boreal forest floor bryophytes contributes both to maintaining high soil C reserves as well as affecting conditions for tree growth by maintaining excessively high soil water content, cooling the soil and slowing nutrient cycles. In this study, mass loss of three bryophyte species (Pleurozium schreberi, Sphagnum capillifolium, S. fuscum) was measured in unharvested, partial cut and low-retention cut forest blocks. Mesh decomposition bags containing the three species and wood sticks were placed at two depths in colonies of either P. schreberi or S. capillifolium (environment) in the three harvest treatments and retrieved after two growing seasons. Mass loss was primarily related to substrate type (P. schreberi > S. capillifolium > wood sticks > S. fuscum) and secondarily to depth. Harvest treatment and environment (P. schreberi or S. capillifolium) only weakly affected sphagna mass loss. The weak effect of harvest treatment suggests that conditions created by low retention cuts do not to stimulate decomposition in this system and are not important enough to stimulate carbon loss, or to counteract paludification. On the other hand, the strong effect of bryophyte type indicates that conditions affecting bryophyte colonization and succession are of great importance in driving carbon and nutrient cycles.
Yves Bergeron, Benoit Lafleur, David Paré, Nicole J. Fenton. Do harvest methods and soil type impact the regeneration and growth of black spruce stands in northwestern Quebec? 2010. Can. J. For. Res. 40(9):1843-1851
DOI : 10.1139/X10-128
Abstract: Machinery traffic restrictions during forest harvest have been adopted to minimize soil damage and protect tree regeneration. However, this practice is questioned for paludifying black spruce (
Picea mariana (Mill.) BSP) stands in which severe soil disturbance by wildfire restores forest productivity. The objective of this study was to determine, 8 years after harvest, how soil disturbance created by clearcutting and careful logging affected black spruce natural regeneration and growth and how this effect varied by soil type. While regeneration density was higher following careful logging, stocking was not influenced by harvest method. Regenerating stands were taller following clearcutting despite potentially greater damages to preestablished regeneration. Compared with careful logging, clearcutting also resulted in reduced cover of
Sphagnum spp. and ericaceous shrubs. Spruce stem density and stocking were both higher on organic and subhydric soils and lower on mesic soils. No significant interactions were observed between harvest method and soil type, indicating that the observation of taller black spruce stands and adequate stocking with clearcutting may be applicable to all soil types considered in this study. These results suggest that an adequate level of soil disturbance is an important part of forest regeneration, particularly in ecosystems where an autogenic reduction in productivity occurs.
Résumé : Afin de préserver les sols et la régénération durant la récolte, la circulation de la machinerie forestière est fréquemment restreinte à des sentiers définis. Toutefois, cette pratique est remise en question dans les peuplements d’épinette noire (Picea mariana (Mill.) BSP) susceptibles à la paludification où de sévères perturbations des sols causées par le feu sont aptes à améliorer la productivité des peuplements. L’objectif de cette étude était de déterminer comment la perturbation des sols causée lors de la coupe totale et la coupe de protection affectent la régénération de l’épinette noire 8 ans après la récolte, et comment cet effet est conditionné par le type de sol. Alors que la densité de régénération de l’épinette noire était supérieure après la coupe de protection, le coefficient de distribution n’était pas influencé par la méthode de récolte. Les peuplements d’épinette régénérés après coupe totale étaient plus hauts en dépit d’un potentiel de dommage plus grand à la régénération préétablie. Comparée à la coupe de protection, la coupe totale a aussi résulté en une réduction de la couverture au sol de la sphaigne et des éricacées. La densité et le coefficient de distribution de l’épinette noire étaient supérieurs sur les sols organiques et subhydriques et inférieurs sur les sols mésiques. Aucune interaction significative n’a été observée entre la méthode de récolte et le type de sol, indiquant qu’une plus grande hauteur des peuplements et un coefficient de distribution d’épinette adéquat après coupe totale pourrait être applicable à toute la gamme de types de sol considérée dans cette étude. Ces résultats suggèrent qu’un niveau de perturbation des sols suffisant lors des opérations forestières est nécessaire, particulièrement dans les écosystèmes où des processus autogéniques réduisant la productivité s’opèrent.
Sylvie Gauthier, Yves Bergeron, Nicole J. Fenton, Pierre Drapeau, Louis Imbeau, Alain Leduc, Marc Mazerolle. ILOTS FORESTIERS : la rétention au service de la Biodiversité. 2009. Chaire industrielle CRSNG UQAT-UQAM-AFD. Fiche technique 9. 2 p.
En forêt boréale québécoise, l’aménagement forestier écosystémique tend à s’inspirer de la dynamique naturelle des écosystèmes
afin de réduire les écarts entre les forêts aménagées et les forêts non aménagées. La variabilité dans la taille, la sévérité
et la fréquence des feux de forêts créent une mosaïque paysagère hétérogène formée de peuplements d’âges, de composition
et de structures différentes. Au sein des superficies brûlées, certaines parcelles rescapées, les îlots résiduels, jouent un rôle prépondérant
dans le fonctionnement à long terme de ces milieux perturbés en assurant le maintien d’habitat pour de nombreuses
espèces et en contribuant à la recolonisation de la matrice brûlée. Les coupes à rétention variable sont des traitements sylvicoles
intéressants qui permettent de produire des îlots forestiers dans les secteurs de coupe. Afin de définir les lignes directrices nécessaires
aux aménagistes pour émuler de tels îlots résiduels, la caractérisation de la structure, du fonctionnement et de la dynamique
de ces véritables « Arches de Noé » naturelles a été réalisée par le biais de différentes études regroupées sous le projet
ILOTS.
David Paré, Yves Bergeron, Nicole J. Fenton, Benoit Lafleur. Coupe totale : Quand protéger les sols ne convient pas. 2009. Le Couvert Boréal (édition printemps), pages 40-41.
Yves Bergeron, Nicole J. Fenton, Martin Simard. Emulating natural disturbances: the role of silviculture in creating
even-aged and complex structures in the black spruce boreal
forest of eastern North America. 2009. Journal of Forest Research 14:258-267
DOI : 10.1007/s10310-009-0134-8
Ecosystem-based forest management is based on the principle of emulating regional natural disturbance regimes with forest management. An interesting area for a case study of the potential of ecosystem-based forest management is the boreal forest of north-western Que´bec and north-eastern Ontario, where the disturbance regime creates a mosaic of stands with both complex and simple structures. Old-growth stands of this region have multistoried, open structures, thick soil organic layers, and are unproductive, while young post-fire stands established following severe fires that consumed most of the organic soil show dense and even-sized/aged structures and are more productive. Current forest management emulates the effects of low severity fires, which only partially consume the organic layers, and could lead to unproductive even-aged stands. The natural disturbance and forest management regimes differ in such a way that both young productive and old-growth forests could ultimately be under-represented on the landscape under a fully regulated forest management regime. Two major challenges for ecosystem-based forest management of this region are thus to: (1) maintain complex structures associated with old-growth forests, and (2) promote the establishment of productive post-harvest stands, while at the same time maintaining harvested volume. We discuss different silvicultural approaches that offer solutions to these challenges, namely the use of (1) partial harvesting to create or maintain complex structures typical of old-growth stands, and (2) site preparation techniques to emulate severe soil burns and create productive post-harvest stands. A similar approach could be applied to any region where the natural disturbance regime creates a landscape where both even-aged stands established after stand-replacing disturbances and irregular old-growth stands created by smaller scale disturbances are significant.
Yves Bergeron, Nicole J. Fenton. Does time or habitat make old-growth forests species rich?
Bryophyte richness in boreal Picea mariana forests. 2008. Biological Conservation 141(5): 1389-1399.
DOI : 10.1016/j.biocon.2008.03.019
The relative importance of time since disturbance and habitat variables in creating diversity in old-growth forests will influence conservation strategies. However, the independent roles of these factors are not well understood, as they are rarely examined independently. This study examines the respective roles of habitat variables and time (stand age) in determining bryophyte diversity in Picea mariana (Mill. (BSP)) forests. Bryophytes are frequently used as indicators of old-growth forest, but their true dependence on forest continuity is unknown. Bryophytes were classified into taxonomic-habitat guilds: true mosses (forest), forest liverworts, bog liverworts and sphagna (bog). Diversity increased with age and peaked at approximately 275 years since fire, driven by liverworts. Multiplicative habitat modeling indicated that time and habitat played different roles for the different taxonomic-habitat guilds. True mosses and forest liverworts were primarily influenced by habitat variables, while sphagna and bog liverworts were influenced by time and habitat variables. The models for sphagna were particularly strong, indicating that many important factors were included, while forest liverwort models were particularly weak. This unexplained variability may represent site specific random factors, such as secondary disturbances that create habitat in a fully occupied space. Overall, high richness was created by small species dependent on habitat variables and chance factors for establishment. Therefore, time since disturbance was not the primary factor limiting richness in these forests. These results suggest that in boreal North America, where forest fragmentation is limited and recent, conservation strategies that emphasize habitat variables rather than forest continuity may be effective for some bryophytes. © 2008 Elsevier Ltd. All rights reserved.
Hervé Bescond, Yves Bergeron, Louis Imbeau, Nicole J. Fenton, Catherine Boudreault, Pierre Drapeau. Évaluation sylvicole et écologique de la coupe partielle dans la forêt boréale de la ceinture d’argile. (Chap. 15). 2008. Aménagement écosystémique en forêt boréale. Presses de l’Université du Québec. 393-416
Catherine Béland, Yves Bergeron, Sylvie De Blois, Nicole J. Fenton. Sphagnum establishment and expansion in black spruce (Picea mariana) boreal forests. 2007. Can. J. Bot. 85(1):43-50
DOI : 10.1139/B06-148
Abstract:
Boreal forest bryophyte communities are made up of distinct colonies of feathermosses that cover the forest floor. In some black spruce (Picea mariana (Mill.) BSP) boreal forests, Sphagnum spp. establish colonies on the forest floor 30–40 years after the feathermosses, and ultimately expand to dominate the community. The mechanisms that permit the Sphagnum spp. to establish and expand are unknown. The objectives of this study were to examine the establishment and expansion substrates of Sphagnum spp., and the conditions correlated with colony expansion. Forty colonies, in six stands, of Sphagnum capillifolium (Ehrh.) Hedw. were dissected to determine their substrates, and the environmental conditions in which all colonies present were growing were measured. Coarse woody debris was the dominant establishment and early expansion substrate for Sphagnum capillifolium colonies. With age as the control factor, large colonies showed a significant partial correlation with canopy openness, and there were fewer individuals per cm3 in large colonies than there were in small colonies. These results suggest that Sphagnum establishment in these communities is dependent on the presence of coarse woody debris, and expansion is linked to the stand break-up, which would allow an increase in light intensity, and rainfall to reach the colony. Consequently the community change represented by Sphagnum establishment and expansion is initially governed by a stochastic process and ultimately by habitat availability and species competition.
Résumé:
Dans les forêts boréales, les communautés de bryophytes sont composées d’agglomérations de mousses hypnacées qui couvrent le sol. Dans les pessières, (Picea mariana (Mill.) BSP) les sphaignes établissent des colonies sur le sol, 30 à 40 ans après les mousses hypnacées, et réussissent ultimement à dominer la communauté. Les mécanismes qui permettent cet établissement et étalement ne sont pas encore compris. Les objectifs de cette étude sont d’examiner les substrats d’établissement et d’expansion des sphaignes, ainsi que les conditions environnementales qui permettent leur étalement. Pour ce faire, 40 colonies de Sphagnum capillifolium (Ehrh.) Hedw., réparties sur six sites ont été disséquées afin de déterminer leurs substrats d’établissement, et les conditions environnementales présentes autour de toutes les colonies ont été mesurées. Le bois mort était le substrat dominant pour l’établissement et l’étalement des colonies. Quand l’âge des peuplements est contrôlé dans une corrélation partielle, les grandes colonies étaient corrélées positivement avec l’ouverture de la couronne, et il y avait moins d’individus par cm3 dans les grandes colonies versus les petites colonies. Ces résultats suggèrent que l’établissement des sphaignes dépend de la présence de bois mort, et que l’étalement est corrélé avec l’ouverture du peuplement, phénomène qui permettrait à plus de lumière et de pluie d’atteindre les colonies. Par conséquent, l’établissement et l’expansion des colonies, qui représentent un changement dans la communauté, seraient gouvernées initialement par des processus stochastiques, et ultimement par la disponibilité d’habitat et la compétition. © 2007 NRC Canada
Nicole J. Fenton, Yves Bergeron. Sphagnum community change after partial harvest in black spruce boreal forests. 2007. For. Ecol. Manage. 242(1):24-33.
DOI : 10.1016/j.foreco.2007.01.028
In eastern Canada, boreal forests develop structural diversity in association with time since stand replacing fire. In some regions, this is
associated with significant changes in the bryophyte community (Sphagnum moss invasion) and paludification (thick waterlogged forest floor
development). The bryophyte community responds to opening of the canopy, and increasing moisture by replacement of slow growing species by
faster growing Sphagnum spp. (e.g. magellanicum, fallax) that are dependent on constant hydration. Within a forest management context, partial
harvest systems have been proposed as a strategy to maintain structural diversity, which is currently not accomplished with low retention systems.
However, it is unknown whether these interventions will effectively accelerate community succession. The questions addressed in this study were:
(1) is the composition of Sphagnum colonies in partially cut stands more similar to old-growth communities than in control, and low retention cut
stands, (2) what aspects of harvest disturbance drive these changes, and (3) is the growth rate of Sphagnum capillifolium (an early successional
shade tolerant species) different in partial versus low retention harvest systems? After harvest, Sphagnum patch size was reduced by 19.8% and
11.7% after low retention and partial harvest, respectively. While trends were not constant across three separate partial cut trials, the proportion of
Sphagnum magellanicum, Sphagnum fallax and Sphagnum fuscum increased compared to controls and low retention 1–2 years after harvest.
Models of percent Sphagnum cover indicated machinery track cover, percent cover of vascular plants, and patch depth were positive factors, while
the influence of open canopy varied among species. Despite the inclusion of individual disturbance variables, the summary variable ‘treatment’ was
significant in all models. Growth of S. capillifolium in partial cuts was intermediate to growth rates in control and low-retention cuts. Growth was
positively influenced by slash cover and, contrary to the patch level, negatively influenced by track cover. These results indicate that partial harvest
does represent an intermediate level of disturbance, as direct and indirect harvest effects were reduced, as was Sphagnum death. Change in
composition 1 and 2 years after harvest indicates that partial harvests may effectively shift the bryophyte community towards an older community
type and may thus be used to create landscape diversity. Long term trends and entire community compositions need to be assessed before this can be
stated definitively. However, as paludified stands are less productive, the capacity of these partially harvested sites to produce merchantable timber
is questioned.© 2007 Elsevier B.V. All rights reserved.
Yves Bergeron, Nicole J. Fenton. Sphagnum spore availability in boreal forests. 2006. The Bryologist 109(2):173-181.
The role of propagule availability in determining community composition is
poorly understood, and is infrequently investigated for bryophytes. In addition the extent to
which spore availability is limited by dispersal is unknown. If spore availability is not
dispersal-limited, local and regional spore dispersal and wind availability may affect spore
availability at any point. In this study, the abundance of Sphagnum spores was investigated
within the context of a successional sequence where Sphagnum spp. invade a feather moss
community in black spruce boreal forests of northwestern Que´bec, Canada. Spores were
trapped and grown in a greenhouse to protonemal stage to estimate the abundance of spores
within three sites that varied in Sphagnum abundance, and stand density (a surrogate for
wind intensity). Sporophyte production was also investigated in one site where individual
Sphagnum colonies could be distinguished. Spores were less abundant in sites with less
ground cover of Sphagnum present in the community, although spores were trapped in all
sites. Spore abundance was inversely correlated with local stand density, indicating that wind
intensity may play a role in limiting dispersal. Sporophytes were produced in colonies that
were larger and had greater access to light. These results suggest that Sphagnum invasion into
young dense forests may be partially limited by spore dispersal, although the availability of
germination substrates may also play an important role.
Nicole J. Fenton, Yves Bergeron. Facilitative succession in a boreal bryophyte community
driven by changes in available moisture and light. 2006. J. Veg. Sci. 17:65-76.
Question: What are the drivers of bryophyte succession in
paludifying boreal Picea mariana forests?
Location: The Clay-Belt of Québec and Ontario, Canada.
Methods: The bryophyte community and habitat variables
(forest floor thickness, water table, stand density, canopy
openness micro-climate and presence of ericaceous species)
were analysed in a chronosequence of 13 stands from 50 to
more than 350 years since fire.
Results: Across the chronosequence, feathermosses were replaced
by shade and desiccation tolerant slower growing hummock
Sphagna and then by faster growing hollow Sphagna.
These changes were linked with both increasing light availability
and the movement of the water table into the forest
floor.
Conclusions: As water table rise is dependent on forest floor
thickness, which is in turn influenced by the presence of
Sphagna, this successional sequence represents an example of
facilitation. Furthermore, it emphasizes the importance of
water table rise in determining stand level, and landscape level
variables such as carbon balance.
Nicole J. Fenton. Le rôle des bryophytes dans les mécanismes d’entourbement des forêts d’épinette noire de la ceinture d’argile du Québec et de l’Ontario. 2006. Thèse de doctorat en sciences de l'Environnement, Université du Québec en Abitibi-Témiscamingue. 161 p.
L’entourbement est le développement d’une couche épaisse de matière organique sur
le sol en association avec la remontée de la nappe phréatique. L’entourbement est associé à
une réduction du taux de croissance des arbres qui est potentiellement une conséquence du
milieu froid et humide dans lequel poussent les racines. À cause de leurs propriétés physiques
(production, décomposition, capacité d’absorber l’eau), les sphaignes ont été associées à
l’accumulation de la matière organique sur le sol et à la remontée de la nappe phréatique,
mais cette relation n’a pas encore été démontrée. La ceinture d’argile du Québec et de
l’Ontario est une grande région affectée par l’entourbement. Malgré l’importance de ce
processus pour la région, il y a peu d’études qui examinent en détail l’entourbement.
L’objectif global de cette thèse est de déterminer les mécanismes d’entourbement et le rôle
des bryophytes dans le processus d’entourbement des forêts d’épinettes noires de la ceinture
d’argile du Québec et de l’Ontario.
Des études dans une chronoséquence de peuplements d’épinettes noires ont pu
déterminer que l’accumulation avec le temps de matériel organique sur le sol minéral est
causée par le climat régional, ainsi que la présence de sphaignes et de plantes éricacées. De
plus, il a été démontré que la remontée de la nappe phréatique n’est pas une cause de
l’accumulation de la matière organique mais une conséquence de cette dernière. Malgré des
hypothèses émises il y a plus de 50 ans, la sphaigne n’a pas joué de rôle direct dans la
remontée de la nappe phréatique mais plutôt un rôle indirect via sa contribution à
l’accumulation de la matière organique.
Les études portant sur le phénomène de l’entourbement lui-même ont illustré
l’importance de la communauté des bryophytes sur le fonctionnement de l’écosystème. La
communauté de bryophytes passe d’une communauté dominée par les mousses hypnacées, à
une communauté dominée par des sphaignes formant des hummocks, à une communauté
dominée par les sphaignes de milieux humides. Les changements en lumière et en humidité
disponible associés à l’entourbement ont été identifiés comme étant les facteurs qui causent
les changements de communautés lors de la succession. La quantité de lumière disponible
pour les bryophytes augmente avec l’âge du peuplement à cause de l’ouverture du couvert
forestier suite à la sénescence par pied d’arbre. Le taux d’humidité disponible augmente
quant à lui avec l’accumulation de la matière organique et la remontée éventuelle de la nappe
phréatique. Puisque les mousses et les sphaignes sont en partie responsables de
l’accumulation de la matière organique, ces résultats suggèrent que la succession dans la
communauté de bryophytes s’appuie sur le modèle de facilitation.
Malgré que les changements de composition aient été expliqués par les changements
dans l’environnement, l’établissement initial des sphaignes dans les jeunes peuplements
n’était pas expliqué par des limitations d’habitat. La disponibilité des spores n’explique pas le
manque de sphaignes dans les jeunes peuplements. Mais, les colonies de sphaignes se sont
établies à plus de 70% du temps sur le bois mort, ce qui potentiellement expliquerait une
restriction dans le temps et l’espace de la colonisation. Ensemble, ces résultats nous
permettent de voir que les changements dans la communauté de sphaignes sont influencés plutôt par des processus stochastiques (la colonisation) au début de la succession et par des
processus dirigé par l’habitat et les processus de compétition à la fin de la succession.
Ces études mettent l’emphase sur deux lacunes dans l’aménagement forestier de
peuplements et de paysages entourbés. Les forêts entourbées et les jeunes forêts non
entourbées contiennent des communautés de bryophytes riches et distinctes. La coupe avec la
protection des sols et de la régénération (CPRS), qui est la norme dans la forêt boréale au
Québec, ne recrée pas la structure des jeunes forêts quand c’est appliqué dans les vieilles
forêts. Également, la CPRS ne récréer pas la structure des vieilles forêts entourbées et le
manque de ces deux types d’habitat dans le futur pourrait mettre les espèces associées avec
ces stades en périls. Les coupes partielles ont le potentiel de recréer les communautés de
bryophytes associées avec les vieilles forêts mais jusqu’à maintenant, uniquement les
sphaignes ont été examinées, et cela à court terme.
En conclusion, une meilleure connaissance et compréhension de la communauté des
bryophytes dans les forêts d’épinette noire sur les dépôts fins nous permettra de formuler une
meilleure stratégie d’aménagement qui prend en compte la biodiversité des bryophytes de ces
forêts extraordinaires et leur productivité.
© 2006 UQAT tous droits réservés.
Nicolas Lecomte, Martin Simard, Yves Bergeron, Nicole J. Fenton. Fire severity and long-term ecosystem biomass dynamics in coniferous boreal forests of eastern Canada. 2006. Ecosystems 9:1215-1230.
The objective of this study was to characterize the
effects of soil burn severity and initial tree composition
on long-term forest floor dynamics and
ecosystem biomass partitioning within the Picea
mariana [Mill.] BSP-feathermoss bioclimatic domain
of northwestern Quebec. Changes in forest
floor organic matter and ecosystem biomass partitioning
were evaluated along a 2,355-year
chronosequence of extant stands. Dendroecological
and paleoecological methods were used to
determine the time since the last fire, the soil burn
severity of the last fire (high vs. low severity), and
the post-fire tree composition of each stand (P.
mariana vs. Pinus banksiana Lamb). In this paper,
soil burn severity refers to the thickness of the
organic matter layer accumulated above the mineral
soil that was not burned by the last fire. In
stands originating from high severity fires, the
post-fire dominance by Pinus banksiana or P. mariana
had little effect on the change in forest floor
thickness and tree biomass. In contrast, stands
established after low severity fires accumulated
during the first century after fire 73% thicker
forest floors and produced 50% less tree biomass
than stands established after high severity fires.
Standing tree biomass increased until approximately
100 years after high severity fires, and
then decreased at a logarithmic rate in the millennial
absence of fire. Forest floor thickness also
showed a rapid initial accumulation rate, and
continued to increase in the millennial absence of
fire at a much slower rate. However, because
forest floor density increased through time, the
overall rate of increase in forest floor biomass (58
g m)2 y)1) remained constant for numerous centuries
after fire (700 years). Although young
stands (< 200 years) have more than 60% of
ecosystem biomass locked-up in living biomass,
older stands (> 200 years) sequester the majority
(> 80%) of it in their forest floor. The results from
this study illustrate that, under similar edaphic
conditions, a single gradient related to time since
disturbance is insufficient to account for the full
spectrum of ecosystem biomass dynamics occurring
in eastern boreal forests and highlights the
importance of considering soil burn severity. Although
fire severity induces diverging ecosystem
biomass dynamics in the short term, the extended
absence of fire brings about a convergence in
terms of ecosystem biomass accumulation and
partitioning.
Krassimir Naydenov, Yves Bergeron, A. Alexandrov, Nicole J. Fenton, Francine Tremblay. Dissimilar patterns of Pinus heldreichii Christ. Populations in Bulgaria revealed by chloroplast microsatellites and terpenes analysis. 2005. Biochemical Systematics and Ecology. 33(2):133-148.
In the present study we investigated the genetic structure and genetic diversity of Pinus heldreichii populations in Bulgaria using chloroplast microsatellite markers and terpene analysis. We were interested in addressing the following questions: (1) can population structuring in Bosnian pine be detected via chloroplast microsatellite markers; (2) are there differences in population differentiation as determined by terpenes and microsatellites; and (3) how are the patterns of size variant frequencies and geographical distances related. Four provenances were chosen throughout the species' range in Bulgaria. Following DNA extraction, chloroplast microsatellite (cpSSR) loci were surveyed using 6 primer pairs. Between 2 and 5 size variants were identified at each locus. A total of 16 size variants at the 6 loci were identified, 4 occurring at low frequencies. They were combined in 21 different haplotypes including 11 that were unique. AMOVA analysis revealed that 18.25% of the variation was found among populations, while 81.75% was expressed within populations. The cpSSR analysis divided Bosnian pine populations into two groups, the first represented by populations B, C and D located in the south and north-western part of the Pirin and Slavianka mountains, while the second group, represented by population A, is located in the north-eastern Pirin mountain. Terpene analysis revealed that on average, 59% of the monoterpene pool in P. heldreichii is accounted for by limonene (range 36-48%) followed by a-pinene (range 16-17%). The presence of two distinct groups (Pop-A, Pop-D and Pop-B, Pop-C) is more consistent with physical distances between populations. No significant correlation between genetic distance determined by chloroplast microsatellites analysis and chemotype distance determined by terpenes was observed. Our results suggest that the structural pattern of genetic diversity of cpDNA in Bosnian pine populations is the consequence of historical and biogeographical processes. © 2004 Elsevier Ltd. All rights reserved.
Yves Bergeron, Nicole J. Fenton, Nicolas Lecomte, Sonia Légaré. Paludification in black spruce (Picea mariana) forests of eastern Canada: Potential factors and management implications. 2005. For. Ecol. Manage. 213(1-3):151-159.
DOI : 10.1016/j.foreco.2005.03.017
Over time boreal black spruce forests on fine-textured soils in western Quebec, Canada develop very thick forest floors composed of poorly decomposed litter created by the tree and understory layers. These paludified soils are typically waterlogged and cold, and in this fire-mediated landscape, are at least partially consumed by stand replacing fires, which facilitates the establishment of the next generation of trees. Within a context of ecosystem-based management, forest harvest should mimic the dual effects of high severity fire on tree and forest floor biomass. This study was designed to investigate potential factors of forest floor thickness in order to determine the impact of removing only a tree layer, and to suggest strategies to limit paludification in this important forestry region. Forest floor thickness, fire severity, basal area, canopy closure, cover of Sphagnum spp. and ericaceous spp. were measured in black spruce stands across a chronosequence from 50 to 350 years after fire. Fire severity was determined to be a key factor in determining forest floor thickness by path analysis. After high severity fires forest floor thickness was primarily dependant on stand age, but was also positively influenced by Sphagntan spp. cover and negatively influenced by the presence of trembling aspen (Populus tremuloides). These results suggest that forest interventions that do no remove the organic layer may be mimicking low severity fires and promoting poor tree growth and regeneration. Forest floor thickness may be limited by avoiding interventions that open the canopy and may promote the presence of Sphagnum spp. and ericaceous spp., and or by practicing mixed silviculture of trembling aspen and black spruce. However, a balance needs to be maintained between the application of these techniques and the preservation of paludified forests in the landscape. (c) 2005 Elsevier B.V. All rights reserved. © 2005 Elsevier B.V. All rights reserved.
Nicole J. Fenton. Procédures d'établissement de la possibilité forestière pour différentes régions de la forêt boréale (Colombie-Britannique, Ontario, Québec, Suède, Finlande) : permettent-elles d'atteindre des objectifs de rendement soutenu et d'aménagement forestier durable ? 2004. Synthèse remis comme exigence partielle du programme de doctorat en science de l'environnement.
As a result of their poikilohydric habit bryophytes interact with their local climate more intimately than most plants, and may be particularly affected by global climate change. These effects may have significant effects at a global scale, as bryophytes play an important role in the carbon cycle of the boreal regions. Within the context of the two dominant ecosystem types of the boreal biome (forests and peatlands), this review examines the integrated effects of climate change on bryophytes at individual, community and ecosystem levels.
The impact of climate change on individuals is difficult to predict, as studies have focussed on Sphagnum spp., and the results are contradictory, with many confounding variables, however, changes in water balance are likely to have the most dramatic effect on individual growth rate. These individual changes in growth rate may result in shifts in competitive balances, and community composition, leading to community replacement. Water table fluctuations are likely to have the greatest impact on boreal peatland community composition as competitive hierarchies are frequently structured by height above water table, with hummock species potentially being favoured over hollow species. In boreal forests, composition will also be affected by shifts in competitive balances, but more profoundly by habitat availability, and changes in disturbance regime, as type (e.g. spruce vs pine forest) and distribution of boreal forest is expected to shift in a 2xCO2 environment.
Changes at the individual and community levels can be expected to engender changes at the ecosystem level, particularly in terms of ecosystem distribution and function (e.g. role in carbon cycle). Peatland distribution is expected to shift northward, particularly in continental areas that may experience the most severe temperature increase. The future status of peatlands as carbon source or sink is still unclear, but will vary with local conditions. Boreal forests are also generally expected to move north, but the degree that the southern border moves north will vary with local climate patterns and changes in disturbance regime. In terms of ecosystem function, shifts in boreal forest community type may have a more significant effect on the carbon balance than changes in distribution. Depending on local predictions of climate change, there may be an increase or decrease in carbon sequestering capacity of boreal forests, predominantly as a function of the composition and abundance of the bryophyte community.
Ultimately, the effect of climate change on boreal bryophytes and their role in the global carbon cycle will be an integration of sumative physiological effects on individuals, and direct effects on communities and ecosystems, such as changes in disturbance regime. As a result, the impact of climate change will vary locally, and predictions about the future of boreal bryophyte communities (and their interaction with the carbon cycle) should be based on a synthesis of local predictions, rather than a dissection of regional or national predictions.
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