期刊,Forest Ecology and Management 2022年507卷期_国家学术搜索

期刊信息/Journal information

Forest Ecology and Management

Elsevier Science

主办单位：Elsevier Science

国际刊号：0378-1127

Forest Ecology and Management/Journal Forest Ecology and ManagementSCIISTPEIAHCI

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Factors driving native tree species restoration in plantations and tree structure conversion in Chinese temperate forests

Wang, TaoDong, LingboLiu, Zhaogang

12页

查看更多>>摘要：Forests have been planted over large areas during forest restoration programs in Northeast China. An important challenge is transforming forest species structure by allowing colonization of native species in plantations, especially under the present policy of limited logging intensity and near-natural management practices. However, research on the entire process of native tree species restoration and conversion of tree species structure over time remains limited. Therefore, a multi-year field study was conducted to document native tree species restoration in plantations and different open land-cover types in Chinese temperate forests. We evaluated native tree species restoration in plantations (n = 30) and different types of natural recovery in open areas (n = 50) as controls. The first survey was conducted in 1990, with plots sampled in plantations of age 4-30 years, and repeat surveys were conducted in 1993, 2004, and 2016. We compared the importance of abiotic and biotic factors in the different survey periods using the Random Forest algorithm for restoration outcome (i.e., presence of 'large trees' (DBH >= 5 cm) of natural tree species in plantations) and the changes in plantation tree species composition during the survey periods. The aim was to test our hypothesis that abiotic and biotic factors, such as topography, habitat, and distance from nearest forest (i.e., seed source), differ in importance under different restoration periods. The results revealed that the basal area of large trees was the most important variable for native tree species restoration in plantations over the entire survey period. Abiotic factors, such as elevation and slope, differed in importance and relevance in the different recovery periods to the restoration outcomes in plantations and open areas. Increase in distance from seed source had a negative effect on natural tree species restoration in plantations and different types of open areas. Although the correlation of distance from seed source to restoration outcomes is consistent during the entire survey period, the importance of distance from seed source varied along a chronosequence. Different forest management measures require implementation. As succession progressed, the dominance of planted tree species in plantations gradually decreased. Compared with passive natural recovery, active planting of seedlings in open land not only promotes the restoration of coniferous species that no longer exist in an area owing to excessive logging, but also promotes the restoration of other native tree species.

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NSTL
Elsevier

A ten-year record reveals the importance of tree species' habitat specialization in driving successional trajectories on Hainan Island, China

Tian, LixinLetcher, Susan G.Ding, YiZang, Runguo...

8页

查看更多>>摘要：Tropical secondary forests play an increasing role in biodiversity conservation and climate change mitigation, but the underlying mechanisms driving the successional trajectory to old-growth forests are still not fully characterized. Species with different dispersal abilities or habitat preferences affect the compositional similarity of secondary forests to old-growth forests. We studied the dynamics of forest succession in twelve 1-ha plots of tropical secondary forests on Hainan Island, China, using ten years of census data (2010-2020). We compared the variations in demographic rates and community composition among three successional stages, with four plots each in young secondary forest (YS), old secondary forest (OS), and old-growth forest (OG). The effects of five species groups (generalists, rare species, and specialists in each of the three successional stages) on successional trajectory were explored using sensitivity analysis. Species richness in the OS only reached 65% of OG after 60 years of succession. The diameter growth, mortality, and recruitment rates were the highest in the YS and the lowest at the OG. Growth decreased and recruitment increased during the second census period (2015-2020) during which there were two extended droughts, but there was no significant change in mortality rate. The successional trajectories of YS and OS showed a slow but directional trend towards the OG, with a weak stochastic component. The five species groups made different contributions to the successional trajectory. Generalists contributed to the convergence of secondary forests to old-growth forests, while old-growth specialists contributed to divergence. Secondary species usually contributed to divergence with old-growth forest, and young-secondary specialists had a stronger effect than old-secondary specialists. The divergence effect of rare species on similarity occurred only when presence data were used. When based on abundance data, rare species had little effect on community similarity. Overall, our results indicated that the successional trajectories of our tropical secondary forests moved towards OG but the recovery rate was slow. Both deterministic and stochastic processes contribute to secondary succession, but deterministic processes dominated. Furthermore, it is necessary to emphasize the different contributions of species with different habitat specialization to the successional trajectory, in order to better predict successional outcomes and prioritize conservation targets.

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NSTL
Elsevier

Marginal imprint of human land use upon fire history in a mire-dominated boreal landscape of the Veps Highland, North-West Russia

Drobyshev, I.Ryzhkova, N.Niklasson, M.Zhukov, A....

10页

查看更多>>摘要：Dendrochronological reconstructions inform us about historical climate-fire-human interactions, providing a means to calibrate projections of future fire hazard. Most of these reconstructions, however, have been developed in landscapes with a considerable proportion of xeric sites that could potentially inflate our estimates of the historic levels of fire activity. We provide a 420-year long reconstruction of fires in a mire-dominated landscape of the Veps Nature Park, North-West Russia. The area has mostly escaped large-scale forestry operations in the past and is an example of pristine mid-boreal vegetation with a high (approximately 30% for the area studied) proportion of waterlogged areas with ombrotropic mires. The historical fire cycle was 91.4 years (90% confidence intervals, CI 66.2-137.6 years) over the 1580-1720 period, decreasing to 35.9 (CI 28.1-47.6 years) between 1730 and 1770, and then increasing again to 122.7 years (CI 91.0-178.0 years) over the 1780-2000 period. Early season fires dominated over late season fires during the reconstruction period. We documented a higher fire activity period between 1730 and 1780, resulting from the increase in early season fires. This period coincided with one of the largest multi-decadal declines in the reconstructed spring precipitation since 1600 CE, although we found no significant relationship between fire and precipitation over the whole reconstructed period. The nine largest fire years were associated with negative summer precipitation and positive summer temperature anomalies over the study region. Land-use history of the area did not appear to have an effect on historical fire dynamics. Modern (1996-2016) fire records indicate a regional fire cycle of ~ 1300 years, featuring a pronounced pattern with early (April-May) and late (July-September) season fires. The uniform fire cycle in the area since 1780, occurrence of nine largest fire years during years with spring-summer droughts, and low ignition frequencies over the last 420 years (0.005 to 0.037 ignitions per year and km2) suggest that the fire regime of the Veps Highland remained largely natural until the onset of the 20th century.

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NSTL
Elsevier

Spatial species distribution models: Using Bayes inference with INLA and SPDE to improve the tree species choice for important European tree species

Falk, WolfgangEngel, MarkusMette, Tobias

10页

查看更多>>摘要：Species distribution models (SDMs) are a standard tool for predicting species occurrence under climate change. Despite its limitations, SDMs have been widely used to assist forest management decisions in their choice of future tree species. The accuracy of SDMs is often affected by heterogeneous occurrence data caused by different forest inventory schemes, historical processes, climate and insect calamities and more. These processes bias the relationships modelled between species occurrence and climate. However, numerous studies have shown that explicit modelling of spatial effects may improve model accuracy. In this study, we applied the Integrated Nested Laplace Approximation (INLA) and Stochastic Partial Differential Equations (SPDE) algorithms as a means to accomplish Bayes inference for Generalized Additive Models (GAMs) with explicit modelling of spatial effects. Our results show that including spatial effects in GAM-based SDMs improved model performance and accuracy leading to more reliable predictions for the species Favorability. Conditional predictions that remove spatial effects from the models allow us to distinguish core and marginal ecological ranges with less bias through forest management, which may support the tree-species choice for climate-resilient forests.

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NSTL
Elsevier

Five successive years of rainfall exclusion induce nutritional stress in a mature beech stand

Touche, J.Calvaruso, C.De Donato, P.Turpault, MP....

14页

查看更多>>摘要：Faced with the intense and repeated drought episodes expected in the coming decades, the challenge is to adapt forest management to limit the risks of forest deterioration, especially for forest ecosystems most sensitive to drought such as those developed on shallow soil in mesic conditions. In addition, there is a lack of knowledge on nutrient cycles and notably on nutrient deficiencies induced by drought. The objective of this study is to observe the consequences of recurrent water shortages in a mature European beech forest on shallow limestone soil which is highly represented in the region. The response of beech trees to five consecutive years of spring and summer rainfall exclusion (0 mm of precipitation for three and half months per year) was quantified by measuring changes in stem growth and crown condition. Nutrient contents in green leaves, senescent leaves, holorganic horizons, fine roots and soil were also measured. After five years of spring and summer drought we observed a decrease in growth of 55% relative to control and a sharp deterioration in the crown condition with 67% leaf loss relative to local reference trees. Moreover, in 2021, two years after the end of the experiment, 33% of the trees in the rainfall exclusion experiment were found dead, while no tree mortality was observed in the control. Among the nutrients, potassium was the most affected, with a significant decrease in all compartments studied, and K deficiency was found in green leaves. Five consecutive years of water shortage on calcareous soil with limited extractable water and K reserves induced double water and nutrient stress, which could contribute to the vulnerability of trees to drought and the risk of mortality. To limit the impact of future drought events on this sensitive ecosystem, forest managers could consider K fertilization and/or rational and K-efficient management.

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NSTL
Elsevier

Are northern German Scots pine plantations climate smart? The impact of large-scale conifer planting on climate, soil and the water cycle

Leuschner, ChristophForster, AgnesDiers, MarcoCulmsee, Heike...

12页

查看更多>>摘要：Increasing temperatures and rising atmospheric vapor pressure deficits are exposing forests around the globe to increasing drought and heat stress, demanding a shift to climate-smart forestry for increasing the stress resistance and resilience of production forests and to enhance their climate change mitigation potential. Based on measurements in paired pine and beech forests and the review of literature data, we analyse the biophysical con-sequences and the carbon cycle impact of large-scale Scots pine (Pinus sylvestris L.) plantations in northern Germany in the face of a warming and aridifying climate. We quantified canopy surface albedo and surface temperature, evapotranspiration and deep seepage, carbon (C) storage in biomass and soil and annual C sequestration, and soil acidification of pine plantations in comparison to beech forests (Fagus sylvatica L.), the natural forest vegetation. We find that near-infrared (NIR, 700-3000 mn) canopy surface albedo is higher by 5.2 percentage points during summer over beech as compared to pine forest, resulting in a 9 % higher net radiation and a 0.6 K higher surface temperature of the pine canopy. Deep seepage is on average by 68 mm yr(-1) smaller under pine than beech forest (66 mm yr(-1)& nbsp;vs. 134 mm yr(-1)) due to the higher evapotranspiration of pine. C storage in biomass and soil is by ~ 48 Mg C ha(-1)& nbsp;higher in beech than pine forests, reflecting the higher productivity of beech, demonstrating an unfavorably low C sequestration potential of Scots pine plantations. We conclude that the large-scale Scots pine plantations in northern Germany (> 1.7 million ha) are neither environmental-friendly nor climate smart, given their enhancement of climate-warming, low climate change mitigation potential, and negative effect on groundwater recharge. Replacing pine plantations by beech (or other hardwood) forests in northern Germany and adjacent regions is urgently needed for achieving the goals of climate-smart forestry.

原文链接:

NSTL
Elsevier

Burn severity and pre-fire seral state interact to shape vegetation responses to fire in a young, western Cascade Range forest

Halpern, Charles B.Antos, Joseph A.

18页

查看更多>>摘要：Wildfire size and frequency are increasing across the western U.S., affecting large areas of young, second-growth forest originating after logging and burning. Despite their prevalence in the western Cascade landscape, we have a poor understanding of how these young stands respond to fire or how their responses differ from older, undisturbed forests, which are well studied. We explore these questions using pre-and early post-fire data from a young (< 30-year-old), naturally regenerating forest in western Oregon that was burned preemptively to limit spread of the 2018 Terwilliger Fire. We exploit natural variation in the initial vegetation and fire behavior to test how pre-fire seral state (relative abundance of early-seral vs. forest-generalist species) and burn severity interact to shape short-term responses to fire. Drawing from disturbance theory and studies of fire in older forests we hypothesized that pre-fire seral state would mediate compositional change and functional-group cover and richness through the regenerative and clonal traits of available species. Two years after fire, we found greater compositional change with increasing fire severity, although the effect was weaker where early-seral species dominated prior to burning. Species richness was unaffected by increasing fire severity as gains in early-seral species were balanced by loss of forest species. In contrast, species diversity (Hill's N1) and evenness declined, reflecting a shift in the dominance structure of the understory, with the pre-fire dominant, Pteridium aquilinum, expanding further, and forest generalists declining. Among plant functional groups, both annuals and perennials responded positively to fire severity, but annuals remained sparse (< 1% of herbaceous cover), a stark contrast to their dominance after fire in older forests. Increasing fire severity enhanced the cover and richness of early-seral herbs. However, it reduced the cover or richness of most other groups, including early-seral shrubs, forest herbs, and forest shrubs. Within most functional groups, species varied in their responses to fire, reflecting variation in the type and depth of burial of perennating structures and in the potential for clonal growth. Our results underscore the importance of pre-fire conditions for shaping understory responses to fire in young forests, as they do in older forests. Legacies of past disturbance and species' adaptions to fire clearly favor early-seral herbs over residual forest species. Further study is needed to determine whether the recurrence of fire during the early stages of stand development simply resets succession or alters its longer-term trajectory.

原文链接:

NSTL
Elsevier

Complementary effects of tree species on canopy rainfall partitioning: New insights for ecological restoration in Andean ecosystems

Cano-Arboleda, Laura V.Cristina Restrepo, AuraQuintero-Vallejo, EstelaCamilo Villegas, Juan...

10页

查看更多>>摘要：Vegetation affects local water balance partitioning via effects on incoming precipitation, local radiation balance and soil hydrological properties. The extent of these effects is related to plant functional traits, such that forest composition plays an important role in its hydrological function. Therefore, the selection of species in forest restoration processes is key to recovering ecological (including hydrological) function. However, most restoration projects often do not include functional criteria for species selection, and even less frequently they include ecohydrological functions, although many projects are intended to recover hydrological regulation. We explored the association between plant functional traits and ecohydrological function, indicated by precipitation partitioning in the canopy into stemflow and throughfall, in an 8-year watershed restoration project in the Central Andes of Colombia. We monitored stemflow and throughfall (both mean and variability) on planted individuals from ten native tree species for almost two years and measured functional traits that describe tree crowns and are associated with rainfall partitioning. We found that stemflow and throughfall behavior is generally inverse and differ among species, with the highest variability in mean stemflow and coefficient of variation of throughfall. Furthermore, our results show that stemflow and throughfall are significantly associated with tree crown functional traits (R-2 = 0.74 for crown area and R-2 = 0.62 for crown density x volume). Besides, the studied species are organized in a variation space of ecohydrological processes and crown functional traits (first two principal components from PCA explain 71.7% of data variability). They are organized from wider/less dense crowns in Alnus acuminata to smaller/denser crowns in Quercus humboldtii, which significantly influenced the temporal variability of stemflow and throughfall, respectively. Other species are located intermittently along this variation space. From a multivariate perspective, our species were differentiated into four discrete groups based on similar functional traits and, therefore, with similar effects on ecohydrological processes. This suggests a complementary effect of different species on the ecosystem hydrological functions, thus highlighting the importance of considering diversity on ecosystem management and ecological restoration for the recovery of ecosystem integrity.

原文链接:

NSTL
Elsevier