期刊,Forest Ecology and Management 2022年510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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Large fires or small fires, will they differ in affecting shifts in species composition and distributions under climate change?

Huang, ChaoDuan, ShengwuHawbaker, Todd J. J.Henne, Paul D. D....

10页

查看更多>>摘要：Climate change is expected to increase fire activity, which has the potential to accelerate climate-induced shifts in species composition and distribution in the boreal-temperate ecotone. Wildfire can kill resident trees, and thus provide establishment opportunities for migrating tree species. However, the role of fire size and its interactions with tree species with varied life-history attributes in driving climate-induced shifts is not understood. Future fire regimes could be characterized by many small fires or a few large fires. Large and small fires create and regulate distinct burn patterns, which may influence tree-species responses and post-fire successional trajectories. Here we investigated the effects of future fire-regime variability on the boreal-temperate ecotone of northeastern China under climate change using a coupled forest dynamic model (LANDIS PRO) and ecosystem process model (LINKAGES). We simulated fire regimes using the LANDIS PRO fire module. We designed two fire scenarios (frequent, small fires and infrequent, large fires) to represent different fire regimes in terms of fire size. Results showed fire-catalyzed, climate-induced transitions from boreal to pioneer and temperate forest communities. Frequent, small fires resulted in 13% and 23% higher increases in pioneer and temperate species respectively, relative to infrequent, large fires. Therefore, species composition shifts were faster following frequent, small fires than infrequent, large fires. The results can help policymakers and forest managers determine tradeoffs among strategies to mitigate or adapt to climate change under altered fire regimes.

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Elsevier

Perspectives: Thirty years of triad forestry, a critical clarification of theory and recommendations for implementation and testing

Himes, AustinBetts, MatthewMessier, ChristianSeymour, Robert...

9页

查看更多>>摘要：The term "triad" in forestry refers to a landscape management regime composed of three parts: (1) intensive plantation management, (2) ecological forest reserves, and (3) a matrix of forests managed for multiple uses following the principals of ecological forestry. In this paper we review the sociohistorical and academic context for triad forest management and related concepts. We argue that the triad has the potential to minimize trade-offs between meeting global demand for timber products and forest ecosystem services that are typically under-provisioned in forests intensively managed for timber production. The triad should include intensive monitoring of multiple ecosystem services outcomes from each of the three management types so that specific practices and allocation between intensive plantations, reserves and the matrix can be adapted to changing societal and ecological conditions. We describe guidelines for implementing the triad that may assist policy makers and forest managers in putting theory into practice and provide a real-world example of triad adoption from Nova Scotia, Canada. While the triad concept has many promising qualities, there are many challenges to its wider adoption; we summarize four significant challenges (multiple ownerships, saturation of high productivity plantations, reserves under global change, and shifting wood demand and production) and offer ways to potentially overcome come them. The triad is an auspicious landscape approach, but to date there is very little empirical evidence supporting triad over alternatives, thus experimental and observation studies are needed to compare the efficacy of the triad over other forest landscape management schemes.

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Effects of wildfire and soil compaction on recovery of narrow linear disturbances in upland mesic boreal forests

Filicetti, Angelo T.Nielsen, Scott E.

11页

查看更多>>摘要：Energy exploration has led to fragmentation of habitats worldwide. In boreal forests of Alberta, Canada narrow clear-cut linear disturbances (3-14 m wide) called seismic lines are often the largest local source of forest fragmentation. Many lines have failed to recover decades after their creation leading to changes in forest dynamics and biodiversity. In some cases, these linear features function as habitat and/or corridors for species, while being detrimental in other species, most notably the threatened woodland caribou (Rangifer tarandus caribou). Recently, industry and government have focused on reforestation of these lines using silvicultural treatments and tree planting. However, these applications are expensive (> $12,500/km) and do not account for wildfires that can destroy restoration investments (planted trees), yet also initiate early seral conditions that favor natural recovery. Here, we examined soil compaction (bulk density) and tree regeneration density in burnt and unburnt seismic lines within mesic upland forest types and compared these to adjacent (paired) forest controls. Bulk density on seismic lines increased by 34% compared to undisturbed adjacent forests, but was not severe enough to impede regeneration. Despite increases in compaction, regeneration density was 19% higher on lines than in adjacent forests. Specifically, regeneration density averaged 19,622 stems/ha in burnt lines, 11,870 stems/ha in unburnt lines, 16,739 stems/ha in adjacent burnt forest, and 6,934 stems/ha in adjacent unburnt forest where regeneration rates are expected to be lower. We suggest that leave-for-natural recovery (passive restoration) of seismic lines can be expected post-fire in mesic upland forests with even the majority of unburnt seismic lines recovering to densities above the 5,000 stems/ha guidelines. Active restoration treatments using intensive silviculture treatments should therefore only be considered where recovery is not observed or wildfire likely.

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Do invasive species provide a refuge from browsers? A test of associational resistance in a peri-urban habitat plagued by deer

Betras, Tiffany L.de Cortie, EsmeeCarroll, AliUtz, Ryan P....

7页

查看更多>>摘要：White-tailed deer (Odocoileus virginianus) overbrowsing over the past several decades has caused substantial changes to plant communities in eastern deciduous forests. Deer-preferred species have declined or become locally extirpated in many areas while deer-tolerant species have greatly increased in abundance. Moreover, the abundance of nonnative invasive species has also increased over the last few decades, outcompeting many native species. Native shrubs such as Sambucus canadensis (American elderberry) are now much less common, particularly in urban forests and forests with high deer densities. Here, we performed a short-term study in which we introduced propagations of a native shrub into a replicated field experiment in which we factorially manipulated deer presence or absence and invasive species presence or absence by using exclosures and removing invasive species. We monitored metrics of S. canadensis fitness including leaf count and plant height over two growing seasons. Browsing substantially reduced survival whereas invasive species provided a modest degree of associational resistance. Browsing significantly decreased both leaf count and plant height. By the end of the study, individuals within exclosures had over twice the number of leaves, were five times taller, and had much lower mortality versus those exposed to browsing. Removing invasive species did not change plant height, however, S. canadensis individuals experienced marginally higher leaf counts inside exclosures where we had removed invasive species. This trend was opposite in individuals outside of fences such that those growing within patches where invasive species remained had slightly higher leaf counts, especially during the first growing season. Until the final census date, elderberry growing within patches of invasive species had slightly lower mortality versus those growing in patches where invasive species had been removed. The results from our short-term study indicate that browsing is more inimical to a native shrub than competition from invasive species and we did not find evidence of associational resistance to browsing from invasive cover.

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Elsevier

Drivers and spread of non-native pests in forests: The case of Gonipterus platensis in Spanish Eucalyptus plantations

Adame, PatriciaAlberdi, IciarCanellas, IsabelHernandez, Laura...

14页

查看更多>>摘要：Plantations of Eucalyptus species have been widely used in Spain to meet the high demand for wood given their rapid growth and high wood production capacity. Defoliation induced by the invasive eucalypt weevil (Gonip-terus platensis (Marelli)), however, has been causing significant economic damage to Spanish Eucalyptus spp. plantations since the 1990s. G. platensis is native to Tasmania, Australia, where populations are controlled by natural enemies including the egg parasitoid Anaphes nitens Girault. In this study, spatio-temporal Universal Kriging was applied to examine the dynamics of defoliation damage caused by G. platensis in Spanish Eucalyptus spp. plantations and to identify the main factors associated with the presence and spread of the pest. The data set combines the Spanish national plots belonging to the network of the European transnational survey of forest condition in Europe (ICP Forest Level I, 16 x 16 km grid) along with regional plots, measured using similar field protocols, in which Eucalyptus spp. are present. A total of 264 Eucalyptus plots were included in the study, G. platensis being present in 167 of these plots at some time during the observed period (2005-2020). Our results show that defoliation damage > 0% and defoliation damage > 5% caused by G. platensis increased over the period 2005-2010 and then decreased between 2010 and 2020. Defoliation damage > 15% incidence steadily decreased from 2005 to 2015, but showed an upturn in 2020. Stands belonging to the Atlantic region are more affected by this pest (76% of the Atlantic sampling plots affected versus just 4% of the Mediterranean plots). The species Eucalyptus globulus Labill. and monospecific stands, as well as spring precipitation of the current year were found to be positively associated with the incidence of G. platensis whereas the relationship with summer temperature of the previous year was negative. Finally, maps showing the degree of incidence over time have been produced to support decision-making for pest prevention and control. This study puts forward a methodology which allows the spread of this pest to be better understood and simulated, thus facilitating risk prevention.

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Elsevier

Differences in canopy and understorey diversities after the eruptions of Mount Usu, northern Japan-Impacts of early forest management

Vegh, LeaTsuyuzaki, Shiro

10页

查看更多>>摘要：Evaluating the effects of management on successional trajectories, plant composition, and diversity has been difficult due to the scarcity of long-term studies. This study examined the composition and diversity of species in natural and artificially regenerated forests at two eruption sites of Mount Usu, northern Japan, during 2015-2019, to compare the effects of active and passive management. The two sites are Yosomi, damaged by the 1910 eruptions, and the summit, damaged by the 1977-78 eruptions. Various natural and artificial forests developed at both sites, whose species composition was analyzed by non-metric multidimensional scaling to measure similarity between the forest types, and whose diversity was compared by the true diversity index, showing the effective number of species, from order 0 (presence-absence) to order 2 (weighted species) for two layers: the canopy (woody species with DBH > 3 cm) and understorey (< 2 m high plants). Canopy diversity was measured by stem density in five 10 m x 10 m plots in each forest type, and understory diversity was measured by shoot density in four 1 m x 1 m quadrats in each plot. The canopy and understorey species compositions were distinct between the forest types, but the canopy was more affected by management than the understorey, indicating that early forest management had long-term effects on species composition. Species composition of the plantations resembled those of the natural forests when the plantations had patchy spatial structure. The naturally regenerated forests showed the highest diversities at both eruption sites, while the plantations dis -played low diversities, except in one case, when the plantation showed heterogeneous forest structure. The plantations changed their species composition slowly and did not transform into natural forests. In conclusion, we suggest using a patchy plantation design with some space between patches instead of dense planting, to create resilient, diverse, and native forests after disturbances.

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Impacts to soil properties still evident 27 years after abandonment in Amazonian log landings

DeArmond, DanielFerraz, Joao B. S.Lovera, Lenon H.De Souza, Cacilda A. S....

8页

查看更多>>摘要：Logging machinery impacts site soil properties mainly through topsoil removal and compaction. The greatest soil disturbance occurs in the logging infrastructure areas: skid trails, roads and log landings. Although landings generally occupy less of the site than skid trails and roads, they suffer severe compaction usually accompanied with complete topsoil removal to level the soil surface for log decking and loading. Few long-term studies have quantified if landing soil properties recover, with none in the humid tropical forests of Amazonia. The aim of this study was to determine if soil bulk density, penetration resistance and fine root biomass in 27-year-old aban-doned log landings had returned to a similar state of the adjacent old-growth forest soils. The working hypothesis was that impacts on soil remained despite the regenerated stand of trees present on the landings. Results revealed that the soil physical properties in the log landings were still significantly higher than the controls. Furthermore, fine root biomass was still below the levels presented in the controls. Therefore, in log landings located on very clayey soils in Central Amazonia, soil compaction persists for at least 27 years.

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Tree growth responses to extreme drought after mechanical thinning and prescribed fire in a Sierra Nevada mixed-conifer forest, USA

Zald, Harold S. J.Callahan, Chance C.Hurteau, Matthew D.Goodwin, Marissa J....

13页

查看更多>>摘要：An estimated 128 M trees died during the 2012-2016 California drought, largely in the southern Sierra Nevada Range. Prescribed burning and mechanical thinning are widely used to reduce fuels and restore ecosystem properties, but it is unclear if these treatments improve tree growth and vigor during extreme drought. This study examined tree growth responses after thinning, prescribed burning, and extreme drought at the Teakettle Experimental Forest, a historically frequent fire mixed-conifer forest in the southern Sierra Nevada of California, USA. Mechanical thinning (no thin, understory thin, and overstory thin) and prescribed burning (unburned, fall burning) were implemented in 2000-2001. Using annual growth data from increment cores, over 10,000 mapped and measured trees, and lidar-derived metrics of solar radiation and topographic wetness, we had two primary questions. First, what were the growth responses to thinning and prescribed burning treatments, and did these responses persist during the 2012-2016 drought? Second, what tree-level attributes and environmental conditions influenced growth responses to treatments and drought? Thinning increased residual tree growth and that response persisted through extreme drought 10-15 years after treatments. Growth responses were higher in overstory versus understory thinning, with differences between thinning types more pronounced during drought. Species-specific growth responses were strongest with overstory thinning, with sugar pine (Pinus lambertiana) and incense-cedar (Calocedrus decurrens) having higher growth responses compared to white fir (Abies concolor) and Jeffery pine (Pinus jeffreyi). For individual trees, factors associated with higher growth responses were declining pretreatment growth trend, smaller tree size, and post-treatment low neighborhood basal area. Growth responses were initially not influenced by topography, but topographic wetness became important during extreme drought. Mechanical thinning resulted in durable increases in residual tree growth rates during extreme drought over a decade after thinning occurred, indicating treatment longevity in mitigating drought stress. In contrast, tree growth did not improve after prescribed burning, likely due to fire effects that reduced surface fuels, but had little effect on reducing tree density. Thinning treatments promoted durable growth responses, but focusing on stand-level metrics may ignore important tree-level attributes such as localized competition and topography associated with higher water availability. Mechanical thinning was effective at improving growth in trees that had been experiencing declining growth trends, but was less effective in improving growth responses in large old trees of higher ecological importance.

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Elsevier

Biotic, abiotic, and anthropogenic drivers of demographic performance of non-native Eucalyptus and Pinus species in forested areas of Spain

Lazaro-Lobo, AdrianRuiz-Benito, PalomaLara-Romero, CarlosCastro-Diez, Pilar...

10页

查看更多>>摘要：Non-native trees enhance services that are fundamental for human well-being. Yet, the extensive use of nonnative trees has the potential of causing environmental and socio-economic harm. Eucalyptus and Pinus are the most widely distributed and extensively planted tree genera worldwide, because their rapid growth allows profitable production of timber and pulp. Their naturalization is causing severe effects on the environment, but the relative importance of underlying factors determining their demographic performance is not well known. Thus, our aim was to evaluate the relative importance of biotic, abiotic, and anthropogenic factors driving demographic changes of Eucalyptus and Pinus at the regional scale. We compiled environmental variables and demographic data for Eucalyptus globulus, Eucalyptus camaldulensis, and Pinus radiata across 6388 permanent forestland plots surveyed in the Spanish Forest Inventory (SFI). We used the second (1986-1996), third (1997-2007), and fourth (2008-2017) SFI datasets to quantify annual changes in basal area per plot between consecutive inventories (delta BA; m(2) ha(-1) year(-1)). We also quantified the components of delta BA: tree ingrowth (transitions from juvenile to adult trees), growth, and mortality. We evaluated juvenile recruitment with in-situ regeneration (No. juvenile trees ha-1) within plots already occupied by the focal species in the previous inventory, and with natural colonization of plots where the focal species was absent at the beginning of the time interval. We found that the structure of the biotic community was especially important to explain demographic performance of non-native trees growing in benign environments (E. globulus and P. radiata), whereas abiotic factors were particularly important regulating basal area increments of E. camaldulensis, which occurs in harsher environments. Basal area increments decreased with species and functional richness, heterospecific density, mean annual temperature, and increased with soil capacity to retain nutrients and water. Colonization of new plots increased with propagule availability in the surrounding landscape. Tree cutting was beneficial for P. radiata. Collectively, our results suggest that non-native trees perform better in forests with high propagule pressure, low biotic resistance, favourable abiotic conditions, and human management.

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Elsevier

Wildfire and forest thinning shift floral resources and nesting substrates to impact native bee biodiversity in ponderosa pine forests of the Colorado Front Range

Gelles, Ryleigh V.Davis, Thomas S.Stevens-Rumann, Camille S.

9页

查看更多>>摘要：In fire-adapted ponderosa pine forests of western North America, fire suppression policies during much of the 19th century gradually resulted in high stem densities undesirable for fire risk management. To restore desirable forest structures, regional ecosystem management efforts often focus on reducing stand densities and reintroducing fire disturbances. However, it remains unclear whether these practices benefit insect species important for ecosystem function, including native bees. Bee community assemblages were sampled across the growing season in 39 ponderosa pine stands for two years in central Colorado to model effects of fire and thinning disturbances on bee populations. Four key findings emerged: (1) overall native bee diversity consisted of 5 families (Andrenidae, Apidae, Colletidae, Halictidae, and Megachilidae), 30 genera, and at least 70 unique bee species. Predominant genera were bumblebees (Bombus spp.), mason bees (Osmia spp.), and digger bees (Anthophora spp.), accounting for 50%, 9%, and 5 % of all captures, respectively. (2) Average bee abundance did not vary among burned, thinned, or non-treated control stands, though bee species richness and diversity were highest in stands affected by high severity wildfire. (3) Bee community composition differed among disturbance types, and there was turnover in the ratios of Bombus: Osmia species between control and burned stands. (4) Representation of bee nesting strategies at sample sites also differed due to fire and thinning disturbances, but these effects were moderated by seasonality. We link variation in forest structure to bee assemblages using linear models and show that presence of coarse woody debris has positive effects on overall forest bee abundance, richness, and diversity. Ponderosa pine forests in central Colorado provide habitat for a diverse assemblage of native bee species, and thinning operations are not associated with reductions in bee diversity, and fire disturbances were associated with enhanced bee foraging and nesting habitats. Bee community composition and associated life histories vary across disturbance types and unique bee assemblages are associated with different disturbance histories. Accordingly, maintaining a mosaic of thinning treatments and promoting wildland fire use that results in a gradient of burn severities may increase floral resources and nesting opportunities and can help to maximize overall bee biodiversity at a landscape scale.

原文链接:

NSTL
Elsevier