期刊,Forest Ecology and Management 2022年511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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Response of terrestrial salamanders to the decade following timber harvest in hardwood forests

Ochs, Alison E. E.Saunders, Mike R. R.Swihart, Robert K. K.

9页

查看更多>>摘要：Timber harvesting can have strong effects on terrestrial salamanders, which are critical components of forest ecosystems and indicators of environmental change. Effects of harvest methods such as clearcutting have been studied in the short term, but few studies have examined salamander trends throughout the decade following timber harvest. The effects of other harvest methods, such as patch cuts and shelterwoods, also remain unclear. We examined the effects of clearcuts, patch cuts, and shelterwood harvests on salamander relative abundance one year before and up to eleven years after harvest in clearcuts, shelterwoods, and patch cuts at the Hardwood Ecosystem Experiment (HEE). A total of 41,858 salamanders representing ten species were captured under artificial coverboards over this period with eastern red-back (Plethodon cinereus) and zigzag (Plethodon dorsalis) salamanders dominating. No significant declines occurred in the first three years following harvest, but salamander captures declined in the 4-6 and 7-11 year periods in clearcuts and patch cuts, and no signs of postharvest recovery were found. Rapid vegetation recovery and high volumes of coarse woody debris (CWD) following harvest likely protected the microclimate used by salamanders; when CWD levels dropped 4-6 years after harvest, a corresponding decline in salamander captures occurred. These years also corresponded to a regional drought that likely increased temperature and decreased moisture in harvest openings, further impacting terrestrial salamanders. Neither the first nor second shelterwood harvests produced declines in salamanders, suggesting that canopy retention could prevent declines due to changing microclimate or drought. Our results highlight the need to consider compound effects of disturbances such as drought and canopy loss and the importance of long-term salamander monitoring following timber harvest to capture lagged effects and eventual recovery.

原文链接:

NSTL
Elsevier

Remnant trees location and abundance play different roles in forest landscape recovery

Liang, YuHe, Hong S.Liu, BoMa, Tianxiao...

10页

查看更多>>摘要：Remnant trees have great ecological importance in post-disturbance forest landscape recovery which is strongly affected by their spatial configuration. Location and abundance, the two key attributes of spatial configuration, often act jointly, but their relative roles have rarely been investigated. Here, we spatially reconstructed a 300 year time series (1710-2010) of the post-volcanic-eruption forest landscape in Changbai Mountain. We designed a factorial experiment for location (expected vs random) and abundance (expected vs 50-100 % increase) of remnant trees to quantify their relative effects on forest recovery at landscape level and by species. Results showed that random location and increased abundance had significantly higher total basal area than that with the expected location and expected abundance in most simulation periods (P < 0.01). Location of remnant trees had greater effects on total basal area (more than twofold) and landscape pattern (measured by aggregation index) than abundance. Meanwhile, abundance of remnant trees displayed larger effects (similar to or > 50 %) on the importance of coniferous species and large-seeded hardwood species. Abundance also played a greater role on the coverage area of the late-successional species. Our study could provide important management implications that planting individual patches in a dispersed pattern and increasing the abundance of late-successional species can best facilitate the recovery in a disturbed forest landscape.

原文链接:

NSTL
Elsevier

Drought reduces the growth and health of tropical rainforest understory plants

Tng, David Y. P.Apgaua, Deborah M. G.Paz, Claudia P.Dempsey, Raymond W....

11页

查看更多>>摘要：Tree saplings and shrubs are frequently overlooked components of tropical rainforest biodiversity, and it may be hypothesized that their small stature and shallow root systems predisposes them to be vulnerable to drought. However, these purported influences of drought on growth, physiological performance and plant traits on tree saplings and shrubs have yet to be studied in simulated drought conditions in the field. We simulated drought using a rainfall exclusion experiment in 0.4 ha of lowland tropical rainforest in northeast Australia in 2015. After six months, we compared the average change in aboveground biomass and plant health of drought-affected tree saplings and understory shrubs with control individuals. We also assessed photosynthetic function, plant health and leaf traits in eight target species. Both tree saplings and shrubs had significantly lower aboveground biomass in the drought treatment compared to the control. Drought-affected individuals of target species exhibited a significantly higher incidence of disease and insect attack, and reduced photosynthesis, leaf fresh mass and leaf toughness compared to control individuals. We conclude that reduced growth and photosynthetic capability, an increased susceptibility to insect attack, and leaf trait changes constitute a near immediate drought response in tropical rainforest tree saplings and shrubs. Our results show that these often-overlooked lifeforms are likely to be the most rapidly and negatively impacted component of tropical rainforest biodiversity under drought conditions.

原文链接:

NSTL
Elsevier

Pinus sylvestris var. mongolica mediates interspecific belowground chemical interactions through root exudates

Bi, BoyuanTong, QianWan, ChuanyuWang, Kun...

10页

查看更多>>摘要：Managed plantations are normally characterized by monocultures, which lead to ecological problems such as reduced plant productivity and declining ecological services. Considering the potential degradation of Pinus sylvestris var mongolica (P. sylvestris) plantations in the Mu Us sandy land, there is still a knowledge gap regarding the selection of suitable sand-adapted species for mixed planting with P. sylvestris to enhance plantation productivity. To this end, we constructed a mixed planting system of two species, including P. sylvestris and six other adaptive species, in the Mu Us sandy land. Through the identification of potential allelochemicals in the root exudates of P. sylvestris and a series of greenhouse experiments, we clarified the effects of the root systems and exudates of P. sylvestris on the performance of adaptive species. The results showed that a total of 1062 root exudates of P. sylvestris were detected, including abundant potential allelochemicals such as fatty acids, phenolic acids, terpenes, flavonoids, and coumarins. Rhizobox experiments showed that the above-and belowground biomasses of Amorpha fruticosa Linn (A. fruticosa) and P. sylvestris were significantly and positively influenced by the presence of each other. Through different levels of belowground segregation, only A. fruticosa was positively affected by root contact with P. sylvestris, while the other plants were not affected or inhibited. In addition, relatively low concentrations of root exudates of P. sylvestris promoted A. fruticosa performance. Overall, A. fruticosa was positively affected by the root system of P. sylvestris and its exudates, and it promoted the growth of P. sylvestris; therefore, it is suitable for mixed-species planting to increase the productivity of monoculture P. sylvestris plantations. Our research provides a potential solution to the problem of the declining productivity of sandy plantations caused by monocultures.

原文链接:

NSTL
Elsevier

Reducing soil CO2, CH4 and N2O emissions through management of harvest residues in Chinese fir plantation

Wang, XuGao, ShenghuaChen, JiquanYao, Zengwang...

14页

查看更多>>摘要：Manipulating harvesting residues during harvesting has been promoted as a plausible option to improve national energy security and to reduce GHG emissions. A logical uncertainty regarding removing residues from harvested sites is whether and how GHG emissions will change as a result. In this study, static chamber-meteorological chromatography was used to quantify the impacts of four residue manipulations on CO2, CH4 and N2O flux and their changes over time, as well as to explore forcing mechanisms on all three GHG species in a Chinese fir plantation. Compared with reference (RF, i.e., retained residues), annual soil CO2 emissions in residue burning (RB) increased by 3% in the first year and decreased by 21% in the second year; annual soil CH4 absorption in RB increased in both the first and the second year; and the annual soil N2O emission in RB increased by 71% in the first year but was lower than that of RF in the second year. Compared with RF, annual CO2 emission in residue harvest (NR) increased slightly (2%) in the first year but decreased by 8% in the second year; annual CH4 absorption in NR in the first year was slightly increased, but it was less than half of RF in the second year; and annual N2O emission in NR increased by one times. Compared with RF, mulching after crushing treatment (MT) increased soil annual CO2 and N2O emissions but had little effect on soil annual CH4 absorption. The peak of soil CO2 emission occurred in MT in summer, which was mainly affected by soil temperature, but the temperature sensitivity of soil CO2 flux was affected by soil moisture; the peak value of soil CH4 absorption appeared in MT in autumn, and the main influencing factor was soil moisture; and the peak value of soil N2O emission occurred in NR in spring, which was mainly the result of the combined effect of soil temperature and moisture. The annual cumulative global warming potentials (GWP) ranged from 2.9 to 3.4 Mg C-CO2 ha(-1) yr(-1); compared with RF, MT increased by 17%, and RB and NR decreased by 7% and 1%, respectively. These results highlight the significant impact of harvest residue management on soil GHG fluxes and provide a data basis for accurate estimation of soil carbon and nitrogen fluxes in plantations.

原文链接:

NSTL
Elsevier

Canopy gap characteristics and regeneration patterns in the Bialowieza forest based on remote sensing data and field measurements

Dobrowolska, D.Piasecka, Z.Kuberski, L.Sterenczak, K....

17页

查看更多>>摘要：Forest dynamics is driven by the formation of gaps, especially in temperate forests. A potentially useful tool for identifying canopy gaps at different spatial scales is remote sensing. Our study used two types of data: (1) high spatial resolution Canopy Height Model (CHM) to detect canopy gaps in the forest and (2) field data to quantify natural and artificial regeneration within the gaps. The study aimed to: (i) measure the characteristics of canopy gaps; (ii) identify the regeneration patterns within gaps; (iii) identify the factors influencing tree species regeneration within gaps. We analysed 313 tree canopy gaps in the Polish part of Bialowieza Forest (ca. 620 km(2)), east Poland. Variability in the mean gap area was very high, ranging from 20.2 to 8693.8 m(2). The number of gaps with an area > 1000 m(2) was the largest. The total area of gaps was highest in coniferous stands, where the biggest median area was also found. Gap size did not affect regeneration density in the Bialowieza Forest, except for birch and hornbeam. The density of less light-demanding tree species in the gaps was greater than light demanding ones. Birch regenerated in all gap sizes, and its density increased with gap area. Oak seedlings dominated in small gaps but conditions in the 'matrix of small gaps' was sufficient for short oak saplings. Hornbeam regeneration was highest in the gaps surveyed, especially the density of short saplings. Seedlings of hornbeam were present in 32% of gaps, but saplings were present in as many as 56% of gaps. Spruce regeneration was less numerous than hornbeam regeneration. Birch regeneration was the most numerous in short sapling stage. We analyzed 31 variables from different categories to identify the factors influencing tree species regeneration within gaps. The most essential variables for the birch and hornbeam regeneration were those containing supporting information, especially the percentage of the specific tree species covering the land around the gap. The variables based on gap geometry (size, shape, direction, elongation) were less important than variables from other categories. We found the positive influence of browsing on the density of hornbeam saplings. However, the high density of ungulates and their browsing pressure hinder birch regeneration. Intensive browsing by ungulates seems to be the most important factor in changing species composition and forest regeneration structure in gaps.

原文链接:

NSTL
Elsevier

Ancient trees and modern wildfires: Declining resilience to wildfire in the highly fire-adapted giant sequoia

Hardlund, Linnea J.Morris, SoniaMeyer, Marc D.Hood, Sharon M....

13页

查看更多>>摘要：Ancient giant sequoias Sequoiadendron giganteum (Lindl.) J. Buchholz are highly valued trees with limited distribution. They are the most massive trees on earth, and they have exceptional longevity (>3,000 years). Given their extraordinary resilience to wildfire, insects, and disease, most managers hoped giant sequoias would be resistant to anthropogenic change. However, the warming climate and fire exclusion-caused fuel build-up has dramatically increased the amount of high-intensity wildfire in giant sequoia groves since 2015. To better understand recent wildfire effects on large, legacy giant sequoia trees, we surveyed high-and moderate-severity fire areas in groves that burned in three wildfires between 2015 and 2017. Within areas classified as high severity via remote sensing,-84% of the 162 large sequoias (>1.2 m diameter at breast height) were killed; in moderate severity,-28% of the 239 large sequoias were killed. These rates varied between fires but overall were at the lower end of the mortality range that has been documented in Sierra Nevada mixed-conifer forests. Across all three fire areas, we found large sequoia mortality was linked with presence of significant prior fire damage to the lower tree bole (i.e., fire scars or "catfaces"), lower crown ratios, and lower elevations. At Black Mountain Grove, we tracked trees through time and found total crown damage and the presence of fire scars were the best predictors of mortality by year three, where large sequoias sustained up to 85% crown damage before succumbing to injury. There, 52 of 204 trees were dead one-year postfire, with 71 dead by year three. Overall, these fires caused significant and concerning mortality levels of these ancient trees, and yet the impact on sequoia groves between 2015 and 2017 was dwarfed in comparison to the more recent 2020 Castle Fire, 2021 Windy Fire and 2021 KNP Complex Fire. With the push to increase forest and fuel treatments to reduce catastrophic fire risk across the Western U.S., more immediate triage to protect irreplaceable resources is needed as fire activity rapidly increases. Our study suggests that prioritizing management action that creates fire resilience in unburned groves, and maintains the fuel reduction benefits accrued by past treatments and lower severity wildfires, will be critical to avoid continued losses of these exceptional, irreplaceable old growth forests.

原文链接:

NSTL
Elsevier

Discrepancy in growth resilience to drought among different stand-aged forests declines going from a semi-humid region to an arid region

Wang, BoChen, TuoLi, CaijuanXu, Guobao...

8页

查看更多>>摘要：The growth resilience of forests to extreme drought event has become an urgent topic in global change ecology because of exacerbated water constraints upon trees' growth over the last few decades. Yet, surprisingly little is empirically known about the contribution of stand age, a key factor influencing forest structure and ecological processes, to variation in growth resilience among stands. This study revealed discrepancies in the drought resilience of forests of different stand ages by analyzing an extensive tree-ring dataset from Qinghai spruce (Picea crassifolia Kom.), a typical moisture-sensitive tree species in northwestern China. We found that older growth Qinghai spruce forest stands have higher resistance to droughts than do younger growth ones. Conversely, however, the post-drought recoveries of these older growth forest stands are lower than those of the younger growth stands. Patterns in the variation of resilience indices were consistent between two contrasting hydrological niche regions, whereas the stand age-related discrepancies in drought resilience became significantly smaller going from the wetter region to the drier region. These findings imply that, instead of a "one-size-fits-all" strategy, more meticulous and more targeted strategies are needed to enhance forest management and strengthen forest conservation given the experienced and projected climate trends, which feature increasing precipitation but higher extreme-drought frequency across this spruce tree's habitat and distribution in northwestern China.

原文链接:

NSTL
Elsevier

Thinning-response modifier term in growth models: An application on clonal Tectona grandis Linn F. stands at the amazonian region

de Souza, Hallefy JunioMiguel, Eder PereiraNascimento, Rodrigo Geroni MendesCabacinha, Christian Dias...

12页

查看更多>>摘要：Thinning is a widely used silvicultural method in the Tectona grandis Linn. F. (teak) stands, however, limited work has been done on modeling for predicting both short-and long-term responses to this treatment. Dynamic growth models for teak stands in Easter Amazon were developed and evaluated from data of 67 plots measured between two and ten years old. We tested the models of Chapman-Richards, Hossfeld, and Lundqvist-Korf using the generalized algebraic difference approach (GADA) to describe the basal area of the stand, including the effect of thinning, which was quantified from a silvicultural treatment response function. Dominant height was described using a dynamic equation derived onwards by Lundqvist-Korf model, considering one parameter to be site specific, while the stand volume was described as of Chapman-Richards model using the theory of covariates. We used 80% of the data for fitting and 20% for validating the developed models. The following fitting statistics were used: Akaike's information criterion, square root of the mean percent error and estimation efficiency. For the validation, was used the equivalence test (regression based TOST using bootstrap). The equation derived from the Chapman-Richards function from GADA integrated with a thinning modifier provided the best performance in describing stand dynamics. The developed thinning modifier were shown to significantly improve predictions of stand-level basal area growth, and the results showed that models that disregard silvicultural treatment cannot be used to obtain reliable projections of the stands under analysis. The growth models provided detailed and accurate description of the dynamics of teak stands in the Amazon region, allowing for a welldefined maximum volume rotation. Overall, the study highlights the importance of including thinning modifiers in growth and yield models, especially for shade intolerant species, such as teak.

原文链接:

NSTL
Elsevier

Effects of systemic insecticides against emerald ash borer on ash seed resources

Mwangola, Dorah M. M.Kees, Aubree M. M.Grosman, Donald M. M.Aukema, Brian H. H....

6页

查看更多>>摘要：Emerald ash borer (EAB), Agrilus planipennsis, is an invasive insect that was accidentally introduced to North America from Asia. It continues to spread rapidly across North America and is responsible for the death of tens of millions of ash trees (Fraxinus spp.). All North American species of ash are susceptible to EAB infestation threatening the ash resource and diversity. Measures such as systemic insecticide treatments in urban forests and collection of ash seeds provide a means of conserving genetic resources. Understanding the effect these insecticides could have on ash seed viability is therefore important to informing conservation efforts. Another potential concern for effective conservation of ash seeds is the ash seed weevil (Lignyodes spp.) whose larvae develop in and feed on ash seeds. However, the effect of EAB insecticides on weevil infestation levels in ash seeds has not been investigated to date. Our study investigated the effect of two systemic insecticide treatments, azadirachtin and emamectin benzoate, on levels of ash seed weevil infestation, seed germination ability, and seed germination time of seeds collected from boulevard trees of green ash (F. pennsylvanica Marsh.) in cities in Minnesota from 2017 to 2019. Weevil infestation levels were similar between untreated and treated trees in 2017 and 2018. In 2019, the weevil prevalence in untreated trees was on average 17% and 30% higher than in azadirachtin and emamectin benzoate-treated trees respectively. Weevil infestation data suggests that repeated insecticide treatments at labelled rates can reduce seed weevils that target germplasm. Additionally, insecticide treatments did not affect ash seed germination rates between treatments. These results suggest that systemic insecticides may be effective at conserving the seed resource in addition to known benefits such as canopy preservation.

原文链接:

NSTL
Elsevier