GSTDTAP  > 气候变化
DOI10.1016/j.foreco.2018.08.036
Retention trees slow post-harvest fine-root decomposition in a coastal temperate rainforest
Philpott, Timothy J.1; Barker, Jason S.2; Prescott, Cindy E.1; Grayston, Sue J.1
2018-12-15
发表期刊FOREST ECOLOGY AND MANAGEMENT
ISSN0378-1127
EISSN1872-7042
出版年2018
卷号430页码:431-444
文章类型Article
语种英语
国家Canada; USA
英文摘要

Fine roots are a dominant, but often overlooked source of carbon (C) in forest soils, and decomposition of this material may have important consequences for C storage and turnover in forest ecosystems. Forest harvesting modifies soil physicochemical properties and microbial communities, which may lead to faster decomposition rates, but the effect of harvesting on fine-root decomposition is rarely investigated. Variable-retention harvesting, where some trees are left on site after harvest, often results in lower soil moisture and temperature, and increased ectomycorrhizal diversity relative to clearcut harvesting. As such, this harvesting practice may influence fine-root decomposition rates. In Douglas-fir forests in coastal British Columbia, we measured fine-root (< 2 mm diameter) decomposition rates in variable-retention (aggregate and dispersed arrangements), clearcut, and uncut treatments, and determined if any effects persisted as stands aged. Within the variable-retention treatments, we also examined if fine-root decomposition rates varied with distance from retention trees or retention patches. Further, we determined which soil physicochemical variables best explained variation in fine-root carbon loss after two years of decomposition. Increased tree coverage slowed fine root decomposition; fine roots decomposed as slowly under variable-retention treatments as in uncut stands, and 15-19% more carbon was retained in these treatments relative to the clearcut treatment. Fine roots also decomposed faster with increasing distance from retention patches or retention trees as decomposition was twofold slower in the aggregate centre relative to open areas, with similar patterns observed in the dispersed retention treatment. However, fine roots decomposed at similar rates in forests and stands with more advanced regeneration, suggesting the effects of harvesting on decomposition rates was not persistent. Across all sampling locations, 37% of the variation in fine-root carbon loss was explained by fine-root biomass, and nitrate, potassium and sulphate availability. Nitrate availability was also positively correlated with the proportional mass of carbon lost during the decomposition experiment, suggesting that fine-root decomposition is sensitive to harvesting-induced changes in soil physicochemistry, and that variable-retention harvesting moderates the effects of harvesting on decomposition rates. These findings indicate that shortly after harvest, retention of even single trees can prevent the increase in fine-root decomposition rates associated with clearcut harvesting in these coastal Douglas-fir forests. Accordingly, management practices such as variable-retention harvesting that retain some trees in a cutblock may reduce soil C losses following forest harvesting.


领域气候变化
收录类别SCI-E
WOS记录号WOS:000449137300042
WOS关键词DOUGLAS-FIR FORESTS ; ALTERNATIVE SILVICULTURAL SYSTEMS ; LITTER DECOMPOSITION ; CLEAR-CUT ; SOIL-NITROGEN ; VARIABLE-RETENTION ; WESTERN WASHINGTON ; BRITISH-COLUMBIA ; LEAF-LITTER ; ECTOMYCORRHIZAL FUNGI
WOS类目Forestry
WOS研究方向Forestry
引用统计
文献类型期刊论文
条目标识符http://119.78.100.173/C666/handle/2XK7JSWQ/23449
专题气候变化
作者单位1.Univ British Columbia, Fac Forestry, Vancouver, BC, Canada;
2.US Forest Serv, Forest Inventory & Anal, Washington, DC 20250 USA
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GB/T 7714
Philpott, Timothy J.,Barker, Jason S.,Prescott, Cindy E.,et al. Retention trees slow post-harvest fine-root decomposition in a coastal temperate rainforest[J]. FOREST ECOLOGY AND MANAGEMENT,2018,430:431-444.
APA Philpott, Timothy J.,Barker, Jason S.,Prescott, Cindy E.,&Grayston, Sue J..(2018).Retention trees slow post-harvest fine-root decomposition in a coastal temperate rainforest.FOREST ECOLOGY AND MANAGEMENT,430,431-444.
MLA Philpott, Timothy J.,et al."Retention trees slow post-harvest fine-root decomposition in a coastal temperate rainforest".FOREST ECOLOGY AND MANAGEMENT 430(2018):431-444.
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