Rapid soil organic matter loss from forest dieback in a subalpine coniferous ecosystem |
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| Authors: | Yanmei Xiong Justin J D’Atri Shenglei Fu Hanping Xia Timothy R Seastedt |
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| Institution: | aInstitute of Arctic and Alpine Research and Department of Ecology and Evolutionary Biology, University of Colorado, Boulder, CO 80309-0334, USA;bSouth China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, China |
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| Abstract: | Forest dieback caused by climate-change associated stresses and insect outbreaks has emerged as a global concern, and the biogeochemical consequences of this phenomenon need to be elucidated. We measured biological and chemical traits of soil beneath live trees or trees recently killed by a mountain-pine-beetle outbreak in a subalpine coniferous forest in the Front Range of Colorado. We focused on the top 5 cm of mineral soil just beneath the O horizon and measured microbial biomass, soil invertebrate abundance and composition, and soil chemical characteristics. With the termination of inputs from rhizodeposition, mycorrhizal fungal turnover and fine root turnover, soil total carbon (C) and total nitrogen (N) in the mineral soil at three sites decreased by 38–49% and 26–45%, respectively. Tree mortality was associated with reduced soil microbial biomass but soil nematode and microarthropod densities were unchanged. Nematode trophic structure was altered with an increased proportion of bacterial feeders. Soil inorganic N concentrations were inversely correlated to microbial C:N ratios. Tree death was associated with increased soil pH, a possible loss of calcium (Ca2+), but an accumulation of soil inorganic N, largely as NH4+. Our results suggest that forest dieback results in rapid C and N loss from surface mineral soils and that the accumulation of soil inorganic N, the reduction in microbial biomass, and the more bacterial-based soil food web increase the potential of enhanced N loss from affected ecosystems. |
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| Keywords: | Tree mortality Soil food web Biogeochemistry Rhizosphere effect Mountain pine beetle (MPB) Soil invertebrates |
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