Plant roots increase both decomposition and stable organic matter formation in boreal forest soil

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作者
Bartosz Adamczyk
Outi-Maaria Sietiö
Petra Straková
Judith Prommer
Birgit Wild
Marleena Hagner
Mari Pihlatie
Hannu Fritze
Andreas Richter
Jussi Heinonsalo
机构
[1] University of Helsinki,Department of Agricultural Sciences
[2] University of Helsinki,Institute for Atmospheric and Earth System Research (INAR)
[3] University of Helsinki,Department of Microbiology
[4] Natural Resources Institute Finland,Department of Forest Sciences
[5] University of Helsinki,Department of Microbiology and Ecosystem Science
[6] University of Vienna,Department of Earth Sciences
[7] University of Gothenburg,Department of Environmental Science and Analytical Chemistry
[8] Stockholm University,Bolin Centre for Climate Research
[9] Stockholm University,Viikki Plant Science Centre (ViPS)
[10] Natural Resources Institute Finland,Finnish Meteorological Institute
[11] University of Helsinki,undefined
[12] Climate System Research,undefined
来源
Nature Communications | / 10卷
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摘要
Boreal forests are ecosystems with low nitrogen (N) availability that store globally significant amounts of carbon (C), mainly in plant biomass and soil organic matter (SOM). Although crucial for future climate change predictions, the mechanisms controlling boreal C and N pools are not well understood. Here, using a three-year field experiment, we compare SOM decomposition and stabilization in the presence of roots, with exclusion of roots but presence of fungal hyphae and with exclusion of both roots and fungal hyphae. Roots accelerate SOM decomposition compared to the root exclusion treatments, but also promote a different soil N economy with higher concentrations of organic soil N compared to inorganic soil N accompanied with the build-up of stable SOM-N. In contrast, root exclusion leads to an inorganic soil N economy (i.e., high level of inorganic N) with reduced stable SOM-N build-up. Based on our findings, we provide a framework on how plant roots affect SOM decomposition and stabilization.
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