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W2153613245 abstract "Abstract Integration of the priming effect ( PE ) in ecosystem models is crucial to better predict the consequences of global change on ecosystem carbon (C) dynamics and its feedbacks on climate. Over the last decade, many attempts have been made to model PE in soil. However, PE has not yet been incorporated into any ecosystem models. Here, we build plant/soil models to explore how PE and microbial diversity influence soil/plant interactions and ecosystem C and nitrogen (N) dynamics in response to global change (elevated CO 2 and atmospheric N depositions). Our results show that plant persistence, soil organic matter ( SOM ) accumulation, and low N leaching in undisturbed ecosystems relies on a fine adjustment of microbial N mineralization to plant N uptake. This adjustment can be modeled in the SYMPHONY model by considering the destruction of SOM through PE , and the interactions between two microbial functional groups: SOM decomposers and SOM builders. After estimation of parameters, SYMPHONY provided realistic predictions on forage production, soil C storage and N leaching for a permanent grassland. Consistent with recent observations, SYMPHONY predicted a CO 2 ‐induced modification of soil microbial communities leading to an intensification of SOM mineralization and a decrease in the soil C stock. SYMPHONY also indicated that atmospheric N deposition may promote SOM accumulation via changes in the structure and metabolic activities of microbial communities. Collectively, these results suggest that the PE and functional role of microbial diversity may be incorporated in ecosystem models with a few additional parameters, improving accuracy of predictions." @default.
W2153613245 created "2016-06-24" @default.
W2153613245 creator A5022819609 @default.
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W2153613245 creator A5089806349 @default.
W2153613245 date "2014-02-07" @default.
W2153613245 modified "2023-10-07" @default.
W2153613245 title "Priming effect and microbial diversity in ecosystem functioning and response to global change: a modeling approach using the SYMPHONY model" @default.
W2153613245 cites W1668895673 @default.
W2153613245 cites W1669888413 @default.
W2153613245 cites W188640344 @default.
W2153613245 cites W1965122835 @default.
W2153613245 cites W1966466516 @default.
W2153613245 cites W1976292067 @default.
W2153613245 cites W1981942195 @default.
W2153613245 cites W1981977817 @default.
W2153613245 cites W1982656467 @default.
W2153613245 cites W1982727356 @default.
W2153613245 cites W1984412649 @default.
W2153613245 cites W1992953206 @default.
W2153613245 cites W1998650449 @default.
W2153613245 cites W2004631178 @default.
W2153613245 cites W2011985691 @default.
W2153613245 cites W2014288121 @default.
W2153613245 cites W2017390318 @default.
W2153613245 cites W2020776517 @default.
W2153613245 cites W2027729276 @default.
W2153613245 cites W2030717878 @default.
W2153613245 cites W2038137051 @default.
W2153613245 cites W2038288589 @default.
W2153613245 cites W2039663712 @default.
W2153613245 cites W2044657038 @default.
W2153613245 cites W2045222376 @default.
W2153613245 cites W2047757331 @default.
W2153613245 cites W2052596485 @default.
W2153613245 cites W2056085582 @default.
W2153613245 cites W2059017190 @default.
W2153613245 cites W2059280557 @default.
W2153613245 cites W2062687155 @default.
W2153613245 cites W2064665131 @default.
W2153613245 cites W2067738188 @default.
W2153613245 cites W2073221080 @default.
W2153613245 cites W2075702351 @default.
W2153613245 cites W2081215008 @default.
W2153613245 cites W2085066895 @default.
W2153613245 cites W2085704639 @default.
W2153613245 cites W2086001328 @default.
W2153613245 cites W2087524365 @default.
W2153613245 cites W2089723927 @default.
W2153613245 cites W2090644172 @default.
W2153613245 cites W2096644129 @default.
W2153613245 cites W2100362601 @default.
W2153613245 cites W2104518648 @default.
W2153613245 cites W2105961364 @default.
W2153613245 cites W2108520349 @default.
W2153613245 cites W2111171083 @default.
W2153613245 cites W2114841478 @default.
W2153613245 cites W2115030237 @default.
W2153613245 cites W2116307022 @default.
W2153613245 cites W2118191868 @default.
W2153613245 cites W2119688249 @default.
W2153613245 cites W2120759419 @default.
W2153613245 cites W2122086061 @default.
W2153613245 cites W2122419936 @default.
W2153613245 cites W2123855284 @default.
W2153613245 cites W2128133822 @default.
W2153613245 cites W2128794515 @default.
W2153613245 cites W2137166238 @default.
W2153613245 cites W2138540827 @default.
W2153613245 cites W2140471482 @default.
W2153613245 cites W2143420846 @default.
W2153613245 cites W2144669964 @default.
W2153613245 cites W2145174872 @default.
W2153613245 cites W2147199223 @default.
W2153613245 cites W2149706348 @default.
W2153613245 cites W2157128561 @default.
W2153613245 cites W2159292481 @default.
W2153613245 cites W2162888351 @default.
W2153613245 cites W2163704165 @default.
W2153613245 cites W2166571569 @default.
W2153613245 cites W2168302772 @default.
W2153613245 cites W2168744872 @default.
W2153613245 cites W2896598767 @default.
W2153613245 cites W4240951685 @default.
W2153613245 cites W98521647 @default.
W2153613245 doi "https://doi.org/10.1111/gcb.12493" @default.
W2153613245 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24339186" @default.
W2153613245 hasPublicationYear "2014" @default.
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