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The responses of soil-atmosphere carbon (C) exchange fluxes to growing atmospheric nitrogen (N) deposition are controversial, leading to large uncertainty in the estimated C sink of global forest ecosystems experiencing substantial N inputs. However, it is challenging to quantify critical load of N input for the alteration of the soil C fluxes, and what factors controlled the changes in soil CO2 and...
Ammonia-oxidizers play an essential role in nitrogen (N) transformation and nitrous oxide (N2O) emission in forest soils. It remains unclear if ammonia-oxidizers affect interaction between methane (CH4) uptake and N2O emission. Our specific goal was to test the impacts of changes in ammonia-oxidizing communities elicited by N enrichment on soil CH4 uptake and N2O emission. Based on a field experiment,...
It is crucial to understand the effects of enhanced nitrogen (N) deposition on soil methane (CH 4 ) uptake to develop a better comprehension of carbon (C) dynamics in terrestrial ecosystems. A two-year field study was conducted to assess the effects of various forms of N (NH 4+ and NO 3− ) and associated N deposition rates (0, 10, 20 and 40kgNha −1 yr ...
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