Project description:Agricultural soil microbial communities from Georgia to study Nitrogen management - GA AS100 metagenome

Project description:Agricultural soil microbial communities from Georgia to study Nitrogen management - GA AS200 metagenome

Project description:Agricultural soil microbial communities from Georgia to study Nitrogen management - GA Plitter metagenome

Project description:Agricultural soil microbial communities from Georgia to study Nitrogen management - Poultry litter 2012 metagenome

Project description:Agricultural soil microbial communities from Georgia to study Nitrogen management - Poultry litter 2014 metagenome

Project description:Agricultural soil microbial communities from Utah to study Nitrogen management - NC Control metagenome

Project description:The experiment at three long-term agricultural experimental stations (namely the N, M and S sites) across northeast to southeast China was setup and operated by the Institute of Soil Science, Chinese Academy of Sciences. This experiment belongs to an integrated project (The Soil Reciprocal Transplant Experiment, SRTE) which serves as a platform for a number of studies evaluating climate and cropping effects on soil microbial diversity and its agro-ecosystem functioning. Soil transplant serves as a proxy to simulate climate change in realistic climate regimes. Here, we assessed the effects of soil type, soil transplant and landuse changes on soil microbial communities, which are key drivers in Earth’s biogeochemical cycles.

Project description:To study long-term elevated CO2 and enriched N deposition interactive effects on microbial community and soil ecoprocess, here we investigated soil microbial community in a grassland ecosystem subjected to ambient CO2 (aCO2, 368 ppm), elevated CO2 (eCO2, 560 ppm), ambient nitrogen deposition (aN) or elevated nitrogen deposition (eN) treatments for a decade. There exist antagonistic CO2×N interactions on microbial functional genes associated with C, N, P S cycling processes. More strong antagonistic CO2×N interactions are observed on C degradation genes than other genes. Remarkably antagonistic CO2×N interactions on soil microbial communities could enhance soil C accumulation.

Project description:Agricultural soil microbial communities from Utah to study Nitrogen management - NC AS100 metagenome

Project description:Agricultural soil microbial communities from Utah to study Nitrogen management - NC AS200 metagenome