Project description:Microbes play key roles in diverse biogeochemical processes including nutrient cycling. However, responses of soil microbial community at the functional gene level to long-term fertilization, especially integrated fertilization (chemical combined with organic fertilization) remain unclear. Here we used microarray-based GeoChip techniques to explore the shifts of soil microbial functional community in a nutrient-poor paddy soil with long-term (21 years).The long-term fertilization experiment site (set up in 1990) was located in Taoyuan agro-ecosystem research station (28°55’N, 111°27’E), Chinese Academy of Sciences, Hunan Province, China, with a double-cropped rice system. fertilization at various regimes.

Project description:diazotrophic community diversity under long-term chemical fertilization in Mollisols of Northeast China

Project description:Jiangsu long-term fertilized paddy soil Metagenome

Project description:Study of bacterial community in paddy soil under long-term fertilization

Project description:Study of fungal community in paddy soil under long-term fertilization

Project description:Study of archaeal community in paddy soil under long-term fertilization

Project description:Macronutrients are pivotal elements for proper plant growth and development. We performed microarray analysis of rice leaves under nitrogen (N), phosphorus (P), and potassium (K) deficiency conditions in paddy field to obtain a global view of gene regulations associated with plant response to essential nutrients.

Project description:Effect of long term silicate fertilization on bacterial community structure in paddy fields

Project description:Effects of long-term mineral fertilization on soil microbial functional community

Project description:Effects of long-term mineral fertilization on soil microbial functional community