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Microbial coexistence in the rhizosphere and the promotion of plant stress resistance: a review
J Ge, D Li, J Ding, X ** increases soil macroaggregate carbon through root traits induced microbial necromass accumulation
X Zhao, C Hao, R Zhang, N Jiao, J Tian… - Soil Biology and …, 2023 - Elsevier
Microbial necromass, as part of persistent soil organic matter, plays a significant role in
maintaining soil fertility and sustainability of agroecosystems. Intercrop**, planting …
maintaining soil fertility and sustainability of agroecosystems. Intercrop**, planting …
Maize root exudate composition alters rhizosphere bacterial community to control hotspots of hydrolase activity in response to nitrogen supply
Improving nitrogen (N) acquisition by crops from soil is essential to reduce fertilization rates
whilst maintaining yields. Plants can adapt their nutrient acquisition strategies according to …
whilst maintaining yields. Plants can adapt their nutrient acquisition strategies according to …
Soil pH Determines Nitrogen Effects on Methane Emissions From Rice Paddies
J Tang, H Qian, X Zhu, Z Liu, Y Kuzyakov… - Global Change …, 2024 - Wiley Online Library
Rice paddies account for approximately 9% of human‐induced methane (CH4) emissions.
Nitrogen (N) fertilization affects CH4 emissions from paddy soils through several …
Nitrogen (N) fertilization affects CH4 emissions from paddy soils through several …
Deciphering microbiomes dozens of meters under our feet and their edaphoclimatic and spatial drivers
Microbes inhabiting deep soil layers are known to be different from their counterpart in
topsoil yet remain under investigation in terms of their structure, function, and how their …
topsoil yet remain under investigation in terms of their structure, function, and how their …