Phosphorus fertilizer application shifts the rhizosphere bacterial community and their carbon, nitrogen and phosphorus-cycle genes in a Phoebe bournei young …
Y Zhang, G He, L Yang, S Wen, J Yan, B Min, T Peng… - Applied Soil …, 2024 - Elsevier
Phosphorus (P) is considered to be one of the most limiting elements in terrestrial
ecosystems, especially in the subtropical forests in China. However, little is known about …
ecosystems, especially in the subtropical forests in China. However, little is known about …
Soil phosphorus cycling microbial functional genes of monoculture and mixed plantations of native tree species in subtropical China
L Qin, Z Xiao, A Ming, J Teng, H Zhu, J Qin… - Frontiers in …, 2024 - frontiersin.org
Background Transforming coniferous plantation into broadleaved or mixed broadleaved-
coniferous plantations is the tendency of forest management strategies in subtropical China …
coniferous plantations is the tendency of forest management strategies in subtropical China …
Community metagenomics reveals the processes of nutrient cycling regulated by microbial functions in soils with P fertilizer input
L Liu, Y Gao, W Yang, J Liu, Z Wang - Plant and Soil, 2024 - Springer
Background and aims Phosphorus (P) fertilization affects plant diversity and ecosystem
function by changing the abundance and composition of functional soil microorganisms and …
function by changing the abundance and composition of functional soil microorganisms and …
High starter phosphorus fertilization facilitates soil phosphorus turnover by promoting microbial functional interaction in an arable soil
Microbial phosphorus (P) turnover is critical in C utilization efficiency in agroecosystems. It is
therefore necessary to understand the P mobilization processes occurring during P …
therefore necessary to understand the P mobilization processes occurring during P …
Synergistic variation of rhizosphere soil phosphorus availability and microbial diversity with stand age in plantations of the endangered tree species Parashorea …
W Li, S Ullah, F Liu, F Deng, X Han, S Huang… - Frontiers in Plant …, 2024 - frontiersin.org
Introduction Soil physicochemical properties and nutrient composition play a significant role
in shaping microbial communities, and facilitating soil phosphorus (P) transformation …
in shaping microbial communities, and facilitating soil phosphorus (P) transformation …
Long-term moderate fertilization increases the complexity of soil microbial community and promotes regulation of phosphorus cycling genes to improve the availability …
S Liu, H Li, X Xie, Y Chen, M Lang, X Chen - Applied Soil Ecology, 2024 - Elsevier
Microbial community and functional genes associated with phosphorus (P) cycling are
intrinsic to soil P transformation. Yet, how the P fertilization rates affect the interactions of the …
intrinsic to soil P transformation. Yet, how the P fertilization rates affect the interactions of the …
Altered microbial P cycling genes drive P availability in soil after afforestation
R Zhi, J Deng, Y Xu, M Xu, S Zhang, X Han… - Journal of …, 2023 - Elsevier
Soil Phosphorous (P) availability is a limiting factor for plant growth and regulates biological
metabolism in plantation ecosystems. The effect of variations in soil microbial P cycling …
metabolism in plantation ecosystems. The effect of variations in soil microbial P cycling …
Microbial mechanisms for improved soil phosphorus mobilization in monoculture conifer plantations by mixing with broadleaved trees
P Deng, Y Zhou, W Chen, F Tang, Y Wang - Journal of Environmental …, 2024 - Elsevier
Replanting broadleaved trees in monoculture conifer plantations has been shown to
improve the ecological environment. However, not much is known about the distribution …
improve the ecological environment. However, not much is known about the distribution …
Nitrogen addition reduces phosphorus availability and induces a shift in soil phosphorus cycling microbial community in a tea (Camellia sinensis L.) plantation
Y Jiang, X Yang, K Ni, L Ma, Y Shi, Y Wang… - Journal of …, 2023 - Elsevier
Nitrogen (N) and phosphorus (P) are two important nutrient elements that limit the growth of
plants and microorganisms. The effect of the N supply on soil P cycling and its mechanism …
plants and microorganisms. The effect of the N supply on soil P cycling and its mechanism …
Understanding Responses of Soil Microbiome to the Nitrogen and Phosphorus Addition in Metasequoia glyptostroboides Plantations of Different Ages
L Wang, Y Wen, R Tong, H Zhang, H Chen, T Hu… - Microbial ecology, 2022 - Springer
Nitrogen (N) and phosphorus (P) have significant effects on soil microbial community
diversity, composition, and function. Also, trees of different life stages have different …
diversity, composition, and function. Also, trees of different life stages have different …
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