Commercial organic fertilizer substitution increases wheat yield by improving soil quality
H He, M Peng, W Lu, Z Hou, J Li - Science of The Total Environment, 2022 - Elsevier
Traditional organic fertilizer substitution is an effective measure for increasing crop yield and
soil quality while reducing chemical fertilizer input. However, the effects of commercial …
soil quality while reducing chemical fertilizer input. However, the effects of commercial …
Growth promotion ability of phosphate‐solubilizing bacteria from the soybean rhizosphere under maize–soybean intercropping systems
C Song, W Wang, Y Gan, L Wang… - Journal of the …, 2022 - Wiley Online Library
BACKGROUND Optimum cultivation and management measures are needed to increase
the phosphorus (P) absorption efficiency of crops for sustainable agricultural production …
the phosphorus (P) absorption efficiency of crops for sustainable agricultural production …
[HTML][HTML] Response of soil phosphorus fractions to land use change in the subalpine ecosystems of Southeast margin of Qinghai-Tibet Plateau, Southwest China
B Azene, P Qiu, R Zhu, K Pan, X Sun, Y Nigussie… - Ecological …, 2022 - Elsevier
Land use change has a significant effect on soil nutrient cycling. However, data on soil
phosphorus (P) fractions following land use change are scarce, especially in the subalpine …
phosphorus (P) fractions following land use change are scarce, especially in the subalpine …
Soil quality and r–K fungal communities in plantations after conversion from subtropical forest
T Liu, X Wu, H Li, C Ning, Y Li, X Zhang, J He… - Catena, 2022 - Elsevier
Intensive clear-cutting of natural forests and conversion to monoculture plantations are
ongoing worldwide, leading to the degradation of soil quality and microbial functions. Here …
ongoing worldwide, leading to the degradation of soil quality and microbial functions. Here …
Long-term throughfall exclusion decreases soil organic phosphorus associated with reduced plant roots and soil microbial biomass in a subtropical forest
Long-term droughts can significantly reduce forest productivity due to water deficiency and
associated changes in the availability of soil nutrients. Phosphorus (P) is a critical but limited …
associated changes in the availability of soil nutrients. Phosphorus (P) is a critical but limited …
Eighteen‐year nitrogen addition does not increase plant phosphorus demand in a nitrogen‐saturated tropical forest
G Yu, J Chen, M Yu, A Li, YP Wang, X He… - Journal of …, 2023 - Wiley Online Library
Nitrogen (N) deposition usually increases plant tissue N concentrations and thus
phosphorus (P) demand in young and/or N‐limited forests, but the N deposition effect on …
phosphorus (P) demand in young and/or N‐limited forests, but the N deposition effect on …
Effects of contrasting N-enriched biochar applications on paddy soil and rice leaf phosphorus fractions in subtropical China
Biochar has been proved to be an important soil amendment to alleviate soil phosphorus (P)
in the paddy crops. However, the role of specially prepared biochar (N-enriched biochar) on …
in the paddy crops. However, the role of specially prepared biochar (N-enriched biochar) on …
Differential factors determine the response of soil P fractions to N deposition in wet and dry seasons in a subtropical Moso bamboo forest
Q Zeng, Y Fan, Q Zhang, X Yuan, K Lin, J Zhou, H Lin… - Plant and Soil, 2024 - Springer
Background Elevated nitrogen deposition can alter the soil P (phosphorous) composition
and availability, thereby affecting long-term plant growth. However, the effects of N (nitrogen) …
and availability, thereby affecting long-term plant growth. However, the effects of N (nitrogen) …
Keystone bacterial functional module activates P-mineralizing genes to enhance enzymatic hydrolysis of organic P in a subtropical forest soil with 5-year N addition
Q Zeng, J Peñuelas, J Sardans, Q Zhang, J Zhou… - Soil Biology and …, 2024 - Elsevier
Microorganisms play an integral role in driving phosphorus (P) transformation in forest soils;
however, studies on soil P cycling and the molecular mechanisms of microbes activated in …
however, studies on soil P cycling and the molecular mechanisms of microbes activated in …
[HTML][HTML] Eleven-year canopy nitrogen addition enhances the uptake of phosphorus by plants and accelerates its depletion in soil
X Gao, Y Gao, X Li, C Zhang, Q Zeng, X Yuan, Y Chen… - Forests, 2024 - mdpi.com
Soil phosphorus (P) is a critical factor that limits plant productivity. Enhanced nitrogen (N)
deposition has the potential to modify P transformation and availability, thereby potentially …
deposition has the potential to modify P transformation and availability, thereby potentially …