[HTML][HTML] 模拟大气氮沉降对中国森林生态系统影响的研究进展
鲁显楷, 莫江明, 张炜, 毛庆功, 刘荣臻, 王聪… - 热带亚热带植物 …, 2019 - jtsb.ijournals.cn
人类活动加剧了活性氮的生产和排放, 并导致氮沉降日益增加并全球化. 目前,
人类活动对全球氮循环的干扰已经超出了地球系统安全运行的界限. 中国已成为全球氮沉降的 …
人类活动对全球氮循环的干扰已经超出了地球系统安全运行的界限. 中国已成为全球氮沉降的 …
[HTML][HTML] Long-term excessive phosphorus fertilization alters soil phosphorus fractions in the acidic soil of pomelo orchards
The effects of long-term excessive phosphorus (P) fertilization on the P fraction changes and
P loss risk in orchard soils remain unclear. This study aimed to assess the concentrations of …
P loss risk in orchard soils remain unclear. This study aimed to assess the concentrations of …
Nitrogen enrichment buffers phosphorus limitation by mobilizing mineral‐bound soil phosphorus in grasslands
Phosphorus (P) limitation is expected to increase due to nitrogen (N)‐induced terrestrial
eutrophication, although most soils contain large P pools immobilized in minerals (Pi) and …
eutrophication, although most soils contain large P pools immobilized in minerals (Pi) and …
Long-term cover crops improved soil phosphorus availability in a rain-fed apple orchard
Y Wang, Q Huang, H Gao, R Zhang, L Yang, Y Guo… - Chemosphere, 2021 - Elsevier
The objective of this present study was to understand the distribution patterns of various
forms of soil phosphorus (P) and the biotic and abiotic factors affecting the soil P fractions …
forms of soil phosphorus (P) and the biotic and abiotic factors affecting the soil P fractions …
Siderophores, a potential phosphate solubilizer from the endophyte Streptomyces sp. CoT10, improved phosphorus mobilization for host plant growth and rhizosphere …
K Cui, T Xu, J Chen, H Yang, X Liu, R Zhuo… - Journal of cleaner …, 2022 - Elsevier
Available phosphorus (AP) deficiency in soil is an important limiting factor in agricultural and
forestry production. Thus, microbes with high P mobilization capacity are of great concern …
forestry production. Thus, microbes with high P mobilization capacity are of great concern …
[HTML][HTML] Soil phosphorus availability and fractionation in response to different phosphorus sources in alkaline and acid soils: a short-term incubation study
Y Wang, W Zhang, T Müller, P Lakshmanan, Y Liu… - Scientific reports, 2023 - nature.com
Using agricultural wastes as an alternative phosphorus (P) source has great prospects to
improve soil P status. A 70-day incubation experiment was carried out to investigate the …
improve soil P status. A 70-day incubation experiment was carried out to investigate the …
N addition increased microbial residual carbon by altering soil P availability and microbial composition in a subtropical Castanopsis forest
Y Fan, L Yang, X Zhong, Z Yang, Y Lin, J Guo, G Chen… - Geoderma, 2020 - Elsevier
Microbial residual carbon (C) plays a crucial role in soil organic C (SOC) stabilization, and
exogenous nutrients have frequently been observed to increase the proportion of microbial …
exogenous nutrients have frequently been observed to increase the proportion of microbial …
Nitrogen addition impacts on soil phosphorus transformations depending upon its influences on soil organic carbon and microbial biomass in temperate larch forests …
L Zheng, Q Zhao, G Lin, X Hong, D Zeng - Catena, 2023 - Elsevier
Globally increasing atmospheric nitrogen (N) deposition can affect soil phosphorus (P)
transformations, yet the pathways and underlying mechanisms are largely unclear. Here, we …
transformations, yet the pathways and underlying mechanisms are largely unclear. Here, we …
Soil acidification enhances the mobilization of phosphorus under anoxic conditions in an agricultural soil: Investigating the potential for loss of phosphorus to water …
Soil redox potential (EH) and pH are key parameters regulating the solubility and fate of
phosphorus (P). However, the impact of soil acidification on the redox-induced mobilization …
phosphorus (P). However, the impact of soil acidification on the redox-induced mobilization …
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 …