Adsorption/desorption processes dominate the soil P fractions dynamic under long-term N/P addition in a subtropical forest

解吸 吸附 亚热带 期限(时间) 热带和亚热带湿润阔叶林 环境化学 环境科学 化学 土壤科学 物理 生态学 物理化学 生物 量子力学
作者
Cheng Peng,Senhao Wang,Yijing Zhu,Andi Li,Guangcan Yu,Qinggong Mao,Mianhai Zheng,Juan Huang,Xiangping Tan,Jiangming Mo,Wei Zhang
出处
期刊:Geoderma [Elsevier BV]
卷期号:457: 117284-117284 被引量:8
标识
DOI:10.1016/j.geoderma.2025.117284
摘要

• The fractions of soil phosphorus were assessed in a subtropical forest. • Long-term N addition enhanced moderately labile P, driven by increased Fe 3+ and Al 3+ . • Under long-term P addition moderately labile P is the main fate. • Both N and P addition are geochemical processes in regulating phosphorus. Despite large phosphorus (P) reserves in subtropical forest soils, P limitation can be exacerbated by elevated atmospheric nitrogen (N) deposition. However, the mechanisms underlying how soil P fraction transformation affects P availability and the key factors that regulate this process under long-term N and/or P addition remain unclear. In this study, in a subtropical forest subjected to 13 years of continuous simulated N and/or P addition, we investigated the response of soil P fractions by modified Hedley P fractionation to long-term fertilization, and how soil geochemical including absorption or desorption with Fe 3+ , Al 3+ and biological processes such as mineralization by phosphatase and assimilation by microorganisms regulate P transformation. We found that N addition significantly increased the Moderately Labile P but did not affect the Labile Pi (inorganic P) and Labile Po (organic P) fractions. These changes were primarily regulated by the promoted geochemical processes, such as Fe 3+ (+57.49 %) and Al 3+ (+11.20 %) adsorption. However, several soil biological indicators regulating organic and inorganic P transformation, including phosphomonoesterase activity (PME), significantly decreased under long-term N addition. With long-term P addition, Moderately Labile P (contributing to 69 % of the total P increment) was the main destination of the added P, facilitated by the exchange of PO 4 3- with soil organic carbon (SOC) at absorption sites. These findings suggest that soil adsorption/desorption processes dominate the transformation of P fractions in subtropical forests, under both N and P addition. Our findings highlight the importance of P adsorption and desorption processes in highly weathered subtropical forest ecosystems to better understand P transformation mechanisms under global change scenarios.
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