Changing plant phosphorus acquisition strategies in relation to altered soil phosphorus fractions after wetland drainage DOI Creative Commons
Zhenhui Jiang,

Wanqing Luo,

Erxiong Zhu

et al.

Functional Ecology, Journal Year: 2024, Volume and Issue: 38(11), P. 2433 - 2446

Published: Sept. 9, 2024

Abstract Plant phosphorus (P) acquisition strategy is considered to be an intrinsic driver behind plant succession. However, variations in P strategies connection soil fraction changes after wetland drainage remain unclear. To address this issue, here we conducted a study six distinct wetlands that experienced long‐term (>20 years) artificial drainage, with the adjacent waterlogged as control. We analysed community composition, biomass and fractions, identified three based on acid phosphatase activity, resorption efficiency, arbuscular mycorrhizal fungi (AMF) content. found calcium‐bound (P Ca ) enzyme‐extractable enzyme were key factors influencing acquisition. Soil correlated negatively activity but positively AMF impacted efficiency. The categorised into types change richness each exhibiting strategies. These corresponded shifts fractions. Overall, our highlights role of fractions explaining suggesting regulations succession ecosystem services. Read free Plain Language Summary for article Journal blog.

Language: Английский

Sustained superiority of biochar over straw for enhancing soil biological-phosphorus via the mediation of phoD-harboring bacteria in subtropical Moso bamboo forests DOI
Zhenhui Jiang, Tony Vancov, Yunying Fang

et al.

Forest Ecology and Management, Journal Year: 2025, Volume and Issue: 584, P. 122606 - 122606

Published: March 2, 2025

Language: Английский

Citations

1
Changing plant phosphorus acquisition strategies in relation to altered soil phosphorus fractions after wetland drainage DOI Creative Commons
Zhenhui Jiang,

Wanqing Luo,

Erxiong Zhu

et al.

Functional Ecology, Journal Year: 2024, Volume and Issue: 38(11), P. 2433 - 2446

Published: Sept. 9, 2024

Abstract Plant phosphorus (P) acquisition strategy is considered to be an intrinsic driver behind plant succession. However, variations in P strategies connection soil fraction changes after wetland drainage remain unclear. To address this issue, here we conducted a study six distinct wetlands that experienced long‐term (>20 years) artificial drainage, with the adjacent waterlogged as control. We analysed community composition, biomass and fractions, identified three based on acid phosphatase activity, resorption efficiency, arbuscular mycorrhizal fungi (AMF) content. found calcium‐bound (P Ca ) enzyme‐extractable enzyme were key factors influencing acquisition. Soil correlated negatively activity but positively AMF impacted efficiency. The categorised into types change richness each exhibiting strategies. These corresponded shifts fractions. Overall, our highlights role of fractions explaining suggesting regulations succession ecosystem services. Read free Plain Language Summary for article Journal blog.

Language: Английский

Citations

2