Wetland degradation promotes soil P fraction transformation by altering P-cycling functional genes and metabolic pathways
Yumeng Jiang, Yu Zou, Miaojia Sun, Weihong Zhu, Wanling Xu

TL;DR
Wetland degradation changes soil phosphorus forms and cycling by affecting microbial genes and soil properties.
Contribution
The study reveals how wetland degradation alters phosphorus fractions through changes in microbial functional genes and metabolic pathways.
Findings
Total inorganic phosphorus decreases with increasing wetland degradation.
Labile organic phosphorus increases due to reduced mineralization gene activity.
Degradation shifts phosphorus forms by altering soil moisture, pH, and microbial communities.
Abstract
Global wetlands have undergone varying degrees of degradation due to intense disturbances from global climatic and environmental changes, and human activities such as overgrazing and drainage. While wetland degradation is known to alter soil physicochemical properties and phosphorus (P) cycling, the mechanism governing its effects on soil P fraction transformation and P metabolism remains poorly understood. To address this, we investigated how different stages of wetland degradation—non-degraded (ND), slightly degraded (LD), moderately degraded (MD), and heavily degraded (HD)—affect soil P fractions in temperate wetlands. We analyzed soil properties, P-cycling microbial communities, functional genes, and metabolic products, employing the modified Hedley P fractionation method to elucidate clear trends in P fraction contents. Our results show that total inorganic P content decreased…
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Taxonomy
TopicsSoil Carbon and Nitrogen Dynamics · Coastal wetland ecosystem dynamics · Peatlands and Wetlands Ecology
