Mechanism of organic phosphorus transformation and its impact on the primary production in a deep oligotrophic plateau lake during stratification.

Published

March 17, 2024

Journal

Water research

PICOID

ad1e0816

DOI

10.1016/j.watres.2024.121420

Citations

Keywords

(31)P-NMR, Alkaline phosphatase activities, Dissolved organic phosphorus, Primary production, Stratification

Patients/Population/Participants

Lake Fuxian, dissolved organic P (DOP), phosphomonesterase (PME)/phosphodiesterase (PDE)

Intervention

stratification period

Comparison

Outcome

primary productivity

Abstract

Global warming is leading to extended stratification in deep lakes, which may exacerbate phosphorus (P) limitation in the upper waters. Conversion of labile dissolved organic P (DOP) is a possible adaptive strategy to maintain primary production. To test this, the spatiotemporal distributions of various soluble P fractions and phosphomonesterase (PME)/phosphodiesterase (PDE) activities were investigated in Lake Fuxian during the stratification period and the transition capacity of organic P and its impact on primary productivity were evaluated. The results indicated that the DOP concentration (mean 0.20 ± 0.05 μmol L

Mechanism of organic phosphorus transformation and its impact on the primary production in a deep oligotrophic plateau lake during stratification.

Abstract

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