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Tracing 33P-labelled organic phosphorus compounds in two soils: New insights into decomposition dynamics and direct use by microbes

Daniel Wasner, Judith Prommer, David Zezula, Maria Mooshammer, Yuntao Hu, Wolfgang Wanek

2023Frontiers in Soil Science16 citationsDOIOpen Access PDF

Abstract

Introduction Organic phosphorus (Po) compounds constitute an important pool in soil P cycling, but their decomposition dynamics are poorly understood. Further, it has never been directly tested whether low molecular weight Po compounds are taken up by soil microbes in an intact form, which reduces the dependence of their P acquisition on extracellular phosphatases. Methods We investigated the short-term fate (24 h) of five 33P-labelled Po compounds (teichoic acids, phospholipids, DNA, RNA and soluble organophosphates) and 33P-labelled inorganic P (Pi) in two soils. Results We found indications that soil microbial breakdown of phosphodiesters was limited by the depolymerization step, and that direct microbial uptake of Po occurred to a substantial extent. Discussion We postulate a trade-off between direct Po uptake and complete extracellular Po mineralization. These findings have profound consequences for our understanding of microbial P cycling in soils.

Topics & Concepts

Mineralization (soil science)Soil waterChemistryEnvironmental chemistryDecompositionPhosphorusExtracellularMicrobial population biologyOrganic matterBiochemistryBiologyOrganic chemistryEcologyBacteriaGeneticsSoil and Water Nutrient DynamicsSoil Carbon and Nitrogen DynamicsPesticide and Herbicide Environmental Studies