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Biotic and abiotic effects of soil organic matter on the phytoavailable phosphorus in soils: a review

Keiji Jindo, Yuki Audette, Fabio Lopez Olivares, Luciano Pasqualoto Canellas, D. Scott Smith, R. P. Voroney

2023Chemical and Biological Technologies in Agriculture124 citationsDOIOpen Access PDF

Abstract

Soil organic matter (SOM) has a critical role in regulating soil phosphorus (P) dynamics and producing phytoavailable P. However, soil P dynamics are often explained mainly by the effects of soil pH, clay contents, and elemental compositions, such as calcium, iron, and aluminum. Therefore, a better understanding of the mechanisms of how SOM influences phytoavailable P in soils is required for establishing effective agricultural management for soil health and enhancement of soil fertility, especially P-use efficiency. In this review, the following abiotic and biotic mechanisms are discussed; (1) competitive sorption between SOM with P for positively charged adsorption sites of clays and metal oxides (abiotic reaction), (2) competitive complexations between SOM with P for cations (abiotic reaction), (3) competitive complexations between incorporation of P by binary complexations of SOM and bridging cations with the formation of stable P minerals (abiotic reaction), (4) enhanced activities of enzymes, which affects soil P dynamics (biotic reaction), (5) mineralization/immobilization of P during the decay of SOM (biotic reaction), and (6) solubilization of inorganic P mediated by organic acids released by microbes (biotic reaction).

Topics & Concepts

Abiotic componentSoil waterSoil organic matterChemistryEnvironmental chemistryMineralization (soil science)Soil fertilityOrganic matterSoil chemistryPhosphorusSoil scienceEcologyEnvironmental scienceBiologyOrganic chemistrySoil Carbon and Nitrogen DynamicsSoil and Water Nutrient DynamicsPhosphorus and nutrient management
Biotic and abiotic effects of soil organic matter on the phytoavailable phosphorus in soils: a review | Litcius