Chemical and Biological Technologies in Agriculture (Mar 2023)

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. Paul Voroney

DOI
https://doi.org/10.1186/s40538-023-00401-y
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 12

Abstract

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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). Graphical Abstract

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