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Consider the Anoxic Microsite: Acknowledging and Appreciating Spatiotemporal Redox Heterogeneity in Soils and Sediments

Authors :
Lacroix, Emily M.
Aeppli, Meret
Boye, Kristin
Brodie, Eoin
Fendorf, Scott
Keiluweit, Marco
Naughton, Hannah R.
Noel, Vincent
Sihi, Debjani
Lacroix, Emily M.
Aeppli, Meret
Boye, Kristin
Brodie, Eoin
Fendorf, Scott
Keiluweit, Marco
Naughton, Hannah R.
Noel, Vincent
Sihi, Debjani
Publication Year :
2023

Abstract

Reduction-oxidation (redox) reactions underlie essentially all biogeochemical cycles. Like most soil properties and processes, redox is spatiotemporally heterogeneous. However, unlike other soil features, redox heterogeneity has yet to be incorporated into mainstream conceptualizations of soil biogeochemistry. Anoxic microsites, the defining feature of redox heterogeneity in bulk oxic soils and sediments, are zones of oxygen depletion in otherwise oxic environments. In this review, we suggest that anoxic microsites represent a critical component of soil function and that appreciating anoxic microsites promises to advance our understanding of soil and sediment biogeochemistry. In sections 1 and 2, we define anoxic microsites and highlight their dynamic properties, specifically anoxic microsite distribution, redox gradient magnitude, and temporality. In section 3, we describe the influence of anoxic microsites on several key elemental cycles, organic carbon, nitrogen, iron, manganese, and sulfur. In section 4, we evaluate methods for identifying and characterizing anoxic microsites, and in section 5, we highlight past and current approaches to modeling anoxic microsites. Finally, in section 6, we suggest steps for incorporating anoxic microsites and redox heterogeneities more broadly into our understanding of soils and sediments.

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1405832480
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1021.acsearthspacechem.3c00032