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The Biodegradation of Soil Organic Matter in Soil-Dwelling Humivorous Fauna

Journal

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fbioe.2021.808075

Keywords

soil organic matter; biodegradation; humivorous; biotechnology; enzyme

Funding

  1. Zhejiang Provincial Natural Science Foundation Project [LR21C160001]
  2. National Natural Science Foundation of China [32171796, 31500528]

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Soil organic matter contains more carbon than global vegetation and the atmosphere combined. Accessing this carbon source requires the removal of protective layers and the enzymatic or chemical cleavage of plant polysaccharides. Soil-feeding animals have evolved the ability to mineralize recalcitrant soil organic matter through symbiotic associations with gut microbes.
Soil organic matter contains more carbon than global vegetation and the atmosphere combined. Gaining access to this source of organic carbon is challenging and requires at least partial removal of polyphenolic and/or soil mineral protections, followed by subsequent enzymatic or chemical cleavage of diverse plant polysaccharides. Soil-feeding animals make significant contributions to the recycling of terrestrial organic matter. Some humivorous earthworms, beetles, and termites, among others, have evolved the ability to mineralize recalcitrant soil organic matter, thereby leading to their tremendous ecological success in the (sub)tropical areas. This ability largely relies on their symbiotic associations with a diverse community of gut microbes. Recent integrative omics studies, including genomics, metagenomics, and proteomics, provide deeper insights into the functions of gut symbionts. In reviewing this literature, we emphasized that understanding how these soil-feeding fauna catabolize soil organic substrates not only reveals the key microbes in the intestinal processes but also uncovers the potential novel enzymes with considerable biotechnological interests.

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