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Article
2023

Release of glucose from dissolved and mineral‐bound organic matter by enzymatic hydrolysis

Lenhardt, Katharina R. Brandt, Luise Poll, Christian Rennert, Thilo Kandeler, Ellen
  EJSS_EJSS13421.pdf  (1.25 MB)
  ejss13421-sup-0001-supinfo.pdf  (169.55 KB)

Abstract (English)

Sorption of dissolved organic matter (DOM) by poorly crystalline minerals during their formation may protect large amounts of carbon in soils from mineralization. We investigated the bioavailability of carbohydrates in DOM and after co-precipitation with short-range ordered aluminosilicates. Carbohydrates originated from soil solutions collected in situ at two depths of a Dystric Cambisol, and from litter extracts. Quantification of substrate-specific degradability was achieved by the addition of β-glucosidase at an optimal concentration and subsequent determination of glucose release. Depending on DOM composition, 0.6–41.4 mg g−1 C−1 of glucose was enzymatically released from dissolved carbohydrates. Co-precipitated carbohydrates were partially accessible, resulting in a glucose release of 0.7–5.2 mg g−1 C−1. Restricted enzymatic depolymerization due to co-precipitation may contribute to accumulation of easily degradable substrates in soils.

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CC BY 4.0

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European journal of soil science, 74 (2023), 5, e13421. https://doi.org/ 10.1111/ejss.13421. ISSN: 1365-2389
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https://doi.org/10.1111/ejss.13421
 https://hohpublica.uni-hohenheim.de/handle/123456789/15909

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Language
English

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630 Agriculture

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Institut für Bodenkunde und Standortslehre

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Free keywords

Allophane C cycling enzymes Co‐precipitation Enzyme addition assay Mineral–organic association β‐glucosidase

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Sustainable Development Goals

BibTeX

@article{Lenhardt2023, doi = { 10.1111/ejss.13421}, author = {Lenhardt, Katharina R. and Brandt, Luise and Poll, Christian et al.}, title = {Release of glucose from dissolved and mineral‐bound organic matter by enzymatic hydrolysis}, journal = {European journal of soil science}, year = {2023}, volume = {74}, number = {5}, }
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