Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River Delta

Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River Delta

In the Arctic zone, where up to 1024 × 1013 kg of organic matter is stored in permafrost-affected soils, soil organic matter consists of about 50% humic substances. Based on the analysis of the molecular composition of humic acids, we assessed the processes of accumulation of the key structural frag...

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Main Authors: Vyacheslav Polyakov, Evgeny Abakumov
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Separations
Subjects:
soil organic matter
<sup>13</sup>C-NMR spectroscopy
carbon stabilization
Arctic
Cryosol
Online Access:https://www.mdpi.com/2297-8739/8/6/87
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spelling doaj-67f48062bc814fd29866508f215459462021-07-01T00:41:53ZengMDPI AGSeparations2297-87392021-06-018878710.3390/separations8060087Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River DeltaVyacheslav Polyakov0Evgeny Abakumov1Department of Applied Ecology, Faculty of Biology, St. Petersburg State University, 16th Liniya V.O., 29, 199178 St. Petersburg, RussiaArctic and Antarctic Research Institute, Beringa 38, 199397 St. Petersburg, RussiaIn the Arctic zone, where up to 1024 × 1013 kg of organic matter is stored in permafrost-affected soils, soil organic matter consists of about 50% humic substances. Based on the analysis of the molecular composition of humic acids, we assessed the processes of accumulation of the key structural fragments, their transformations and the stabilization rates of carbon pools in soils in general. The landscape of the Lena River delta is the largest storage of stabilized organic matter in the Arctic. There is active accumulation and deposition of a significant amount of soil organic carbon from terrestrial ecosystems in a permafrost state. Under ongoing climate change, carbon emission fluxes into the atmosphere are estimated to be higher than the sequestration and storing of carbon compounds. Thus, investigation of soil organic matter stabilization mechanisms and rates is quite an urgent topic regarding polar soils. For study of molecular elemental composition, humic acids were separated from the soils of the Lena River delta. Key structural fragments of humic matter were identified and quantified by CP/MAS <sup>13</sup>C NMR spectroscopy: carboxyl (–COOR); carbonyl (–C=O); CH<sup>3–</sup>; CH<sup>2–</sup>; CH-aliphatic; –C-OR alcohols, esters and carbohydrates; and the phenolic (Ar-OH), quinone (Ar = O) and aromatic (Ar–) groups as benchmark Cryosols of the Lena delta river terrestrial ecosystem. Under the conditions of thermodynamic evolutionary selection, during the change between the dry and wet seasons, up to 41% of aromatic and carboxyl fragments accumulated in humic acids. Data obtained showed that three main groups of carbon played the most important role in soil organic matter stabilization, namely C, H-alkyls ((CH<sub>2</sub>)n/CH/C and CH<sub>3</sub>), aromatic compounds (C-C/C-H, C-O) and an OCH group (OCH/OCq). The variations of these carbon species’ content in separated humics, with special reference to soil–permafrost organic profiles’ recalcitrance in the current environment, is discussed.https://www.mdpi.com/2297-8739/8/6/87soil organic matter<sup>13</sup>C-NMR spectroscopycarbon stabilizationArcticCryosol
collection DOAJ
language English
format Article
sources DOAJ
author Vyacheslav Polyakov
Evgeny Abakumov
spellingShingle Vyacheslav Polyakov
Evgeny Abakumov
Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River Delta
Separations
soil organic matter
<sup>13</sup>C-NMR spectroscopy
carbon stabilization
Arctic
Cryosol
author_facet Vyacheslav Polyakov
Evgeny Abakumov
author_sort Vyacheslav Polyakov
title Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River Delta
title_short Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River Delta
title_full Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River Delta
title_fullStr Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River Delta
title_full_unstemmed Assessments of Organic Carbon Stabilization Using the Spectroscopic Characteristics of Humic Acids Separated from Soils of the Lena River Delta
title_sort assessments of organic carbon stabilization using the spectroscopic characteristics of humic acids separated from soils of the lena river delta
publisher MDPI AG
series Separations
issn 2297-8739
publishDate 2021-06-01
description In the Arctic zone, where up to 1024 × 1013 kg of organic matter is stored in permafrost-affected soils, soil organic matter consists of about 50% humic substances. Based on the analysis of the molecular composition of humic acids, we assessed the processes of accumulation of the key structural fragments, their transformations and the stabilization rates of carbon pools in soils in general. The landscape of the Lena River delta is the largest storage of stabilized organic matter in the Arctic. There is active accumulation and deposition of a significant amount of soil organic carbon from terrestrial ecosystems in a permafrost state. Under ongoing climate change, carbon emission fluxes into the atmosphere are estimated to be higher than the sequestration and storing of carbon compounds. Thus, investigation of soil organic matter stabilization mechanisms and rates is quite an urgent topic regarding polar soils. For study of molecular elemental composition, humic acids were separated from the soils of the Lena River delta. Key structural fragments of humic matter were identified and quantified by CP/MAS <sup>13</sup>C NMR spectroscopy: carboxyl (–COOR); carbonyl (–C=O); CH<sup>3–</sup>; CH<sup>2–</sup>; CH-aliphatic; –C-OR alcohols, esters and carbohydrates; and the phenolic (Ar-OH), quinone (Ar = O) and aromatic (Ar–) groups as benchmark Cryosols of the Lena delta river terrestrial ecosystem. Under the conditions of thermodynamic evolutionary selection, during the change between the dry and wet seasons, up to 41% of aromatic and carboxyl fragments accumulated in humic acids. Data obtained showed that three main groups of carbon played the most important role in soil organic matter stabilization, namely C, H-alkyls ((CH<sub>2</sub>)n/CH/C and CH<sub>3</sub>), aromatic compounds (C-C/C-H, C-O) and an OCH group (OCH/OCq). The variations of these carbon species’ content in separated humics, with special reference to soil–permafrost organic profiles’ recalcitrance in the current environment, is discussed.
topic soil organic matter
<sup>13</sup>C-NMR spectroscopy
carbon stabilization
Arctic
Cryosol
url https://www.mdpi.com/2297-8739/8/6/87
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AT evgenyabakumov assessmentsoforganiccarbonstabilizationusingthespectroscopiccharacteristicsofhumicacidsseparatedfromsoilsofthelenariverdelta
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