Evaluation of stabilization rate of high and low molecular organic matter in cryoconite holes from the Arctic, Antarctic and Caucasus mountain ecosystems by 13C–NMR spectroscopy

IF 0.5 Q4 ECOLOGY
V. Polyakov, E. Abakumov, R. Tembotov, Bulat Mavludov
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Abstract

Cryoconite holes are considered as a place of accumulation of organomineral matter, including black carbon. It is formed as a result of incomplete combustion of carboncontaining fragments of natural and anthropogenic origin. Such material is transported by the wind and participates in the formation of cryoconite on the ice surface. The accumulation of organic matter in cryoconite can significantly affect the climate of our planet. To assess the processes of resistance to biodegradation of organic matter in cryoconite, molecular methods of analysis were used. This work presents the qualitative and quantitative evaluation of composition of humic acids, formed in selected cryoconite holes of various geographical regions. To identify them, the 13C–NMR spectroscopy method was used, which makes it possible to reveal trends in the accumulation of specific structural fragments and the rate of stabilization of cryoconite organic matter. The analysis of the elemental composition revealed that the most condensed macromolecules of humic acids accumulate in cryoconite holes on Mount Elbrus. In the molecules of humic acids, the accumulation of aliphatic structural fragments up to 71-73% occurs to a greater extent, while the composition of the aliphatic fragments depended on local precursors of humification. In the Arctic and Antarctic ecosystems, humic acids with relatively homogeneous composition are formed. These ecosystems are characterized by the domination of moss-lichen communities, which are characterized by a predominance of lipids and carbohydrates in the chemical composition. Black carbon is an important part of the planetary carbon cycle. Under the conditions of active deglaciation, cryoconite material can enter the periglacial zone, and under the action of soil microorganisms, it can become an additional source of greenhouse gases in the atmosphere.
用13C-NMR评价北极、南极和高加索山地生态系统低温结晶岩孔中高、低分子有机质稳定化率
低温结晶岩孔被认为是有机物质(包括黑碳)聚集的地方。它是由于自然和人为来源的含碳碎片不完全燃烧而形成的。这些物质被风吹走,参与了冰表面冰晶的形成。低温结晶岩中有机质的富集对地球气候具有重要影响。采用分子分析方法对低温结晶中有机物的生物降解抗性过程进行了研究。本研究对不同地理区域的冻融石孔中形成的腐植酸成分进行了定性和定量评价。为了鉴定它们,使用了13C-NMR波谱方法,这使得揭示特定结构碎片的积累趋势和低温结晶有机质的稳定速率成为可能。元素组成分析表明,腐植酸的最浓缩大分子聚集在厄尔布鲁士山的低温孔洞中。在腐植酸分子中,脂肪族结构片段的积累程度更高,高达71-73%,而脂肪族结构片段的组成依赖于局部腐殖化前体。在北极和南极生态系统中,形成了成分相对均匀的腐植酸。这些生态系统的特点是苔藓群落占主导地位,其特点是化学成分中脂类和碳水化合物占主导地位。黑碳是地球碳循环的重要组成部分。在主动消冰条件下,冰凝石物质可进入冰缘带,在土壤微生物的作用下,可成为大气中温室气体的额外来源。
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来源期刊
Czech Polar Reports
Czech Polar Reports Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
1.30
自引率
10.00%
发文量
22
期刊介绍: Czech Polar Reports is an international, multidisciplinary, peer-reviewed journal. It is issued 2 times a year. The journal is dedicated to provide original research papers for sciences related to the polar regions and other planets with polar analogues. Czech Polar Reports covers the disciplines listed below. polar paleontology, geology, geochemistry, geomorphology, glaciology, climatology, hydrology, pedology, biochemistry, ecology, environmental science, microbiology, plant and animal biology including marine biology.
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