Characteristics of humic acids isolated from burned and unburned topsoils in sub-boreal Scotch pine forests by 13C-NMR spectroscopy

IF 1.8 Q3 ECOLOGY

One Ecosystem Pub Date : 2022-08-11 DOI:10.3897/oneeco.7.e82720

E. Chebykina, E. Abakumov

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引用次数: 2

Abstract

Postpyrogenic soil dynamics is an informative tool for studying soil elementary processes in extreme temperature conditions and for predicting short time environmental changes in conditions of catastrophic landscape changes. Soil organic matter (SOM) system evolution is the most rapid process of postpyrogenic soil development. In this relation, the focus on humus structure is important for understanding these important dynamics. Soil restoration after spontaneous forest fires near Togljatty City (Samara Region, Russia) was abandoned in 2010 and further monitoring over the next ten years was organised to evaluate the speed of humus accumulation dynamics. The aim of this study was to apply the 13C-NMR (nuclear magnetic resonance) spectroscopy to analyse the effect of forest fires on SOM degradation in Scotch pine forests on Psamment Entisols of the fragmented steppe in the Samara Region. Three key soil plots were studied for estimating SOM quality changes under the forest fire effect: surface forest fire, crown forest fire and control, i.e. 18 soil samples of top soil horizons were analysed in three replicates. The data obtained indicate that the humus molecular composition was substantially affected by the wildfires. Investigation of the humic acids’ (HAs) molecular structure by 13C-NMR showed a relative increase in aromatic compounds and decrease in aliphatic ones. The aromaticity degree of HA molecules increases in 5.7 and 3.8 times in cases of surface and crown forest fires, correspondingly. In general, crown and surface fires plots are not very different in terms of 13C-NMR spectra of HAs (p = 0.34); however, HAs of control plot have essential differences from pyrogenic ones (p < 0.05). 13C NMR spectra have shown a change in the proportion of oxygen-containing functional groups as well. One of the most important effects observed in wildfire-affected SOM is that the proportion of lignin-like structures increases as a concomitant effect of depletion of C,H-alkyl groups, especially in the case of crown fires.

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13C-NMR光谱法研究亚北方苏格兰松林表层土壤中腐殖酸的特征

热解后土壤动力学是研究极端温度条件下土壤基本过程和预测灾难性景观变化条件下短期环境变化的信息工具。土壤有机质（SOM）系统演化是热解后土壤发育最快速的过程。在这种关系中，对腐殖质结构的关注对于理解这些重要的动力学是重要的。Togljatty市（俄罗斯萨马拉地区）附近的自发森林火灾后的土壤恢复于2010年被放弃，并组织了未来十年的进一步监测，以评估腐殖质积累动态的速度。本研究的目的是应用13C-NMR（核磁共振）光谱分析森林火灾对苏格兰松林SOM降解的影响。为了估计森林火灾影响下SOM质量的变化，研究了三个关键地块：地表森林火灾、树冠森林火灾和控制，即在三个重复中分析了18个表层土壤样品。所获得的数据表明，腐殖质分子组成在很大程度上受到了野火的影响。用13C-NMR对腐殖酸分子结构的研究表明，芳香族化合物相对增加，脂肪族化合物相对减少。在地表和树冠森林火灾的情况下，HA分子的芳香度相应地增加了5.7倍和3.8倍。一般来说，就HA的13C-NMR光谱而言，树冠和地表火灾图没有太大差异（p=0.34）；对照区的HA与热原区的HA有显著差异（p＜0.05）。13C NMR谱也显示了含氧官能团比例的变化。在受野火影响的SOM中观察到的最重要的影响之一是，木质素样结构的比例随着C、H烷基的消耗而增加，尤其是在树冠火灾的情况下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

One Ecosystem Environmental Science-Nature and Landscape Conservation

CiteScore

4.60

自引率

0.00%

发文量

审稿时长

12 weeks