Changes in the Composition of Soil Organic Matter after the Transformation of Natural Beech Stands into Spruce Monoculture

IF 2.9 Q2 SOIL SCIENCE Soil Systems Pub Date : 2024-07-03 DOI:10.3390/soilsystems8030074
S. Thai, L. Pavlů, Petra Vokurková, Bunthorn Thet, Kateřina Vejvodová, O. Drábek, V. Tejnecký
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Abstract

The composition of soil organic matter is considered to have a key influence on C sequestration and global climate change and can be associated with changes in vegetation cover in the terrestrial ecosystem. Our study aimed to evaluate the soil chemical structures and various organic components from available or reactive to more stable forms in forest soils affected by acidification and after conversion from fairly close to natural beech (Fagus sylvatica) stands to a spruce (Picea abies) monoculture. Our results revealed that the beech stands had higher contents of dissolved organic carbon and low molecular mass organic acid compared to the spruce stands. The aliphatic CH groups within the soluble alkaline-extractable organic substance (AEOS) gradually disappeared with deeper soil horizons under both forest species, while the presence of aliphatic CH groups in the low-solubility AEOS was more pronounced in the A horizon under spruce and relatively increased with depth under beech stands. The carboxylic groups were more prevalent in deeper soil horizons, while polysaccharide chains and nitrogen functional groups decreased with depth under both forest stands but were more prevalent under beech than under spruce stands. These findings suggest that the stability of organic matter through the forest soil profiles increased due to the transformation of various organic compounds from litter to more stable organic matter with higher amounts of lignin components to greater amounts of carboxylic groups and aromatic groups in deeper soil horizons. Furthermore, a higher number of mobile components of soil organic matter and carboxylic acids, together with lower pH and cation exchange capacity under spruce, resulted in the leaching of nutrients, releasing risk elements into the soil solution and accelerating the podzolization process.
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天然山毛榉林转变为云杉单一栽培后土壤有机质组成的变化
土壤有机物质的组成被认为对碳封存和全球气候变化有重要影响,并且可能与陆地生态系统中植被覆盖的变化有关。我们的研究旨在评估受酸化影响的森林土壤以及从相当接近自然的山毛榉(Fagus sylvatica)林地转变为云杉(Picea abies)单一种植区后的土壤化学结构和各种有机成分(从可用或反应性形式到更稳定的形式)。我们的研究结果表明,与云杉林相比,山毛榉林的溶解有机碳和低分子质量有机酸含量更高。在两种林分下,随着土壤层位的加深,可溶性碱提取有机物(AEOS)中的脂肪族 CH 基团逐渐消失,而在云杉林分下,低溶解度 AEOS 中脂肪族 CH 基团的存在在 A 层更为明显,在山毛榉林分下,随着土壤层位的加深,脂肪族 CH 基团的存在相对增加。羧基在较深的土壤层中更为普遍,而多糖链和氮功能基团在两种林分下都随深度的增加而减少,但在山毛榉林分下比云杉林分下更为普遍。这些研究结果表明,森林土壤剖面中有机物的稳定性增加,原因是各种有机化合物从垃圾转化为更稳定的有机物,在较深的土壤层中,木质素成分的含量更高,羧基和芳香基的含量也更高。此外,土壤有机物和羧酸的流动成分较多,再加上云杉下的 pH 值和阳离子交换能力较低,导致养分沥滤,将风险元素释放到土壤溶液中,加速了荚果化过程。
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来源期刊
Soil Systems
Soil Systems Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
5.30
自引率
5.70%
发文量
80
审稿时长
11 weeks
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