[陇中黄土高原温带荒漠不同草地类型土壤团粒结构稳定性和有机碳的分布特征]。

Q2 Environmental Science
Ya-Li Li, Guo-Xing He, Xiao-Ni Liu, De-Gang Zhang, He-Guang Xu, Tong Ji, Jia-Chang Jiang
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引用次数: 0

摘要

土壤团粒稳定性和有机碳(SOC)是衡量土壤结构和质量的重要指标,对改善温带荒漠土壤质量起着关键作用。本研究旨在探讨温带荒漠不同草地类型中土壤团聚体的分布规律、稳定性和团聚体有机碳含量的变化特征及其相互关系。研究对象为陇中黄土高原温带荒漠中的四种草地类型(Kalidium foliatum类型、Reaumuria songarica类型、Salsola passerina类型和Sypegma regelii类型)。以陇中黄土高原为研究对象,采用湿筛法测定了土壤团粒粒径分布特征。通过计算集料稳定性指标和集料粒径 SOC 对土壤体积 SOC 含量的贡献率,分析了土壤集料的稳定性。利用相关分析、主成分分析和线性拟合方程揭示了土壤集料含量和集料粒径 SOC 与集料稳定性之间的关系。结果表明,各土层(0-10 厘米、10-20 厘米和 20-30 厘米)中 0.25 毫米集料含量(R0.25)、平均重量直径(MWD)、几何平均直径(GMD)和土壤中体积 SOC 含量均与集料粒径 SOC 有关。均显著高于 R. songarica 类型和 S. regelii 类型(P<0.05)。K. foliatum类型草地各土层中粒径为0.053-0.25 mm和<0.053 mm的SOC含量明显高于S. regelii类型草地(P<0.05)。表层和地下土壤(0-10 cm 和 10-20 cm)粒径为 0.25-2 mm 的 SOC 对土壤 SOC 含量的贡献率明显最高(P<0.05)。此外,随着土层的加深,K. foliatum类型草地的R0.25、MWD、GMD、块土和集料SOC含量呈先增后减的趋势,其中10-20 cm含量最高。褶皱草类型草地的集料含量以 0.25-2 毫米的集料为主,而其他三种草地类型则以 0.053-0.25 毫米的集料为主。此外,土壤容重 SOC 含量与 R0.25、MWD、GMD 和 ELT 显著相关(P<0.01),0.25 mm 的团聚体是正相关和负相关的临界粒径。R0.25、MWD、GMD和ELT值是影响草地土壤SOC总量的关键因素。与土壤SOC含量和GMD拟合的方程最适合描述SOC含量与土壤团粒稳定性之间的关系。因此,与其他草地类型相比,K. foliatum 类型草地对土壤团聚体稳定性和土壤质量的改善具有促进作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Distribution Characteristics of Soil Aggregate Stability and Organic Carbon of Different Grassland Types in the Temperate Desert of Longzhong Loess Plateau].

Soil aggregate stability and organic carbon (SOC) are important indicators of soil structure and quality and play a key role in the improvement of soil quality in temperate deserts. This study aimed to investigate the distribution patterns, stability of soil aggregates, and variation characteristics of the content of aggregate organic carbon in different grassland types in temperate deserts and their interrelationships. Four grassland types in a temperate desert (Kalidium foliatum type, Reaumuria songarica type, Salsola passerina type, and Sympegma regelii type) in the Longzhong Loess Plateau as research objects, and the soil aggregate particle size distribution characteristics were determined using the wet sieving method. The stability of soil aggregates was analyzed by calculating aggregate stability indicators and the contribution of aggregate particle size SOC to bulk soil SOC content. Correlation analysis, principal component analysis, and linear fitting equations were used to reveal the relationship between the soil aggregate content and aggregate particle size SOC and aggregate stability. The results showed that the content of >0.25 mm aggregates (R0.25), mean weight diameter (MWD), geometric mean diameter (GMD), and bulk soil SOC content in each soil layer (0-10, 10-20, and 20-30 cm) of the K. foliatum type grassland were significantly higher than that of the R. songarica type and S. regelii type (P<0.05). The SOC content of 0.053-0.25 mm and <0.053 mm particle size in each soil layer of the K. foliatum type grassland were significantly higher than that of the S. regelii type (P<0.05). Surface and subsurface soils (0-10 cm and 10-20 cm) had the significantly highest contribution of 0.25-2 mm particle size SOC to the bulk soil SOC content (P<0.05). Additionally, as the soil layer deepened, the R0.25, MWD, GMD, bulk soil, and aggregate SOC contents of the K. foliatum type grassland showed a tendency to increase first and then decrease, with the highest contents from 10-20 cm. Kalidium foliatum type grassland aggregate content was dominated by 0.25-2 mm aggregates, whereas the other three grassland types were dominated by 0.053-0.25 mm aggregates. In addition, bulk soil SOC content was significantly correlated with R0.25, MWD, GMD, and ELTP<0.01), and the 0.25 mm aggregate was the critical size of positive and negative correlation. R0.25, MWD, GMD, and ELT values were the key factors influencing bulk soil SOC in grassland. The equation fitted to bulk soil SOC content, and GMD was the most suitable to describe the relationship between SOC content and the stability of soil aggregates. Therefore, compared with other grassland types, K. foliatum type grassland had a promoting effect on the soil aggregate stability and the improvement of soil quality.

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环境科学
环境科学 Environmental Science-Environmental Science (all)
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4.40
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