鄂西喀斯特小流域土地利用变化对土壤团聚体稳定性及有机碳储量的影响

doi:10.16843/j.sswc.2024097

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摘要土壤团聚体稳定性及有机碳储量分布特征是深入了解鄂西喀斯特小流域地区碳汇能力的关键，土地利用方式的变化在很大程度上影响土壤固碳能力。为探究鄂西喀斯特小流域地区土地利用变化和人为活动对土壤结构稳定性及有机碳(SOC)储量的影响，以宜昌市下牢溪柏树林（CF）、农田（VF）、石坎农田（ST）、石坎人工林（SF）、天然林（NF） 5种不同土地类型土壤为研究对象，经过干、湿筛对比分析各土地类型土壤粒径分布以及土壤结构稳定性的变化，以期为该区域不同土地利用类型进行结构调整提供理论支持。结果表明：1）不同土地利用方式下， > 2 mm机械稳定性团聚体质量分数比例最多，且呈随粒径减小质量分数降低的趋势； CF土壤的 > 2 mm水稳性团聚体质量分数比例最多，农耕地则相反。2）CF和NF的机械稳定性团聚体和水稳性团聚体的平均质量直径（M_WD）和几何平均直径（G_MD）均比农耕地高，其中CF样地的土壤分形维数D和土壤可蚀性K值最小，表明CF样地具有较高的土壤结构稳定性，土壤抗侵蚀能力较强。3）土壤各粒径团聚体SOC质量分数表现为林地较农耕地显著增加， > 0.25 mm团聚体SOC质量分数最高，土壤团聚体LOC质量分数变化趋势同团聚体SOC类似。4）相关性分析和冗余分析结果表明，土壤团聚体SOC质量分数与分形维数和土壤可蚀性呈极显著负相关关系，而与M_WD 和 G_MD 呈极显著正相关关系， > 2 mm水稳性团聚体质量分数对土壤水稳性影响最显著，表明土壤有机碳在土壤团聚体稳定性和土壤抗侵蚀能力方面都起着重要的作用。鄂西喀斯特小流域土地利用变化对团聚体粒径分布、土壤结构稳定性和团聚体有机碳分布特征影响显著。实行人工植林措施能有效改善土壤结构，提升土壤固碳能力，促进鄂西喀斯特小流域生态环境的改善。

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	何志腾
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	吴琼

关键词 ：土地利用方式, 土壤团聚体, 土壤有机碳, 土壤活性有机碳, 喀斯特地区, 小流域

Abstract：Background Land-use changes significantly affect soil stability and carbon sequestration in karst regions, particularly in small watersheds, which exhibit a heightened response. This study investigates the impact of various land uses on soil aggregate stability and organic carbon distribution in the karst area of Hubei, specifically within the Xialaoxi watershed. The goal is to enhance our understanding of soil structure and the potential for carbon sequestration in these ecosystems. Methods In cypress forest (CF), vegetable farmland (VF), stone terraced field (ST), stone terraced forest (SF), and natural forest (NF), three sample plots were randomly established in each area. Within each plot, soil samples from the original surface layer (0 - 10 cm) were collected using the five-point sampling method. Mechanical stability of soil aggregates and water stability were determined using both dry and wet sieving methods. Organic carbon and active organic carbon contents of the soil in each plot were also measured. Correlation and redundancy analysis methods were employed to thoroughly analyze the impact of soil properties on soil stability. Results 1) Under different land use types, the proportion of > 2 mm mechanically stable aggregates was the highest, and it decreased as the particle size decreased. In forest land, the proportion of > 2 mm water-stable aggregates was the highest, while in farmland, it was the opposite. 2) The mechanical stability aggregates and water stability aggregates of the forest land have higher M_WD and G_MD than those of the cultivated land. The variation types of fractal dimension D and soil erodibility K are exactly opposite. Among them, the D and K values of the CF site are the smallest, indicating that the CF site has higher soil structure stability and stronger soil erosion resistance. 3) Soil aggregate SOC content is significantly higher in forests than in farmland, with the highest SOC content in aggregates > 0.25mm. The trend of soil aggregate LOC content is similar to that of aggregate SOC. 4) Relevance analysis and redundancy analysis results show that the SOC content of soil aggregates of various particle sizes is significantly negatively correlated with fractal dimension and soil erodibility, while it is significantly positively correlated with stability indicators M_WD and G_MD. The content of water-stable aggregates > 2 mm has the most significant impact on soil water stability, indicating that soil organic carbon plays a crucial role in both soil aggregate stability and soil erosion resistance. Conclusions These results indicate that the risk of soil erosion in the Xialaoxi watershed of the western Hubei karst region is relatively high, particularly in agricultural areas. The implementation of artificial afforestation measures can significantly improve soil structure and enhance the capacity for soil carbon sequestration. We should prioritize adjusting land use and implementing artificial afforestation and conservation tillage practices to mitigate the risk of soil erosion in the study area. The relevant research findings can serve as a valuable reference for the sustainable development of land use improvements and ecological protection in the small watersheds of western Hubei karst region.

Key words： land use types soil aggregate soil organic carbon labile organic carbon Karst region small watershed

收稿日期: 2024-07-11

PACS:

S151.9

基金资助:国家自然科学基金 “有机物料类型和掺量对植生水泥土有机碳固定的影响机制”（52200230）；湖北省教育厅科学技术研究计划指导性项目 “鄂西低山丘陵区土地利用转变及年限对橘园土壤团聚体及碳库特征影响研究” （B2022035）

通讯作者: 夏栋（1985—），男，博士，副教授。主要研究方向: 生态修复与水土保持。E-mail：xiadongsanxia@163.com E-mail: xiadongsanxia@163.com

作者简介: 何志腾（1997—），男，硕士研究生。主要研究方向：生态修复。E-mail：m15971633738@163.com

引用本文:

何志腾, 夏栋, 罗婷, 蒋佳媛, 赵冰琴, 付亮, 吴琼. 鄂西喀斯特小流域土地利用变化对土壤团聚体稳定性及有机碳储量的影响[J]. 中国水土保持科学, 2025, 23(1): 200-210.
HE Zhiteng, XIA Dong, LUO Ting, JIANG Jiayuan, ZHAO Bingqin, FU Liang, WU Qiong. Effects of land use change on soil aggregate stability and organic carbon stock in the small watershed of western Hubei karst area. SSWC, 2025, 23(1): 200-210.

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