中国水土保持科学2025,Vol.23Issue(1):90-101,12.DOI:10.16843/j.sswc.2024031
金沙江干热河谷不同区段植被恢复对水土保持特征的影响
Effects of vegetation restoration on soil and water conservation characteristics in different zones of the Dry-Hot Valley of the Jinsha River
摘要
Abstract
[Background]Severe soil erosion in the Dry-Hot Valley of the Jinsha River causes significant challenges to the zone's ecological security and functions,seriously affecting social and economic activities.Investigating the soil and water conservation characteristics and influencing factors of natural forests,planted forests,and savanna of valley type in the upper,middle,and lower reaches of the Dry-Hot Valley of the Jinsha River is crucial for soil and water conservation and ecological restoration in this zone.[Methods]In this study,22 sampling sites were established in the upper reaches,13 sampling sites in the middle reaches,and 12 sampling sites in the lower reaches.Data were collected through comprehensive field investigations,sample collection,and subsequent laboratory analysis,and the soil and water conservation capacity characteristics and influencing factors of natural forests,planted forests,and savanna of valley type in the upper,middle,and lower reaches were studied.[Results]1)Natural forests show the best characteristics in terms of surface vegetation,soil porosity,and soil water-holding capacity,resulting in the strongest soil and water conservation ability.In contrast,savanna of valley type are of poor surface vegetation growth,a thin litter layer,low soil porosity,and weak soil water-holding capacity,making them more susceptible to severe soil erosion from rain.Therefore,the soil and water conservation capacity under different vegetation types is natural forests>planted forests>savanna of valley type.2)Soil density gradually increases from upstream to downstream,while soil porosity,soil water-holding capacity and soil drainage capacity gradually decrease from upstream to downstream.Therefore,the soil and water conservation capacity in the upper,middle,and lower reaches of the Dry-Hot Valley of the Jinsha River is as follows:upper reaches>middle reaches>lower reaches,the difference in soil water conservation capacity between the middle and lower reaches is not significant(P>0.05).3)The characteristics of soil porosity and soil water-holding capacity of the surface layer(0-15 cm)are superior to the subsurface layer(15-30 cm)in different sections of the Dry-Hot Valley of the Jinsha River.Therefore,the soil and water conservation capacity of surface and subsurface layers soils in the Dry-Hot Valley of the Jinsha River is as follows:surface layer>subsurface layer.[Conclusions]The soil under planted forests shows substantial improvement compared to savanna of valley type in terms of vegetation growth state,coverage,soil porosity,and soil water-holding capacity.This indicates that artificial afforestation measures effectively promote soil and water conservation and ecological restoration in the Dry-Hot Valley of the Jinsha River,indicating that it is an effective measure for preventing and controlling soil and water loss.关键词
植被恢复/水土保持/土壤孔隙度/土壤持水性/干热河谷Key words
vegetation recovery/water and soil conservation/soil porosity/soil water-holding capacity/Dry-Hot Valley分类
农业科技引用本文复制引用
阮长明,马绍东,王必海,王猛,欧朝蓉,孙永玉,张春华..金沙江干热河谷不同区段植被恢复对水土保持特征的影响[J].中国水土保持科学,2025,23(1):90-101,12.基金项目
云南省自然生态监测项目"元谋干热河谷生态监测"(2023-YN-07) (2023-YN-07)
国家林业和草原局林草科技创新平台项目"云南元谋干热河谷生态系统国家定位观测研究站"(2022132108) (2022132108)
