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坡度和植被模式对干热河谷水土保持效益的影响

Huang Shun He Guangxiong Zhang Binyan Liao Zhouyu Sun Xiaoyuan Fang Haidong

水土保持通报2025，Vol.45Issue(6)：50-58,9.

水土保持通报2025，Vol.45Issue(6)：50-58,9.DOI:10.13961/j.cnki.stbctb.2025.06.003

坡度和植被模式对干热河谷水土保持效益的影响

Effects of slope gradients and vegetation patterns on soil and water conservation benefits in dry-hot valleys

Huang Shun ¹He Guangxiong ²Zhang Binyan ²Liao Zhouyu ³Sun Xiaoyuan ¹Fang Haidong²

作者信息

1. College of Soil and Water Conservation,Southwest Forestry University,Kunming,Yunnan 650000,China
2. Tropical Eco-Agriculture Research Institute,Yunnan Academy of Agricultural Sciences,Yuanmou,Yunnan 651300,China||Yunnan Key Laboratory of Soil Erosion Prevention and Green Development,Yuanmou,Yunnan 651300,China||Yunnan Yuanmou Jinlei National Water and Soil Conservation Science and Technology Demonstration Park,Yuanmou,Yunnan 651300,China
3. College of Ecology and Environment,Southwest Forestry University,Kunming,Yunnan 650000,China
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摘要

Abstract

[Objective]The soil and water conservation benefits of different slope gradients and vegetation patterns in dry-hot valleys were analyzed in order to provide a reference for selecting soil and water conservation patterns in the Yuanmou dry-hot valley.[Methods]Experimental plots with slopes of 5° and 10° were established to conduct in-situ monitoring of runoff and sediment under three typical vegetation patterns:Heteropogon contortus,H.contortus+Phyllanthus emblica,and H.contortus+Dodonaea viscosa.The differences in runoff and sediment yield under different slope gradients and vegetation patterns were then compared.[Results]① The rainfall-runoff distribution for the three vegetation patterns and bare land under slope gradients of 5° and 10° was dominated by surface runoff(80.94％—99.11％).② The three vegetation patterns significantly reduced surface runoff(73.13％—86.87％)and soil loss(69.29％—94.47％)by regulating runoff distribution across different soil layers,while correspondingly increasing interflow at depths of 50 cm and 100 cm(107.14％—980.00％and 47.17％—225.00％,respectively).③ At slope gradients of 5° and 10°,compared with bare land,H.contortus+P.emblica showed the greatest increase in interflow at 100 cm depth(225.00％and 181.13％,respectively)and effectively reduced soil loss(70.06％and 92.27％,respectively).This pattern simultaneously demonstrated the functions of soil stabilization and water retention.④ Among all rainfall characteristics,rainfall amount was most closely related to surface runoff,with a correlation coefficient of r=0.665(p<0.05).Specifically,rainstorms significantly increased surface runoff,causing the annual average surface runoff on 5° and 10° slopes to increase by 339.45％and 148.30％,respectively,compared with relatively heavy rain.[Conclusion]Soil erosion in dry-hot valleys is mainly affected by the combined effects of rainfall amount and surface runoff.The three vegetation patterns at the slope gradients of 5° and 10° achieve the goal of soil stabilization and water retention by regulating runoff distribution across different soil layers.Among them,H.contortus+P.emblica not only effectively reduce surface runoff but also effectively direct rainfall into deeper soil layers and reduce the sediment content in runoff.It is identified as the dominant vegetation pattern for regional soil and water conservation.

关键词

坡度/植被模式/径流分配/壤中流/土壤流失量

Key words

slope gradient/vegetation pattern/runoff distribution/interflow/soil loss

分类

农业科技

引用本文复制引用

Huang Shun,He Guangxiong,Zhang Binyan,Liao Zhouyu,Sun Xiaoyuan,Fang Haidong..坡度和植被模式对干热河谷水土保持效益的影响[J].水土保持通报,2025,45(6):50-58,9.

基金项目

云南省水土流失与绿色发展重点实验室项目"云南省水土流失防治技术研发"(202205AK070026-01) （202205AK070026-01）

云南省创新引导与科技型企业培育计划"建设元谋乡村振兴科技创新县"项目(202304BT090025-04) （202304BT090025-04）

金沙江干热河谷植被生态站监测项目(2025-YN-18) （2025-YN-18）

水土保持通报

OA北大核心

ISSN：1000-288X

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