Vegetation restoration affects soil hydrological processes in typical natural and planted forests on the Loess Plateau

黄土高原 植被(病理学) 黄土 水文学(农业) 自然(考古学) 环境科学 天然林 高原(数学) 地质学 土壤科学 自然地理学 林业 农林复合经营 地理 地貌学 岩土工程 数学分析 病理 古生物学 医学 数学
作者
Xiru Liu,Tianjiao Feng,Yufei Zhang,Yabo Liu,Ping Wang
出处
期刊:Journal of Hydrology [Elsevier BV]
卷期号:650: 132465-132465 被引量:35
标识
DOI:10.1016/j.jhydrol.2024.132465
摘要

• Soil hydrological properties differ among vegetation types after long-term restoration. • The understory vegetation attributes and soil properties of natural forest are excellent. • Vegetation indirectly enhances soil hydrological capacity by directly improving soil properties. • Results provide valuable data for ecosystem restoration and nature-based resource utilization. Globally, vegetation restoration has long been a crucial method for ecohydrological remediation in fragile ecosystems. However, a more comprehensive understanding of how vegetation attributes and environmental factors collectively influence hydrological processes is essential for ensuring the practicability and attainability of sustainable vegetation restoration. This study focused on four typical vegetation restoration types in Caijiachuan National Forest Park (36°14′27″-36°18′23″N, 110°39′45″-110°47′45″E), Ji County, Shanxi Province, on the Loess Plateau: Pinus tabuliformis planted forest, Platycladus orientalis planted forest, Robinia pseudoacacia planted forest, and natural secondary forest. From 2017 to 2022, the study investigated soil properties, soil water dynamics in the 0–200 cm layer, surface soil infiltration, understory attributes, and water-holding capacity. The findings were as follows: (1) Natural secondary forests improve water holding capacity in deep soil layers compared with planted forests. (2) Soil infiltration capacity was significantly higher in the natural secondary forest than planted forests ( p < 0.05). (3) An increase in soil organic matter, total porosity, silt, and a decrease in soil bulk density and soil volumetric water content effectively improved soil infiltration capacity. (4) After near-natural vegetation restoration, vegetation attributes significantly improved soil properties ( p < 0.01), directly impacting soil hydrological processes ( p < 0.001, R 2 = 0.89) and soil water holding capacity ( p < 0.01, R 2 = 0.79). The structural equation model indicated that vegetation restoration indirectly affects soil hydrological processes by directly altering soil properties. Therefore, considering the conditions in arid and semiarid areas like the Loess Plateau, natural secondary forests should be prioritized in vegetation restoration projects. These effects should also be factored into the evaluation of water resource utilization and allocation.
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