Abstract
The implementation of ecological projects can largely change regional land use patterns, in turn altering the local hydrological process. Articulating these changes and their effects on ecosystem services, such as water conservation, is critical to understanding the impacts of land use activities and in directing future land planning toward regional sustainable development. Taking Zhangjiakou City of the Yongding River as the study area—a region with implementation of various ecological projects—the impact of land use changes on various hydrological components and water conservation capacity from 2000 to 2015 was simulated based on a soil and water assessment tool model (SWAT). An empirical regression model based on partial least squares was established to explore the contribution of different land use changes on water conservation. With special focus on the forest having the most complex effects on the hydrological process, the impacts of forest type and age on the water conservation capacity are discussed on different scales. Results show that between 2000 and 2015, the area of forest, grassland and cultivated land decreased by 0.05%, 0.98% and 1.64%, respectively, which reduces the regional evapotranspiration (0.48%) and soil water content (0.72%). The increase in settlement area (42.23%) is the main reason for the increase in water yield (14.52%). Most land use covered by vegetation has strong water conservation capacity, and the water conservation capacity of the forest is particularly outstanding. Farmland and settlements tend to have a negative effect on water conservation. The water conservation capacity of forest at all scales decreased significantly with the growth of forest (p < 0.05), while the water conservation capacity of different tree species had no significant difference. For the study area, increasing the forest area will be an effective way to improve the water conservation function, planting evergreen conifers can rapidly improve the regional water conservation capacity, while planting deciduous conifers is of great benefit to long-term sustainable development.
Highlights
IntroductionThe changes in water resources at the basin scale are significantly affected by climate change and human activities
Introduction affiliationsSince the 21st century, problems related to water resources, such as floods, droughts, and water shortages, have caused increasing problems for human production and life [1,2,3,4].The conflict between water supply and demand has caused conflicts between national and local strategies [5].The changes in water resources at the basin scale are significantly affected by climate change and human activities
The calibrated and validated soil and water assessment tool model (SWAT) model was used to simulate the changes of different hydrological components in the Zhangjiakou region of the Guanting Reservoir basin in the upper reaches of the Yongding River under the land use scenarios of 2000, 2010, and 2015
Summary
The changes in water resources at the basin scale are significantly affected by climate change and human activities. Compared with the impact of climate on the water cycle and water availability, human activities play an increasingly important role in controlling the water quality and quantity of watersheds [2,6] The impact is mainly reflected in the different land use scenarios formed by changing the land cover types according to people’s needs, and these change the physical and chemical properties of the underlying surface, license Sustainability 2021, 13, 22 affecting hydrological components such as surface runoff [6], interflow [7], soil water content [6], and evapotranspiration [8,9] and threaten the water safety (quality and quantity) of the area. Analyzing the response of a watershed’s hydrological components to changes in land use is very important for the sustainable development of the watershed, which addresses the interaction between Sustainable Development Goal (SDG) 6 (clean water and sanitation) and SDG 15 (life on land)
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