A study on matching supply and demand of ecosystem services in the Hexi region of China based on multi-source data

To achieve the best management of the ecosystem and sustainable socioeconomic development, it is crucial to clarify the matching relationship between the supply and demand of ecosystem services (ESs). Four types of ESs were chosen for the Hexi region in this study: food supply, carbon sequestration,...

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Bibliographic Details
Published in:Scientific reports 2024-01, Vol.14 (1), p.1332-1332, Article 1332
Main Authors: Zhang, Xuebin, Li, Xuehong, Wang, Ziyang, Liu, Yue, Yao, Litang
Format: Article
Language:English
Subjects:
704/158
704/172
Carbon
Carbon sequestration
Ecosystem services
Ecosystems
Erosion control
Food
Food supply
Humanities and Social Sciences
Mountains
multidisciplinary
Population density
Residential areas
Retention
Science
Science (multidisciplinary)
Sediments
Soil erosion
Spatial distribution
Supply & demand
Sustainable development
Water demand
Water yield
Wind erosion
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Summary:To achieve the best management of the ecosystem and sustainable socioeconomic development, it is crucial to clarify the matching relationship between the supply and demand of ecosystem services (ESs). Four types of ESs were chosen for the Hexi region in this study: food supply, carbon sequestration, water yield, wind erosion control and sediment retention. We assessed the supply–demand and matching relationships of different ESs using the Integrated Valuation of Ecosystem Service and Tradeoffs (InVEST) model, the ESs supply–demand ratio and the four-quadrant model. Moreover, we also analyzed the supply–demand ratio of integrated ESs and their cold spots. The findings suggest that (1) from 2000 to 2020, the average supply of food supply, carbon sequestration, water yield, wind erosion control and sediment retention increased by 44.31 t/km 2 , 128.44 t/hm 2 , 14,545.94 m 3 /km 2 and 0.14 kg/m 2 respectively, which showed a spatial pattern of “high in the southeast and low in the northwest”. The average demand for food supply and carbon sequestration increased by 1.33 t/km 2 and 0.32 t/hm 2 respectively, while the average demand for water yield and wind erosion control and sediment retention decreased by 2997.25 m 3 /km 2 and 1.19 kg/km 2 respectively. The spatial distribution is consistent with the layout of population density, production and residential areas, and fragile ecological areas. (2) The supply–demand ratio of food supply, carbon sequestration and water yield is greater than 0.095, which is in a state of oversupply, and the supply–demand ratio of wind erosion control and sediment retention is less than 0, which is in a state of shortage; all ESs are mainly in low-low spatial matching areas, mainly concentrated in the desert areas of the northwest in the Hexi region. (3) The supply–demand ratio of integrated ESs increased by 0.024, and the proportion of cold spots and sub-cold spots was more than 50% and concentrated in the northwest, while hot spots and sub-hot spots accounted for only about 16%, mainly distributed in the southern Qilian Mountains and some oasis areas.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-51805-1