Study on spatiotemporal changes of ecosystem service trade-offs/synergies and driving mechanisms in the key zone of mountain-river-sea coupling: A case study of the southwest Guangxi Karst-Beibu Gulf

[Display omitted] •Assessing ecosystem services and trade-offs in Earth's critical zone.•Linking karst, watershed, and coastal zones for ecosystem service and trade-off analysis.•Examining drivers affecting ecosystem service trade-offs/synergy intensity. Understanding the spatiotemporal pattern...

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Bibliographic Details
Published in:Ecological indicators 2024-12, Vol.169, p.112892, Article 112892
Main Authors: Gao, Chunlian, Hu, Baoqing, Wang, Zhenchuan, Huang, Simin, Zhang, Lili
Format: Article
Language:English
Subjects:
carbon sequestration
case studies
China
Driving factors
Earth’s critical zone
Ecosystem services
ecosystems
evapotranspiration
food production
Guangxi
habitats
humans
population density
sediments
soil
sustainable development
Trade-offs/synergies
water yield
watersheds
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Summary:[Display omitted] •Assessing ecosystem services and trade-offs in Earth's critical zone.•Linking karst, watershed, and coastal zones for ecosystem service and trade-off analysis.•Examining drivers affecting ecosystem service trade-offs/synergy intensity. Understanding the spatiotemporal patterns and driving mechanisms of ecosystem service (ES) trade-offs/synergies is crucial for sustainable development and effective ES management in regions experiencing environmental pressures. This study examines the southwest Guangxi Karst-Beibu Gulf, a key mountain-river-sea coupling zone, to reveal these characteristics and mechanisms from 2000 to 2020. Using correlation analysis, geographically weighted regression, and geoprobe, we found that food production (FP), carbon storage and sequestration (CS), and habitat quality (HQ) decreased, sediment delivery ratio (SR) increased and then decreased, and water yield (WY) and nutrient delivery ratio (DR) exhibited opposite trends to SR. Spatially, CS and DR were lower in the central region, whereas WY and FP decreased from southeast to northwest, with HQ and SR exhibiting the opposite pattern. Vertically, FP decreased while other ecosystem services (ESs) increased. ESs in this region were predominantly synergistic, although trade-offs were observed between FP and CS, SR, and DR, particularly within the watershed key zone. Overall, trade-off/synergy areas decreased with increasing elevation with the most significant decrease observed in the Level-IV area. Interactions between precipitation, evapotranspiration, elevation, slope, soil, population density, and human activity index were the primary drivers influencing changes in trade-off/synergistic intensity. Effective ES management should consider these interacting factors to achieve an optimal and sustainable ES provision across the mountain-river-sea region.
ISSN:1470-160X
DOI:10.1016/j.ecolind.2024.112892