Scenario Simulation of Ecosystem Services Based on Land Use/Land Cover Change in the Bailong River Basin, in China DOI Creative Commons

Shuangying Li,

Yanyan Zhou, Dongxia Yue

et al.

Land, Journal Year: 2024, Volume and Issue: 14(1), P. 25 - 25

Published: Dec. 26, 2024

Land use/land cover changes (LUCCs) significantly reshape ecosystem services (ESs) within the framework of climate change. Studying LUCC and its impact on ESs is crucial for a comprehensive understanding human activities ecosystems. The InVEST model coupled with predicted land use data were used to analyze spatiotemporal characteristics four (soil conservation (SC), water yield (WY), carbon storage (CS), habitat quality (HQ)) under three scenarios from 2040 2100 quantified trade-offs/synergies bundles these Bailong River Basin (BRB). results indicated that (1) SSP1-2.6 scenario, there an anticipated increase in forestland, concurrent decrease grassland, farmland, built-up land, enhancement 2100. forestland farmland SSP2-4.5 scenario showed gradual decrease, expansion grassland land. Except HQ, other reduced. Both decreased. Built-up increased, decreased SSP5-8.5 scenario. (2) Synergistic effects identified among ESs, most pronounced synergy observed between CS HQ. Spatially, six pairs synergistic effects. Under scenarios, present trade-off (3) characterization ES revealed balanced predominantly occurred southern region basin. Among had highest representation, followed by SSP2-4.5, while lowest proportion. findings facilitate sustainable development diverse offer theoretical technical insights devising spatial regulation policies ecosystem-based management strategies.

Language: Английский

Scenario Simulation of Ecosystem Services Based on Land Use/Land Cover Change in the Bailong River Basin, in China DOI Creative Commons

Shuangying Li,

Yanyan Zhou, Dongxia Yue

et al.

Land, Journal Year: 2024, Volume and Issue: 14(1), P. 25 - 25

Published: Dec. 26, 2024

Land use/land cover changes (LUCCs) significantly reshape ecosystem services (ESs) within the framework of climate change. Studying LUCC and its impact on ESs is crucial for a comprehensive understanding human activities ecosystems. The InVEST model coupled with predicted land use data were used to analyze spatiotemporal characteristics four (soil conservation (SC), water yield (WY), carbon storage (CS), habitat quality (HQ)) under three scenarios from 2040 2100 quantified trade-offs/synergies bundles these Bailong River Basin (BRB). results indicated that (1) SSP1-2.6 scenario, there an anticipated increase in forestland, concurrent decrease grassland, farmland, built-up land, enhancement 2100. forestland farmland SSP2-4.5 scenario showed gradual decrease, expansion grassland land. Except HQ, other reduced. Both decreased. Built-up increased, decreased SSP5-8.5 scenario. (2) Synergistic effects identified among ESs, most pronounced synergy observed between CS HQ. Spatially, six pairs synergistic effects. Under scenarios, present trade-off (3) characterization ES revealed balanced predominantly occurred southern region basin. Among had highest representation, followed by SSP2-4.5, while lowest proportion. findings facilitate sustainable development diverse offer theoretical technical insights devising spatial regulation policies ecosystem-based management strategies.

Language: Английский

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