Guiding and constraining reclamation for coastal zone through identification of response thresholds for ecosystem services supply–demand relationships

土地复垦 背景(考古学) 生态系统服务 生态系统 环境资源管理 供求关系 环境科学 自然资源经济学 业务 生态学 经济 地理 生物 考古 微观经济学
作者
Chenghao Liu,Xiaolu Yan,Han Zeng-lin,Yaobin Liu,Xiuzhen Li,Xinyuan Li,Jingqiu Zhong
出处
期刊:Land Degradation & Development [Wiley]
卷期号:35 (5): 1804-1817 被引量:8
标识
DOI:10.1002/ldr.5022
摘要

Abstract Enhancing the understanding and management of ecosystem services (ESs) supply and demand under the influence of global change is crucial for sustaining human well‐being and promoting sustainable development. However, the comprehension of changes in ecosystem service dynamics in the face of complex human disturbances remains limited. This study focuses on four representative ESs in the northern Liaodong Bay, a typical global estuary wetland, to elucidate alterations in the supply and demand of these ESs and comprehend the impact mechanisms arising from reclamation activities. The findings reveal the following key insights: between 1993 and 2020, the supply and demand for water yield disparity became increasingly pronounced, while the equilibrium between supply and demand for carbon storage shifted from surplus to balance. In contrast, the excess supply–demand of food supply and landscape esthetics remained relatively consistent. This study delves deeper into the non‐linear relationship between reclamation activities and ESs supply–demand relationships, with each ecosystem service exhibiting distinct patterns. As reclamation intensity rises, the supply–demand ratio of ESs exhibits varying trends: food supply and carbon storage demonstrate an inverted U‐shaped relationship, water yield follows a U‐shaped pattern, and landscape esthetics progressively decline. By identifying reclamation thresholds, different management strategies should be applied to areas exceeding and falling below these thresholds, with constraints and guidance being necessary for the former and the latter, respectively. These findings advance our understanding of ESs dynamics in the context of human‐driven changes and provide practical implications for sustainable ecosystem management in coastal areas.
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