期刊
TRENDS IN ECOLOGY & EVOLUTION
卷 37, 期 2, 页码 138-146出版社
CELL PRESS
DOI: 10.1016/j.tree.2021.09.008
关键词
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资金
- Alan Turing Institute under the EPSRC [EP/N510129/1]
- Natural Environment Re-search Council [NE/N005716/1]
- MIBTP-BBSRC PhD fellowship [BB/M01116X/1]
- NERC [NE/N005716/1] Funding Source: UKRI
This study proposes a framework that utilizes artificial intelligence to analyze the relationship between environmental change, biodiversity dynamics, and ecosystem functions. It also predicts the future of ecosystem services under different pollution and climate scenarios. The framework is applied to watersheds and offers a system-level approach for restoring natural capital by associating long-term biodiversity changes with chemical pollution.
Transdisciplinary solutions are needed to achieve the sustainability of ecosystem services for future generations. We propose a framework to identify the causes of ecosystem function loss and to forecast the future of ecosystem services under different climate and pollution scenarios. The framework (i) applies an artificial intelligence (AI) time-series analysis to identify relationships among environmental change, biodiversity dynamics and ecosystem functions; (ii) validates relationships between loss of biodiversity and environmental change in fabricated ecosystems; and (iii) forecasts the likely future of ecosystem services and their socioeconomic impact under different pollution and climate scenarios. We illustrate the framework by applying it to watersheds, and provide system-level approaches that enable natural capital restoration by associating multidecadal biodiversity changes to chemical pollution.
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