评估可持续粮食系统转型应对策略的环境影响

IF 9.9 1区环境科学与生态学 Q1 DEVELOPMENT STUDIES

Sustainable Development Pub Date : 2023-10-17 DOI:10.1002/sd.2795

Jing Yang, Lei Gao, Qi Liu, Zhaoxia Guo

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引用次数: 0

摘要

全球粮食系统被认为是地球稳定的最大压力来源，迫切需要全球迅速向可持续粮食系统转型，这也是实现可持续发展目标和《巴黎协定》目标的关键。虽然已经开发了各种应对策略来实现可持续粮食系统，但尚不清楚不同的应对策略及其组合如何相互影响全球环境功能。在这里，我们使用基于系统动力学的综合评估模型来定量评估五种具有代表性的应对策略的效果，这些策略被公认为实现可持续粮食系统的潜力，以及它们的组合对全球环境的影响。我们使用六个边界指标，对应于六个关键的地球系统过程，并指示全球食品系统的安全操作空间，来定义全球环境绩效。我们的研究结果表明，应对策略的影响可能具有协同效应或抵消效应。虽然一些单独的策略足以使某些边界指标保持在其安全区域内，但只有所有策略的组合才能同时防止所有边界指标进入高风险区域。需要在全球粮食系统内外采取更加协调的解决办法，将所有边界指标恢复到其安全区。

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Assessing environmental impacts of response strategies for sustainable food system transformation

Abstract The global food system is recognized as the largest source of pressure on the Earth's stability, and there is a pressing need for a swift global transformation toward a sustainable food system, which is also crucial for achieving the Sustainable Development Goals (SDGs) and the Paris Agreement goals. While various response strategies have been developed to achieve the sustainable food system, it remains unclear how different response strategies and their combinations interactively affect global environmental functions. Here, we use a system dynamics‐based integrated assessment model to quantitatively assess the effects of five representative response strategies, which are well‐recognized to be potential for achieving a sustainable food system, and their combinations on the global environment. We use six boundary indicators, corresponding to six key Earth system processes and indicating the safe‐operating spaces of the global food system, to define the global environmental performance. Our results show that the effects of response strategies may have a synergistic effect or counterbalance. While some individual strategies are sufficient to maintain certain boundary indicators within their safe zones, only the combination of all strategies can simultaneously prevent all boundary indicators from entering high‐risk zones. More coordinated solutions within and outside the global food system are required to restore all boundary indicators to their safe zones.

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来源期刊

Sustainable Development Multiple-

CiteScore

17.30

自引率

11.20%

发文量

168

期刊介绍： Sustainable Development is a publication that takes an interdisciplinary approach to explore and propose strategies for achieving sustainable development. Our aim is to discuss and address the challenges associated with sustainable development and the Sustainable Development Goals. All submissions are subjected to a thorough review process to ensure that our readers receive valuable and original content of the highest caliber.