Global-to-Local Dependencies in Phosphorus Mass Flows and Markets: Pathways to Improving System Resiliency in Response to Exogenous Shocks

IF 8.9 2区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL
Justin Baker*, Nathan Schunk, Matt Scholz, Ashton Merck, Rebecca Logsdon Muenich, Paul Westerhoff, James J. Elser, Owen W. Duckworth, Luke Gatiboni, Minhazul Islam, Anna-Maria Marshall, Rosangela Sozzani and Brooke K. Mayer*, 
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引用次数: 0

Abstract

Uneven global distribution of phosphate rock deposits and the supply chains to transport phosphorus (P) make P fertilizers vulnerable to exogenous shocks, including commodity market shocks; extreme weather events or natural disasters; and geopolitical instability, such as trade disputes, disruption of shipping routes, and war. Understanding bidirectional risk transmission (global-to-local and local-to-global) in P supply and consumption chains is thus essential. Ignoring P system interdependencies and associated risks could have major impacts on critical infrastructure operations and increase the vulnerability of global food systems. We highlight recent unanticipated events and cascading effects that have impacted P markets globally. We discuss the need to account for exogenous shocks in local assessments of P flows, policies, and infrastructure design choices. We also provide examples of how accounting for undervalued global risks to the P industry can hasten the transition to a sustainable P future. For example, leveraging internal P recycling loops, improving plant P use efficiency, and utilizing legacy soil P all enhance system resiliency in the face of exogenous shocks and long-term anticipated threats. Strategies applied at the local level, which are embedded within national and global policy systems, can have global-scale impacts in derisking the P supply chain.

Abstract Image

Abstract Image

磷质量流量和市场从全球到地方的依赖性:提高系统抵御外来冲击能力的途径
全球磷矿分布不均以及磷(P)的运输供应链使磷肥容易受到外来冲击,包括商品市场冲击、极端天气事件或自然灾害以及地缘政治不稳定,如贸易争端、航运路线中断和战争。因此,了解 P 供应和消费链中的双向风险传递(全球到地方和地方到全球)至关重要。忽视粮食系统的相互依存性和相关风险可能会对关键基础设施的运行产生重大影响,并增加全球粮食系统的脆弱性。我们重点介绍了近期影响全球磷市场的意外事件和连带效应。我们讨论了在当地评估磷流动、政策和基础设施设计选择时考虑外源冲击的必要性。我们还举例说明,考虑到被低估的全球磷酸盐行业风险,可以加快向可持续磷酸盐未来的过渡。例如,利用内部钾循环回路、提高植物钾利用效率以及利用遗留土壤中的钾,都能增强系统在面对外来冲击和长期预期威胁时的复原力。在国家和全球政策体系中嵌入地方层面的应用策略,可在降低钾供应链风险方面产生全球性影响。
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来源期刊
Environmental Science & Technology Letters Environ.
Environmental Science & Technology Letters Environ. ENGINEERING, ENVIRONMENTALENVIRONMENTAL SC-ENVIRONMENTAL SCIENCES
CiteScore
17.90
自引率
3.70%
发文量
163
期刊介绍: Environmental Science & Technology Letters serves as an international forum for brief communications on experimental or theoretical results of exceptional timeliness in all aspects of environmental science, both pure and applied. Published as soon as accepted, these communications are summarized in monthly issues. Additionally, the journal features short reviews on emerging topics in environmental science and technology.
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