Environmental Research Series期刊亮点文章——ERL&ERH&ERIS&ERCL&ERW

11 Oct 2025 gabriels
本期内容来自 Environmental Research Letters (ERL)、Environmental Research: Health (ERH)、Environmental Research: Infrastructure and Sustainability (ERIS)、Environmental Research: Climate (ERCL) 与 Environmental Research: Water (ERW),涵盖飓风登陆风险、青少年气候焦虑、海上风电韧性、气候致人类迁移风险建模,以及农民在气候变化下的决策模型等最新研究成果。

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精选文章

The impact of global warming on U.S. hurricane landfall: a storyline approach

Nathan Sparks and Ralf Toumi

This research uses the Imperial College Storm Model (IRIS) to assess how global warming affects North Atlantic hurricane landfall, focusing on changes in potential intensity (PI) while keeping hurricane tracks and frequency constant. Under +2 °C warming, Category 4+ hurricanes in the North Atlantic are projected to become 62% more likely overall and 92% more likely at landfall, driven by increased potential intensity, though uncertainties remain around storm tracks and frequency.

 

Climate anxiety among adolescents in a pediatric emergency  department    

Raymen Rammy Assaf, Shelby K Shelton, Tricia Morphew, Susan Clayton and Jun Wu

New research by Assaf et al. (Including Environmental Research: Health Executive Board Member, Susan Clayton) assesses youth-centred climate anxiety in clinical settings. The research reports elevated climate anxiety among 744 adolescents in an Emergency Department setting, whilst externally validating an abbreviated version of the climate change anxiety scale (CCAS).

 

Building climate resiliency in offshore wind energy expansion plans

Bergen L Kane, Farshid Vahedifard, Eleonora M Tronci, Babak Moaveni and Eric M Hines

The review by Kane et al. highlights the urgent need to ensure offshore wind energy infrastructure is resilient to climate change impacts like rising ocean temperatures and intensifying storms. It combines literature synthesis with global spatial analysis to identify climate hazard hotspots overlapping with major wind energy developments, guiding targeted resilience strategies.

 

A natural hazard risk modelling approach to human displacement – frontiers & challenges

Simona Meiler, Evelyn Mühlhofer, Samuel Lüthi, David N Bresch, Daria Ottonelli, Tatiana Ghizzoni, Eva Trasforini, Roberto Rudari, Lauro Rossi, Indraneel Kasmalkar, Negar Mohammadiamanab, David Daou, Thanh-Loc Nguyen, Dhiraj Raj Gyawali, Magdalena Peter, Robert Oakes, Maxime Souvignet and Sylvain Ponserre

This study presents a global model estimating displacement risk from extreme weather, projecting up to a 157% increase by 2100 under pessimistic climate scenarios. It highlights key modelling advances and limitations, emphasising the need for better data and broader social dimensions to inform climate adaptation and policy.

 

Decoding farmers’ choices in a changing climate: an agent-based model to elucidate risk preferences and water resilience

Paolo Gazzotti, Sandra Ricart, Claudio Gandolfi and Andrea Castelletti

This study introduces ABNexus, an agent-based model that captures farmers’ decision-making under climate change, revealing how risk aversion influences crop and irrigation choices. Survey data from northern Italy show diverse adaptive capacities, helping inform more resilient and locally tailored water management policies.


期刊介绍

Environmental Research Letters

  • 2024年影响因子:5.6  Citescore: 11.1
  • Environmental Research Letters(ERL)以金色开放获取模式出版,作者可选择将原始数据作为补充资料与文章一起发表。所有研究人员可以免费获取这些研究成果。ERL汇聚了关注环境变化及其应对的研究团体和政策制定团体的意见,涵盖了环境科学的所有方面,出版研究快报、综述文章、观点和社论。ERL顺应了环境科学的跨学科发表的趋势,反映了该领域相关的方法、工具和评估战略,得到了来自不同领域的广泛贡献。

Environmental Research: Health

  • Environmental Research: Health(ERH)是一本多学科、开放获取的期刊,致力于在环境和公共卫生的层面上应对重要的全球挑战。并在影响/未来风险、复原力、环境减缓、环境适应、环境安全和最广泛意义上的解决方案方面进行努力。我们鼓励所有的研究方法,包括定性、定量、实验、理论和应用方法、暴露评估、实施研究以及政策分析。

Environmental Research: Infrastructure and Sustainability

  • 2024年影响因子:3.2  Citescore:4.5
  • Environmental Research: Infrastructure and Sustainability(ERIS)是一本涵盖多学科的开放获取期刊,本期刊旨在发表针对各种规模和地理环境的基础建设及其相关系统所面临的各种挑战的研究,以及更广泛意义上的可持续性和持久性研究,包括环境、经济和社会因素等。我们欢迎包括定性、定量、实验性、理论及应用研究的所有方法学研究。

Environmental Research: Climate

  • 2024年影响因子: 5.4  Citescore: 4.0
  • Environmental Research: Climate(ERCL)是一本多学科、开放获取的期刊,致力于解决有关物理科学的重要挑战以及气候系统和全球变化的评估,并在影响/未来风险、复原力、环境减缓、环境适应、环境安全和最广泛意义上的解决方案方面进行努力。我们鼓励所有的研究方法,包括定性、定量、实验、理论和应用方法。

Environmental Research: Water

  • Environmental Research: Water是一本多学科、开放获取的期刊,致力于解决与水相关的重要挑战,并在全球变化、环境关联系统、复原力、环境减缓、环境适应、环境安全和最广泛意义上的解决方案方面进行努力。