Spatial nonstationarity and the role of environmental metal exposures on COVID-19 mortality in New Mexico

IF 4 2区 地球科学 Q1 GEOGRAPHY Applied Geography Pub Date : 2024-08-30 DOI:10.1016/j.apgeog.2024.103400
Daniel Beene , Curtis Miller , Melissa Gonzales , Deborah Kanda , Isaiah Francis , Esther Erdei
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Abstract

Worldwide, the COVID-19 pandemic has been influenced by a combination of environmental and sociodemographic drivers. To date, population studies have overwhelmingly focused on the impact of societal factors. In New Mexico, the rate of COVID-19 infection and mortality varied significantly among the state's geographically dispersed, and racially and ethnically diverse populations who are exposed to unique environmental contaminants related to resource extraction industries (e.g. fracking, mining, oil and gas exploration). By looking at local patterns of COVID-19 disease severity, we sought to uncover the spatially varying factors underlying the pandemic. We further explored the compounding role of potential long-term exposures to various environmental contaminants on COVID-19 mortality prior to widespread applications of vaccinations. To illustrate the spatial heterogeneity of these complex associations, we leveraged multiple modeling approaches to account for spatial non-stationarity in model terms. Multiscale geographically weighted regression (MGWR) results indicate that increased potential exposure to fugitive mine waste is significantly associated with COVID-19 mortality in areas of the state where socioeconomically disadvantaged populations were among the hardest hit in the early months of the pandemic. This relationship is paradoxically reversed in global models, which fail to account for spatial relationships between variables. This work contributes both to environmental health sciences and the growing body of literature exploring the implications of spatial nonstationarity in health research.

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空间非平稳性和环境金属暴露对新墨西哥州 COVID-19 死亡率的影响
在全球范围内,COVID-19 的流行受到了环境和社会人口因素的共同影响。迄今为止,人口研究主要侧重于社会因素的影响。在新墨西哥州,COVID-19 的感染率和死亡率在该州地理位置分散、种族和民族多样化的人群中差异显著,这些人群暴露在与资源开采业(如压裂、采矿、石油和天然气勘探)相关的独特环境污染物中。通过研究 COVID-19 疾病严重程度的地方模式,我们试图揭示大流行的空间变化因素。我们进一步探讨了在广泛接种疫苗之前,长期接触各种环境污染物对 COVID-19 死亡率的潜在复合作用。为了说明这些复杂关联的空间异质性,我们采用了多种建模方法来考虑模型项的空间非平稳性。多尺度地理加权回归(MGWR)结果表明,在该州社会经济条件较差的地区,逸散性矿山废料潜在暴露量的增加与 COVID-19 死亡率显著相关。在全球模型中,这种关系恰恰相反,因为全球模型没有考虑变量之间的空间关系。这项研究既有助于环境健康科学,也有助于越来越多的文献探讨空间非平稳性对健康研究的影响。
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来源期刊
Applied Geography
Applied Geography GEOGRAPHY-
CiteScore
8.00
自引率
2.00%
发文量
134
期刊介绍: Applied Geography is a journal devoted to the publication of research which utilizes geographic approaches (human, physical, nature-society and GIScience) to resolve human problems that have a spatial dimension. These problems may be related to the assessment, management and allocation of the world physical and/or human resources. The underlying rationale of the journal is that only through a clear understanding of the relevant societal, physical, and coupled natural-humans systems can we resolve such problems. Papers are invited on any theme involving the application of geographical theory and methodology in the resolution of human problems.
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