文档介绍：96篇空气颗粒物污染ESI高被引论文
ESI高被引论文:由汤森路透(Thomson Reuters)根据ESI收录期刊(2016年11月ESI收录期刊6555种)每两个月根据引文数量统计的22个学科的10 年内被频繁引用,总被引次数与同年度,同学科发表论文相比排名位于全球前1%的论文。
空气颗粒物污染ESI高被引论文96篇(2006-2016)
第 1 条,共 96 条
标题: The pyrohealth transition: bustion emissions have shaped health through human history
作者: Johnston, FH (Johnston, Fay H.); Melody, S (Melody, Shannon); Bowman, DMJS (Bowman, David M. J. S.)
来源出版物: PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES 卷: 371 期: 1696 文献号: 20150173 DOI: .0173 出版年: JUN 5 2016
Web of Science 核心合集中的"被引频次": 6
被引频次合计: 6
引用的参考文献数: 99
摘要: Air pollution from landscape fires, domestic fires and fossil bustion is recognized as the single most important global environmental risk factor for human mortality and is associated with a global burden of disease almost as large as that of o smoking. The shift from a reliance on biomass to fossil fuels for powering economies, broadly described as the pyric transition, frames key patterns in human fire usage and landscape fire activity. These have produced distinct patters of human exposure to air pollution associated with the Agricultural and Industrial Revolutions and post-industrial the Earth global system-wide changes increasingly known as the Anthropocene. Changes in patterns of human fertility, mortality and morbidity associated with economic development have been previously described in terms of demographic, epidemiological and nutrition transitions, yet these frameworks have not explicitly considered the direct consequences bustion emissions for human health. To address this gap, we propose a pyrohealth transition and use data from the Global Burden of Disease (GBD) collaboration pare direct mortality impacts of emissions from landscape fires, domestic fires, fossil bustion and the global epidemic of o smoking. Improving human health and reducing the environmental impacts on the Earth system will require a considerable reduction in biomass and fossil bustion.
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