A Comprehensive Review of Dust Events: Characteristics, Climate Feedbacks, and Public Health Risks
Purpose of Review Dust events are global meteorological disasters, affecting approximately 330 million people across 151 countries, from sub-Saharan Africa to northern China and Australia, with profound impacts on ecosystems, human health, and socioeconomics. The WMO airborne dust bulletin 2023 indi...
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| Published in | Current pollution reports Vol. 11; no. 1; p. 18 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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Springer International Publishing
25.03.2025
Springer Nature B.V |
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| Abstract | Purpose of Review
Dust events are global meteorological disasters, affecting approximately 330 million people across 151 countries, from sub-Saharan Africa to northern China and Australia, with profound impacts on ecosystems, human health, and socioeconomics. The WMO airborne dust bulletin 2023 indicates that, dust concentrations in the most severely affected regions worldwide exceeded long-term averages, causing significant impacts on the global environment, economy, and public health.
Recent Findings
In recent years, as climate change has led to an increasing frequency and intensity of extreme weather events, research on the interactions between dust aerosols and the climate system, as well as their impacts on human health, has gradually become a hot topic. Studies have revealed the critical role of direct radiative feedback from East Asian dust in exacerbating dust-related air pollution in northern China. Other research highlights the combined effects of Arctic Sea ice anomalies, La Niña events, and a warmer northwestern Atlantic in creating loose, dry surface conditions across Mongolia, along with the formation of the strongest Mongolian cyclone in the past decade, which provided favorable dynamical disturbances and transport conditions for dust events. Furthermore, dust events have been shown to significantly increase the mortality risk from respiratory diseases, particularly chronic lower respiratory diseases and chronic obstructive pulmonary disease (COPD). Circulatory disease mortality risks, including ischemic stroke and hypertensive heart disease, have also risen. These findings underscore the importance of further exploring the interactions between dust aerosols and regional climate, as well as their multidimensional impacts on human health.
Summary
Dust events, as a global arid meteorological disaster, affect vast regions worldwide. In China, the severe spring dust storm of 2021 caused significant adverse impacts and economic losses across many northern cities. To enhance global awareness of dust events, strengthen international cooperation, and mitigate their impacts, the United Nations (UN) has designated 2025–2034 as the "UN Decade for Combating Sand and Dust Storms". Implementing effective dust control policies, building climate-resilient health systems, and enhancing efforts in risk mitigation, prevention, response, and recovery can significantly reduce health risks. This review aims to summarize recent advances in research on the impacts of dust on climate and human health. It contributes to expanding our understanding of the climatic effects of dust aerosols and provides crucial scientific evidence for addressing climate change and developing strategies to mitigate health risks associated with dust exposure. |
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| AbstractList | PURPOSE OF REVIEW: Dust events are global meteorological disasters, affecting approximately 330 million people across 151 countries, from sub-Saharan Africa to northern China and Australia, with profound impacts on ecosystems, human health, and socioeconomics. The WMO airborne dust bulletin 2023 indicates that, dust concentrations in the most severely affected regions worldwide exceeded long-term averages, causing significant impacts on the global environment, economy, and public health. RECENT FINDINGS: In recent years, as climate change has led to an increasing frequency and intensity of extreme weather events, research on the interactions between dust aerosols and the climate system, as well as their impacts on human health, has gradually become a hot topic. Studies have revealed the critical role of direct radiative feedback from East Asian dust in exacerbating dust-related air pollution in northern China. Other research highlights the combined effects of Arctic Sea ice anomalies, La Niña events, and a warmer northwestern Atlantic in creating loose, dry surface conditions across Mongolia, along with the formation of the strongest Mongolian cyclone in the past decade, which provided favorable dynamical disturbances and transport conditions for dust events. Furthermore, dust events have been shown to significantly increase the mortality risk from respiratory diseases, particularly chronic lower respiratory diseases and chronic obstructive pulmonary disease (COPD). Circulatory disease mortality risks, including ischemic stroke and hypertensive heart disease, have also risen. These findings underscore the importance of further exploring the interactions between dust aerosols and regional climate, as well as their multidimensional impacts on human health. Dust events, as a global arid meteorological disaster, affect vast regions worldwide. In China, the severe spring dust storm of 2021 caused significant adverse impacts and economic losses across many northern cities. To enhance global awareness of dust events, strengthen international cooperation, and mitigate their impacts, the United Nations (UN) has designated 2025–2034 as the "UN Decade for Combating Sand and Dust Storms". Implementing effective dust control policies, building climate-resilient health systems, and enhancing efforts in risk mitigation, prevention, response, and recovery can significantly reduce health risks. This review aims to summarize recent advances in research on the impacts of dust on climate and human health. It contributes to expanding our understanding of the climatic effects of dust aerosols and provides crucial scientific evidence for addressing climate change and developing strategies to mitigate health risks associated with dust exposure. Purpose of ReviewDust events are global meteorological disasters, affecting approximately 330 million people across 151 countries, from sub-Saharan Africa to northern China and Australia, with profound impacts on ecosystems, human health, and socioeconomics. The WMO airborne dust bulletin 2023 indicates that, dust concentrations in the most severely affected regions worldwide exceeded long-term averages, causing significant impacts on the global environment, economy, and public health.Recent FindingsIn recent years, as climate change has led to an increasing frequency and intensity of extreme weather events, research on the interactions between dust aerosols and the climate system, as well as their impacts on human health, has gradually become a hot topic. Studies have revealed the critical role of direct radiative feedback from East Asian dust in exacerbating dust-related air pollution in northern China. Other research highlights the combined effects of Arctic Sea ice anomalies, La Niña events, and a warmer northwestern Atlantic in creating loose, dry surface conditions across Mongolia, along with the formation of the strongest Mongolian cyclone in the past decade, which provided favorable dynamical disturbances and transport conditions for dust events. Furthermore, dust events have been shown to significantly increase the mortality risk from respiratory diseases, particularly chronic lower respiratory diseases and chronic obstructive pulmonary disease (COPD). Circulatory disease mortality risks, including ischemic stroke and hypertensive heart disease, have also risen. These findings underscore the importance of further exploring the interactions between dust aerosols and regional climate, as well as their multidimensional impacts on human health.SummaryDust events, as a global arid meteorological disaster, affect vast regions worldwide. In China, the severe spring dust storm of 2021 caused significant adverse impacts and economic losses across many northern cities. To enhance global awareness of dust events, strengthen international cooperation, and mitigate their impacts, the United Nations (UN) has designated 2025–2034 as the "UN Decade for Combating Sand and Dust Storms". Implementing effective dust control policies, building climate-resilient health systems, and enhancing efforts in risk mitigation, prevention, response, and recovery can significantly reduce health risks. This review aims to summarize recent advances in research on the impacts of dust on climate and human health. It contributes to expanding our understanding of the climatic effects of dust aerosols and provides crucial scientific evidence for addressing climate change and developing strategies to mitigate health risks associated with dust exposure. Purpose of Review Dust events are global meteorological disasters, affecting approximately 330 million people across 151 countries, from sub-Saharan Africa to northern China and Australia, with profound impacts on ecosystems, human health, and socioeconomics. The WMO airborne dust bulletin 2023 indicates that, dust concentrations in the most severely affected regions worldwide exceeded long-term averages, causing significant impacts on the global environment, economy, and public health. Recent Findings In recent years, as climate change has led to an increasing frequency and intensity of extreme weather events, research on the interactions between dust aerosols and the climate system, as well as their impacts on human health, has gradually become a hot topic. Studies have revealed the critical role of direct radiative feedback from East Asian dust in exacerbating dust-related air pollution in northern China. Other research highlights the combined effects of Arctic Sea ice anomalies, La Niña events, and a warmer northwestern Atlantic in creating loose, dry surface conditions across Mongolia, along with the formation of the strongest Mongolian cyclone in the past decade, which provided favorable dynamical disturbances and transport conditions for dust events. Furthermore, dust events have been shown to significantly increase the mortality risk from respiratory diseases, particularly chronic lower respiratory diseases and chronic obstructive pulmonary disease (COPD). Circulatory disease mortality risks, including ischemic stroke and hypertensive heart disease, have also risen. These findings underscore the importance of further exploring the interactions between dust aerosols and regional climate, as well as their multidimensional impacts on human health. Summary Dust events, as a global arid meteorological disaster, affect vast regions worldwide. In China, the severe spring dust storm of 2021 caused significant adverse impacts and economic losses across many northern cities. To enhance global awareness of dust events, strengthen international cooperation, and mitigate their impacts, the United Nations (UN) has designated 2025–2034 as the "UN Decade for Combating Sand and Dust Storms". Implementing effective dust control policies, building climate-resilient health systems, and enhancing efforts in risk mitigation, prevention, response, and recovery can significantly reduce health risks. This review aims to summarize recent advances in research on the impacts of dust on climate and human health. It contributes to expanding our understanding of the climatic effects of dust aerosols and provides crucial scientific evidence for addressing climate change and developing strategies to mitigate health risks associated with dust exposure. |
| ArticleNumber | 18 |
| Author | Du, Shikang Zhang, Lihui Yang, Jiabin Huang, Jianping Lian, Lulu Chen, Siyu |
| Author_xml | – sequence: 1 givenname: Lulu surname: Lian fullname: Lian, Lulu organization: College of Atmospheric Sciences, Lanzhou University – sequence: 2 givenname: Jianping surname: Huang fullname: Huang, Jianping email: hjp@lzu.edu.cn organization: College of Atmospheric Sciences, Lanzhou University, Key Laboratory for Semi-Arid Climate Change of the Ministry of Education, Lanzhou University – sequence: 3 givenname: Siyu surname: Chen fullname: Chen, Siyu organization: College of Atmospheric Sciences, Lanzhou University, Key Laboratory for Semi-Arid Climate Change of the Ministry of Education, Lanzhou University – sequence: 4 givenname: Shikang surname: Du fullname: Du, Shikang organization: College of Atmospheric Sciences, Lanzhou University, College of Earth and Environmental Sciences, Lanzhou University – sequence: 5 givenname: Lihui surname: Zhang fullname: Zhang, Lihui organization: College of Atmospheric Sciences, Lanzhou University – sequence: 6 givenname: Jiabin surname: Yang fullname: Yang, Jiabin organization: College of Atmospheric Sciences, Lanzhou University |
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Dust events are global meteorological disasters, affecting approximately 330 million people across 151 countries, from sub-Saharan Africa to... Purpose of ReviewDust events are global meteorological disasters, affecting approximately 330 million people across 151 countries, from sub-Saharan Africa to... PURPOSE OF REVIEW: Dust events are global meteorological disasters, affecting approximately 330 million people across 151 countries, from sub-Saharan Africa to... |
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| SubjectTerms | Academic disciplines Aerosols Agricultural production Air pollution Aquatic Pollution Arctic Ocean Atmosphere Atmospheric Protection/Air Quality Control/Air Pollution Australia Cardiovascular diseases China Chronic obstructive pulmonary disease climate Climate action Climate change Climate effects Climate system Data analysis Deserts Dust Dust control Dust storms Earth and Environmental Science Economic impact Emissions Environment Environmental impact Environmental Law/Policy/Ecojustice Extreme weather Feedback Health risk assessment Health risks Heart diseases Heavy metals human health Ice environments Industrial Pollution Prevention Influence International cooperation Ischemia La Nina Literature reviews Lung diseases Microorganisms Mongolia Monitoring/Environmental Analysis Mortality Mortality risk Outdoor air quality Pollution Precipitation Public health Regions Remote sensing Respiratory diseases respiratory tract diseases Review risk risk reduction sand Sea ice Simulation socioeconomics spring Storms stroke Sub-Saharan Africa Topical Collection on Air Pollution Waste Water Technology Water Management Water Pollution Control |
| Title | A Comprehensive Review of Dust Events: Characteristics, Climate Feedbacks, and Public Health Risks |
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