A Gannet Hallar, Steven S Brown, Erik Crosman, Kelley Barsanti, Christopher D Cappa, Ian Faloona, Jerome Fast, Heather A Holmes, John Horel, John Lin, Ann Middlebrook, Logan Mitchell, Jennifer Murphy, Caroline C Womack, Viney Aneja, Munkhbayar Baasandorj, Roya Bahreini, Robert Banta, Casey Bray, Alan Brewer, Dana Caulton, Joost de Gouw, Stephan F J De Wekker, Delphine K Farmer, Cassandra J Gaston, Sebastian Hoch, Francesca Hopkins, Nakul N Karle, James T Kelly, Kerry Kelly, Neil Lareau, Keding Lu, Roy L Mauldin, Derek V Mallia, Randal Martin, Daniel Mendoza, Holly J Oldroyd, Yelena Pichugina, Kerri A Pratt, Pablo Saide, Phillip J Silva, William Simpson, Britton B Stephens, Jochen Stutz, Amy Sullivan
{"title":"冬季美国西部盆地耦合空气质量和边界层气象:一项综合研究的设计和基本原理。","authors":"A Gannet Hallar, Steven S Brown, Erik Crosman, Kelley Barsanti, Christopher D Cappa, Ian Faloona, Jerome Fast, Heather A Holmes, John Horel, John Lin, Ann Middlebrook, Logan Mitchell, Jennifer Murphy, Caroline C Womack, Viney Aneja, Munkhbayar Baasandorj, Roya Bahreini, Robert Banta, Casey Bray, Alan Brewer, Dana Caulton, Joost de Gouw, Stephan F J De Wekker, Delphine K Farmer, Cassandra J Gaston, Sebastian Hoch, Francesca Hopkins, Nakul N Karle, James T Kelly, Kerry Kelly, Neil Lareau, Keding Lu, Roy L Mauldin, Derek V Mallia, Randal Martin, Daniel Mendoza, Holly J Oldroyd, Yelena Pichugina, Kerri A Pratt, Pablo Saide, Phillip J Silva, William Simpson, Britton B Stephens, Jochen Stutz, Amy Sullivan","doi":"10.1175/bams-d-20-0017.1","DOIUrl":null,"url":null,"abstract":"<p><p>Wintertime episodes of high aerosol concentrations occur frequently in urban and agricultural basins and valleys worldwide. These episodes often arise following development of persistent cold-air pools (PCAPs) that limit mixing and modify chemistry. While field campaigns targeting either basin meteorology or wintertime pollution chemistry have been conducted, coupling between interconnected chemical and meteorological processes remains an insufficiently studied research area. Gaps in understanding the coupled chemical-meteorological interactions that drive high pollution events make identification of the most effective air-basin specific emission control strategies challenging. To address this, a September 2019 workshop occurred with the goal of planning a future research campaign to investigate air quality in Western U.S. basins. Approximately 120 people participated, representing 50 institutions and 5 countries. Workshop participants outlined the rationale and design for a comprehensive wintertime study that would couple atmospheric chemistry and boundary-layer and complex-terrain meteorology within western U.S. basins. Participants concluded the study should focus on two regions with contrasting aerosol chemistry: three populated valleys within Utah (Salt Lake, Utah, and Cache Valleys) and the San Joaquin Valley in California. This paper describes the scientific rationale for a campaign that will acquire chemical and meteorological datasets using airborne platforms with extensive range, coupled to surface-based measurements focusing on sampling within the near-surface boundary layer, and transport and mixing processes within this layer, with high vertical resolution at a number of representative sites. No prior wintertime basin-focused campaign has provided the breadth of observations necessary to characterize the meteorological-chemical linkages outlined here, nor to validate complex processes within coupled atmosphere-chemistry models.</p>","PeriodicalId":9464,"journal":{"name":"Bulletin of the American Meteorological Society","volume":"0 ","pages":"1-94"},"PeriodicalIF":6.9000,"publicationDate":"2021-06-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8384125/pdf/nihms-1731580.pdf","citationCount":"9","resultStr":"{\"title\":\"Coupled Air Quality and Boundary-Layer Meteorology in Western U.S. Basins during Winter: Design and Rationale for a Comprehensive Study.\",\"authors\":\"A Gannet Hallar, Steven S Brown, Erik Crosman, Kelley Barsanti, Christopher D Cappa, Ian Faloona, Jerome Fast, Heather A Holmes, John Horel, John Lin, Ann Middlebrook, Logan Mitchell, Jennifer Murphy, Caroline C Womack, Viney Aneja, Munkhbayar Baasandorj, Roya Bahreini, Robert Banta, Casey Bray, Alan Brewer, Dana Caulton, Joost de Gouw, Stephan F J De Wekker, Delphine K Farmer, Cassandra J Gaston, Sebastian Hoch, Francesca Hopkins, Nakul N Karle, James T Kelly, Kerry Kelly, Neil Lareau, Keding Lu, Roy L Mauldin, Derek V Mallia, Randal Martin, Daniel Mendoza, Holly J Oldroyd, Yelena Pichugina, Kerri A Pratt, Pablo Saide, Phillip J Silva, William Simpson, Britton B Stephens, Jochen Stutz, Amy Sullivan\",\"doi\":\"10.1175/bams-d-20-0017.1\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Wintertime episodes of high aerosol concentrations occur frequently in urban and agricultural basins and valleys worldwide. 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Workshop participants outlined the rationale and design for a comprehensive wintertime study that would couple atmospheric chemistry and boundary-layer and complex-terrain meteorology within western U.S. basins. Participants concluded the study should focus on two regions with contrasting aerosol chemistry: three populated valleys within Utah (Salt Lake, Utah, and Cache Valleys) and the San Joaquin Valley in California. This paper describes the scientific rationale for a campaign that will acquire chemical and meteorological datasets using airborne platforms with extensive range, coupled to surface-based measurements focusing on sampling within the near-surface boundary layer, and transport and mixing processes within this layer, with high vertical resolution at a number of representative sites. 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Coupled Air Quality and Boundary-Layer Meteorology in Western U.S. Basins during Winter: Design and Rationale for a Comprehensive Study.
Wintertime episodes of high aerosol concentrations occur frequently in urban and agricultural basins and valleys worldwide. These episodes often arise following development of persistent cold-air pools (PCAPs) that limit mixing and modify chemistry. While field campaigns targeting either basin meteorology or wintertime pollution chemistry have been conducted, coupling between interconnected chemical and meteorological processes remains an insufficiently studied research area. Gaps in understanding the coupled chemical-meteorological interactions that drive high pollution events make identification of the most effective air-basin specific emission control strategies challenging. To address this, a September 2019 workshop occurred with the goal of planning a future research campaign to investigate air quality in Western U.S. basins. Approximately 120 people participated, representing 50 institutions and 5 countries. Workshop participants outlined the rationale and design for a comprehensive wintertime study that would couple atmospheric chemistry and boundary-layer and complex-terrain meteorology within western U.S. basins. Participants concluded the study should focus on two regions with contrasting aerosol chemistry: three populated valleys within Utah (Salt Lake, Utah, and Cache Valleys) and the San Joaquin Valley in California. This paper describes the scientific rationale for a campaign that will acquire chemical and meteorological datasets using airborne platforms with extensive range, coupled to surface-based measurements focusing on sampling within the near-surface boundary layer, and transport and mixing processes within this layer, with high vertical resolution at a number of representative sites. No prior wintertime basin-focused campaign has provided the breadth of observations necessary to characterize the meteorological-chemical linkages outlined here, nor to validate complex processes within coupled atmosphere-chemistry models.
期刊介绍:
The Bulletin of the American Meteorological Society (BAMS) is the flagship magazine of AMS and publishes articles of interest and significance for the weather, water, and climate community as well as news, editorials, and reviews for AMS members.