Collaborative Research: Towards Further Understanding of Aerosol Pollution Impacts on Tropical Cyclones

合作研究：进一步了解气溶胶污染对热带气旋的影响

• 批准号: 1547903
• 负责人: Robert Walko
• 金额: $ 17.31万
• 依托单位: University of Miami
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2016
• 资助国家: 美国
• 起止时间: 2016-02-15 至 2019-05-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1547903&HistoricalAwards=false
• 关键词: Collaborative; Research; Towards; Further; Understanding

A variety of human activities result in the transportation of different types of particles into the atmosphere. These particles, known as aerosols in the atmospheric science community, have been shown to impact clouds and precipitation. This project will study three different tropical cyclones to determine whether aerosols affect the weakening or strengthening of these storms, and whether it depends on when and where the aerosols interact with the storm. The research is important because it will help to determine whether aerosol impacts on tropical cyclones should be included as a priority investment area for improving weather and climate models. The project will also contribute to the training of the next generation of scientists through the inclusion of a graduate student in the research.The researchers plan to address the impact of pollution aerosols on tropical cyclone intensity. Prior observational and modeling studies have come to differing conclusions on whether these aerosols weaken or strengthen a storm. The researchers hypothesize that a key factor is the location in the storm where the enhanced aerosols are introduced. The planned work will consist of joining the GEOS-Chem atmospheric chemistry model to the Ocean-Land-Atmosphere Model (OLAM) and performing a number of simulations on three well-observed storms: western Pacific typhoon Nuri (2008), hurricane Sandy (2012), and hurricane Humberto (2007). The main hypotheses of the proposal are: 1) The response of a mature tropical cyclone to anthropogenic aerosols depends on the distribution of aerosols within the tropical cyclone with more aerosols entering the outer rainband region of the storm contributing to storm weakening whereas more aerosols entering the eyewall and inner rainband region contributing to storm intensification, 2) Anthropogenic aerosols ingested in a tropical disturbance, or a tropical storm, have the potential to contribute to the intensification of a storm, perhaps leading to the formation of a tropical cyclone, 3) Pollution aerosols entering a tropical cyclone undergoing transition to a cold-core system are unlikely to contribute substantially to storm intensity change, but are likely to contribute to enhanced rainfall.

各种人类活动导致不同类型的颗粒物进入大气。 这些粒子在大气科学界被称为气溶胶，已被证明会影响云和降水。 该项目将研究三种不同的热带气旋，以确定气溶胶是否影响这些风暴的减弱或加强，以及是否取决于气溶胶与风暴相互作用的时间和地点。 这项研究很重要，因为它将有助于确定是否应将气溶胶对热带气旋的影响列为改善天气和气候模型的优先投资领域。 该项目还将通过将一名研究生纳入研究，为培训下一代科学家做出贡献。研究人员计划解决污染气溶胶对热带气旋强度的影响。 先前的观测和模拟研究对这些气溶胶是减弱还是增强风暴得出了不同的结论。 研究人员假设，一个关键因素是风暴中引入增强气溶胶的位置。 计划开展的工作将包括将地球观测系统化学大气化学模型与海洋-陆地-大气模型连接起来，并对三个观测良好的风暴进行若干模拟：西太平洋台风努里（2008年）、飓风桑迪（2012年）和飓风温贝托（2007年）。 该提案的主要假设是：1）成熟热带气旋对人为气溶胶的响应取决于热带气旋内部气溶胶的分布，更多的气溶胶进入风暴的外部雨带区有助于风暴减弱，而更多的气溶胶进入眼壁和内部雨带区有助于风暴加强; 2）热带扰动吸收的人为气溶胶，（3）污染气溶胶进入正在转变为冷心系统的热带气旋，不太可能对风暴强度的变化产生重大影响，但可能会导致降雨量增加。