CAREER: The Microbiology of Climate Change Disasters: Microbiome-Contaminant Interactions After Wildland-Urban Interface Fires

职业：气候变化灾难的微生物学：荒地与城市界面火灾后微生物组与污染物的相互作用

• 批准号: 2341016
• 负责人: Christopher Olivares Martinez
• 金额: $ 55.98万
• 依托单位: University of California-Irvine
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2024
• 资助国家: 美国
• 起止时间: 2024-01-15 至 2028-12-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2341016&HistoricalAwards=false
• 关键词: CAREER; Microbiology; Climate; Change; Disasters

Wildfires are causing significant destruction in the United States and worldwide including damages to drinking water systems at the wildland-urban interface (WUI) where humans and their built environment meet and interact with wildland vegetation. During WUI wildfires, the plastic components of drinking water pipes and distribution networks can undergo combustion and pyrolysis with a subsequent release of toxic volatile organic chemicals (VOCs) such as benzene, toluene, styrene, and vinyl chloride that can contaminate drinking water and promote the growth of microorganisms in drinking water distribution systems (DWDS) including harmful pathogens. This poses new concerns about drinking water quality and safety following wildfires that have not been addressed in previous studies. The overarching goal of this CAREER proposal is to investigate the impacts of VOCs released following WUI fires on the drinking water microbiome and water quality in DWDS. To advance this goal, the Principal Investigator proposes to evaluate the hypothesis that 1) the release and continued presence of high concentrations of VOCs in DWDS following wildfires will consume the residual disinfectant in these systems and 2) the remaining VOCs will be metabolized to support the growth of microorganisms present in tap water including water-borne pathogens such as Legionella spp. The successful completion of this project will benefit society through the generation of new fundamental knowledge to support the design, development, and implementation of solutions to mitigate and minimize the impact of WUI fires on drinking water quality and safety. Additional benefits to society will be achieved through student education and training including the mentoring of one graduate student and one undergraduate student at the University of California, Irvine.As wildfires become more frequent and severe in the United States and worldwide due to climate change, there is an urgent and critical need for new fundamental knowledge to understand and mitigate the adverse impact of wildfires on drinking water quality and distribution systems at the wildland-urban interface (WUI). Recent studies have established that the combustion, pyrolysis, and thermal degradation of plastic infrastructure during WUI wildfires release high concentrations of toxic VOCs (e.g., benzene, vinyl chloride) that will continue to contaminate drinking water distribution systems (DWDS) and tap water for several months following these fires. In addition, the released VOCs will consume the residual disinfectant in DWDS, and the remaining VOCs can be metabolized by microorganisms present in tap water, including pathogens that have genetic potential for VOC degradation such as Legionella spp. This CAREER project will evaluate the impact of VOCs released following WUI fires on the drinking water microbiome and tap water quality in DWDS. The specific objectives of the research are to 1) investigate the effect and impact of environmental factors (e.g., drinking water source composition and residual disinfectant/VOC concentrations) and flushing protocols (e.g., stagnation and sequential flushing) on microbial growth in DWDS and tap water following WUI fires; 2) evaluate the role of biofilms in mediating VOC sorption and microbial transformations in DWDS and tap water after WUI fires; and 3) use and leverage multi omics (genomics and metabolomics) to characterize and unravel changes in the structure and function of microbiomes in DWDS and tap water following WUI fires. The successful completion of this project has the potential for transformative impact through the generation of new fundamental knowledge to advance the design and development of solutions to mitigate and minimize the impact of WUI fires on drinking water quality and safety. To implement the educational and outreach activities of this CAREER project, the Principal Investigator (PI) proposes to leverage existing programs and resources at the University of California, Irvine (UCI) to develop English/Spanish bilingual environmental/climate change curricula in partnership with a statewide K-12 teacher network. In addition, the PI proposes to 1) partner with local artists and researchers to co-create a community science project on tap water quality and 2) integrate the research findings from this CAREER project into existing UCI courses devoted to Bioremediation and Microorganisms and Climate Change.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

野火正在美国和世界范围内造成严重破坏，包括对人类及其建筑环境与荒地植被相遇和相互作用的荒地与城市交界处（WUI）的饮用水系统造成损害。在 WUI 野火期间，饮用水管道和供水网络的塑料部件可能会燃烧和热解，随后释放出苯、甲苯、苯乙烯和氯乙烯等有毒挥发性有机化学物质 (VOC)，这些物质会污染饮用水并促进饮用水分配系统 (DWDS) 中微生物的生长，包括有害病原体。这对野火后的饮用水质量和安全提出了新的担忧，而之前的研究尚未解决这一问题。该职业提案的总体目标是调查 WUI 火灾后释放的挥发性有机化合物对 DWDS 饮用水微生物组和水质的影响。为了推进这一目标，首席研究员建议评估以下假设：1) 野火后 DWDS 中高浓度 VOC 的释放和持续存在将消耗这些系统中的残留消毒剂，2) 剩余的 VOC 将被代谢以支持自来水中存在的微生物的生长，包括水传播的病原体，例如军团菌。该项目的成功完成将通过产生新的基础知识来支持解决方案的设计、开发和实施，以减轻和尽量减少 WUI 火灾对饮用水质量和安全的影响，从而造福社会。通过学生教育和培训，包括指导加州大学欧文分校的一名研究生和一名本科生，将给社会带来额外的好处。 由于气候变化，美国和世界范围内的野火变得更加频繁和严重，迫切需要新的基础知识，以了解和减轻野火对荒地与城市交界处（WUI）的饮用水质量和分配系统的不利影响。最近的研究表明，WUI 野火期间塑料基础设施的燃烧、热解和热降解会释放高浓度的有毒挥发性有机化合物（例如苯、氯乙烯），这些挥发性有机化合物将继续污染饮用水分配系统 (DWDS) 和自来水。这些火灾发生后几个月。此外，释放的VOC会消耗DWDS中残留的消毒剂，而剩余的VOC可以被自来水中存在的微生物代谢，包括具有降解VOC遗传潜力的病原体，例如军团菌。该职业项目将评估 WUI 火灾后释放的挥发性有机化合物对 DWDS 饮用水微生物组和自来水质量的影响。 研究的具体目标是 1) 调查环境因素（例如饮用水源成分和残留消毒剂/挥发性有机化合物浓度）和冲洗方案（例如停滞和顺序冲洗）对 DWDS 和自来水中微生物生长的影响和影响WUI 火灾后的水； 2) 评估生物膜在介导 WUI 火灾后 DWDS 和自来水中 VOC 吸附和微生物转化中的作用； 3) 使用和利用多组学（基因组学和代谢组学）来表征和揭示 WUI 火灾后 DWDS 和自来水中微生物组结构和功能的变化。该项目的成功完成有可能产生变革性影响，通过产生新的基础知识来推进解决方案的设计和开发，以减轻和尽量减少 WUI 火灾对饮用水质量和安全的影响。为了实施该职业项目的教育和推广活动，首席研究员 (PI) 建议利用加州大学欧文分校 (UCI) 的现有项目和资源，与以下机构合作开发英语/西班牙语双语环境/气候变化课程。全州 K-12 教师网络。此外，PI 建议 1) 与当地艺术家和研究人员合作，共同创建一个关于自来水质量的社区科学项目，2) 将这个职业项目的研究成果整合到 UCI 现有的生物修复、微生物和气候变化课程中该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。