权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

Collaborative Research: Developing high-resolution records of storminess from the southern Bering Sea

合作研究：开发白令海南部风暴的高分辨率记录

基本信息

批准号：
2040240
负责人：
Christopher Maio
金额：
$ 77万
依托单位：
University of Alaska Fairbanks Campus
依托单位国家：
美国
项目类别：
Continuing Grant
财政年份：
2021
资助国家：
美国
起止时间：
2021-05-01 至 2025-04-30
项目状态：
未结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=2040240&HistoricalAwards=false
关键词：
Collaborative Research Developing resolution records

项目摘要

Recent storminess combined with decreasing extent and duration of sea ice in the Bering Sea has significantly affected Alaska’s Arctic coastline, substantially disrupting communities, threatening commerce including commercial fishing, and posing new challenges to our military and vital marine transportation systems. Unfortunately, our knowledge of past storminess is limited to the last few decades, so we know little about past variability in extreme storms. This hinders our ability to diagnose the causes of changes in storminess and to plan for and address future storm impacts. With this project we will provide comprehensive storm data sets for the central Aleutian Islands that span the last two millennia, providing important context to current and future storm climates. A research cruise along Alaska’s Aleutian Islands will allow us to access remote fjords and collect a series of sediment cores and environmental measurements that have the potential to decipher the history of ancient storm events impacting the area. These storm reconstructions will improve our understanding of how intense storminess has changed in the Bering Sea and allow examination of the regional environmental factors that enhance or inhibit storm activity. The lessons learned from this research will be useful to the scientific community, planners, and local decision makers and will improve preparedness and resilience to future storm activity and coastal hazards.Because the modern instrumental record of storminess in the Bering Sea is limited, we know little about the variability of intense storminess prior to the last few decades. To address this gap in knowledge we will develop reconstructions of extreme storms over the last few millennia from coarse-grained event beds in deep coastal basins along the north coast of the Aleutians. Using sedimentological, geophysical and numerical modeling techniques, coupled with local instrumentation (wave, current, pressure sensors), and the collection of local oral and written storm narratives we will; 1) develop reconstructions of coarse-grained event beds over several millennia, 2) measure real-time storm-related coastal processes to determine thresholds for event bed deposition and provide National Weather Service data for real-time storm and flood impact forecasting, 3) engage with local communities to develop a chronology of historical storm affects, and 4) differentiate other mechanisms of event bed deposition and develop a record of relative sea-level change and potentially great earthquakes and tsunamis. This research is tightly coupled with a field- and lab-based education plan focused on building coastal science literacy to support informed decision-making. Extreme storms endanger Alaskan Native coastal communities already at risk from increased flooding and erosion and threaten critical infrastructure and access to subsistence resources. A collaboration with the Qawalangin Tribe of Unalaska will serve to build synergy between scientists, local stakeholders, and community residents. Tribal participation in the planning and carrying out of research activities, the production of a professional outreach video/photo blog, and design of a portable educational exhibit and accompanying curriculum materials will provide many opportunities for meaningful engagement and the promotion of STEM fields to under-represented groups. The research will also incorporate undergraduate and graduate students with targeted efforts to increase the representation of Alaska Natives, women, minorities, and people with disabilities in STEM fields. We will widely present to the public and scientific audiences through multiple media and at professional conferences and publications.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.

最近的风暴加上白令海海冰范围和持续时间的减少，严重影响了阿拉斯加的北极海岸线，严重扰乱了社区，威胁到包括商业捕鱼在内的商业活动，并对我们的军事和重要的海洋运输系统构成了新的挑战。不幸的是，我们对过去风暴的了解仅限于过去几十年，因此我们对过去极端风暴的变化知之甚少。这阻碍了我们诊断风暴变化原因的能力，以及计划和解决未来风暴影响的能力。通过这个项目，我们将为阿留申群岛中部提供跨越过去两千年的全面风暴数据集，为当前和未来的风暴气候提供重要背景。沿着阿拉斯加阿留申群岛的研究巡航将使我们能够访问偏远的峡湾，并收集一系列沉积物岩心和环境测量，这些测量有可能破译影响该地区的古代风暴事件的历史。这些风暴重建将提高我们对白令海风暴强度变化的理解，并允许检查增强或抑制风暴活动的区域环境因素。从这项研究中吸取的经验教训将是有用的科学界，规划者和当地决策者，并将提高准备和恢复能力，以应对未来的风暴活动和沿海hazards.Because现代仪器记录的风暴在白令海是有限的，我们知道很少的变化，强烈的风暴之前，在过去的几十年。为了弥补这一知识空白，我们将从阿留申群岛北海岸沿着深海岸盆地的粗粒事件床中重建过去几千年的极端风暴。利用沉积学、地球物理学和数值模拟技术，加上当地仪器（波浪、电流、压力传感器），以及收集当地口头和书面的风暴叙述，我们将; 1）对数千年来的粗粒事件层进行重建，2）测量与风暴相关的实时沿海过程，以确定事件床沉积的阈值，并提供国家气象局的真实的数据时间风暴和洪水影响预测，3）与当地社区合作，制定历史风暴影响年表，以及4）区分事件床沉积的其他机制，并制定相对海平面变化和潜在大地震和海啸的记录。这项研究与一项以实地和实验室为基础的教育计划紧密结合，该计划的重点是建立沿海科学素养，以支持知情决策。极端风暴危及阿拉斯加原住民沿海社区，这些社区已经面临洪水和侵蚀加剧的风险，并威胁到关键基础设施和生存资源的获取。与乌纳拉斯卡的Qawalangin部落的合作将有助于建立科学家，当地利益相关者和社区居民之间的协同作用。部落参与规划和开展研究活动，制作专业的外展视频/照片博客，设计便携式教育展览和配套课程材料，将为有意义的参与和向代表性不足的群体推广STEM领域提供许多机会。该研究还将纳入本科生和研究生，有针对性地努力增加阿拉斯加原住民，妇女，少数民族和残疾人在STEM领域的代表性。我们将通过多种媒体、专业会议和出版物向公众和科学观众广泛展示。该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。