Collaborative Research: Submesoscale frontal dynamics and exchange at an upwelling bay

合作研究：上升流海湾的亚尺度锋面动力学和交换

• 批准号: 2242163
• 负责人: Thomas Connolly
• 金额: $ 40.57万
• 依托单位: San Jose State University Foundation
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2023
• 资助国家: 美国
• 起止时间: 2023-09-01 至 2026-08-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2242163&HistoricalAwards=false
• 关键词: Collaborative; Research; Submesoscale; frontal; dynamics

This study will examine physical processes associated with fronts that develop off a coastline point in San Luis Obispo Bay, at the transition of zones exposed to and protected from winds. Information for the study will be derived from measurements of flows, temperature, salinity, and dissolved oxygen obtained from instruments carried on a ship and fixed to the bottom of the ocean. These data will be supplemented by computer model results at different spatial scales, able to resolve the fronts. Additionally, the processes at fronts will be compared to theoretical considerations. The study will suggest ecological implications of the physical processes that generate and dissipate the fronts. The project will support early-career scientists and will recruit historically underserved students. It will generate graphic art related to the project’s findings that will be displayed in an aquarium and used for outreach activities. The proposed work has the goal of examining cross-shelf submesoscale exchange processes associated with persistent thermal fronts downstream of topographic features in an upwelling bay, concentrating on the influence of sea breezes. The goal will be addressed with coordinated high-resolution measurements of turbulent mixing (surveys and moorings of hydrography, velocity and microstructure profiles) together with high-resolution modeling efforts. The study focuses on a frontal feature in a bay, San Luis Obispo Bay, that is impacted by hypoxia and algal blooms. Biologically relevant measurements (notably DO) will enable examination of the biological implications of the proposed cross-front exchange mechanism. The primary dynamical mechanism that will be evaluated at the cross-front exchange is the role, and validity, of the turbulent thermal wind balance. As broader impacts, the study will involve four researchers from different institutions. It will provide measurements of dissolved oxygen and will include particle-tracking calculations for larval connectivity. The project will support two early-career researchers, will adopt a field code-of-conduct and will recruit students from ‘diverse non-PhD granting institutions.’ Results will be portrayed in graphic art with descriptions in English and Spanish, to be included in a local aquarium and used in various outreach efforts.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.

这项研究将研究与圣路易斯奥比斯波湾海岸点附近发展起来的锋面相关的物理过程，这些锋面处于暴露在风中并受到保护的区域的过渡阶段。这项研究的信息将来自对流量、温度、盐度和溶解氧的测量，这些测量来自船上携带的固定在海底的仪器。这些数据将得到不同空间尺度的计算机模型结果的补充，能够分辨出锋面。此外，前面的过程将与理论考虑进行比较。这项研究将提出产生和消散锋面的物理过程的生态影响。该项目将支持职业生涯早期的科学家，并将招募历史上服务不足的学生。它将产生与项目发现相关的图形艺术，并将在水族馆展示，用于推广活动。拟议工作的目标是研究与上升流湾地形特征下游的持续热锋有关的跨陆架次中尺度交换过程，重点是海风的影响。这一目标将通过协调一致的高分辨率湍流混合测量(水文学、速度和微结构剖面的调查和系泊)以及高分辨率建模工作来实现。这项研究的重点是圣路易斯奥比斯波湾的正面特征，该海湾受到缺氧和藻类大量繁殖的影响。与生物相关的测量(特别是DO)将使审查拟议的跨境交流机制的生物学影响成为可能。将在跨锋面交换中评估的主要动力机制是湍流热风平衡的作用和有效性。作为更广泛的影响，这项研究将涉及来自不同机构的四名研究人员。它将提供对溶解氧的测量，并将包括对幼虫连接性的粒子跟踪计算。该项目将支持两名初出茅庐的研究人员，将采用现场行为准则，并将从不同的非博士授予机构招收学生。结果将用图形艺术描绘，并用英语和西班牙语描述，包括在当地的水族馆中，并用于各种推广工作。该奖项反映了NSF的法定使命，并通过使用基金会的智力优势和更广泛的影响审查标准进行评估，被认为值得支持。