Collaborative Research: Exploring the linkages between Sea-Level Change, Sediment Transport and Geomorphology on Coastal Freshwater Water Sequestration

合作研究：探索海平面变化、沉积物输送和沿海淡水固存地貌之间的联系

• 批准号: 1925850
• 负责人: Eric W Hutton
• 金额: $ 8.5万
• 依托单位: University of Colorado at Boulder
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2019
• 资助国家: 美国
• 起止时间: 2019-07-15 至 2024-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1925850&HistoricalAwards=false
• 关键词: Collaborative; Research; Exploring; linkages; between

The growth of large coastal cities is putting increasing demand on supplies of potable water as traditional sources are depleted. Increased withdrawal of local groundwater has led to more widespread occurrences of salt-water intrusion and new surface-water supplies are becoming politically and economically difficult to access. As sea level rose and fell over the past million years, the shoreline moved landward and seaward, shifting the boundary between fresh water and salt water with the result that reservoirs of freshwater can often be found offshore. This water could provide a significant reserve for coastal areas if other sources are unavailable. This project will identify the extent of freshwater buried in marine sediments in the continental shelf of New Jersey and in the offshore delta region of Bangladesh. The research will use data from geophysical surveys, sediment deposition, groundwater flow, and solute transport, to develop mathematical models that simulate the accumulation of freshwater in these submarine deposits as sea level rose. The project will also construct simulations of groundwater production from these areas to assess the feasibility of accessing the offshore reservoirs within the next few decades.The project will assess how sequestration of onshore saltwater and offshore freshwater in coastal environments is influenced by interactions between geomorphic, sedimentological, geodynamic, and hydrologic processes over geologic time scales of one million years or more. The research will develop a new model using the Earth-science community code, Landlab, and apply the code at two field sites with vastly different local sea-level, climate, tectonic and sediment transport regimes: New Jersey and Bangladesh. Calculated sediment type and salinity patterns from these models will be compared to new and existing images from seismic and electromagnetic (EM) data, as well as to available well samples measuring salinity and age of the water. An EM survey will be carried out in Bangladesh to determine the distribution of deep onshore saltwater and freshwater in this active deltaic environment. Along with recently collected EM images from offshore New Jersey, these data will be used to test the Landlab model to elucidate the factors controlling the emplacement of fresh and saline groundwater in coastal regions.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.

随着传统水源的枯竭，沿海大城市的发展对饮用水的供应提出了越来越高的需求。当地地下水的开采越来越多，导致咸水入侵的情况更加普遍，新的地表水供应在政治和经济上变得难以获得。在过去的一百万年里，随着海平面的上升和下降，海岸线向陆地和海洋移动，移动了淡水和咸水之间的边界，结果是在近海经常可以发现淡水水库。如果没有其他水源，这些水可以为沿海地区提供大量储备。该项目将确定新泽西州大陆架和孟加拉国近海三角洲地区海洋沉积物中埋藏的淡水范围。这项研究将利用地球物理调查、沉积物沉积、地下水流动和溶质运移的数据，开发数学模型，模拟随着海平面上升这些海底沉积物中淡水的积累。该项目还将对这些地区的地下水生产进行模拟，以评估在未来几十年内进入近海水库的可行性。该项目将评估海岸环境中陆上咸水和近海淡水的封存如何受到地质时间尺度为100万年或更长时间的地貌、沉积学、地球动力学和水文过程相互作用的影响。这项研究将使用地球科学界的LADLAB代码开发一个新的模型，并将该代码应用于两个具有截然不同的当地海平面、气候、构造和沉积物运输制度的野外地点：新泽西州和孟加拉国。从这些模型计算的沉积物类型和盐度模式将与来自地震和电磁(EM)数据的新的和现有的图像进行比较，以及与测量水的盐度和年龄的现有井样进行比较。将在孟加拉国进行一项EM调查，以确定在这一活跃的三角洲环境中深层陆上咸水和淡水的分布情况。与新泽西州近海最近收集的EM图像一起，这些数据将被用于测试LandLab模型，以阐明控制沿海地区淡水和咸水就位的因素。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。