Collaborative Research: A Pilot Study for Electromagnetic Surveying of Freshwater Resources Beneath the US Atlantic Continental Shelf

合作研究：美国大西洋大陆架淡水资源电磁测量试点研究

• 批准号: 1459035
• 负责人: Robert Evans
• 金额: $ 17.68万
• 依托单位: Woods Hole Oceanographic Institution
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-04-01 至 2019-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1459035&HistoricalAwards=false
• 关键词: Collaborative; Research; Pilot; Study; Electromagnetic

Supplies of fresh drinking water typically come from aquifers deep below the surface. These aquifer units do not stop at the shoreline, but instead extend offshore for perhaps hundreds of kilometers, carrying freshwater with them. In some cases, it is suspected that isolated bodies of freshwater may exist, emplaced during periods of time when sea level was much lower than it is today. Although the presence of large volumes of freshwater beneath the continental shelf is likely a global phenomenon, estimates of the extent of potential resources vary widely. A recent modeling study suggests that as much as 1300 km3 of fresh water could be trapped off the New England shore. For reference, the city of New York consumes roughly 1.5 km3 per year. As freshwater resources become increasingly stressed, many nations will need to exploit these valuable resources in a manner that does not result in contamination of the freshwater supply. Although we suspect that extensive freshwater exists offshore, our knowledge of where the water can be found is limited to drilling sites where samples have been collected. For example, it has been known for ~40 years that a substantial body of freshwater can be found offshore New Jersey. However, drilling gives only point measurements and is prohibitively expensive when large areas need to be studied. What is missing are tools capable of mapping the subsurface that are sensitive to fresh groundwater and for mapping deposits in new areas where water supplies onshore are scarce. This research takes advantage of electromagnetic surveying tools that were initially developed by academia, but which have been adopted and expanded by the petroleum industry. These tools measure how well the seafloor can conduct electrical current and, as a result, are sensitive to changes in the salinity of water in the subsurface because fresh water conducts current less than seawater. The electromagnetic methods that will be used in this projet are the only non-invasive means available to detect the presence of fresh-water in the subsurface and to map these layers over length-scales of tens of kilometers. In this research, the project will characterize the spatial distribution of sub-seafloor fresh water beneath the continental shelf of the US Atlantic coast in two locations: off Martha's Vineyard, Massachusetts, and the offshore New Jersey. Broader impacts of the work include providing a proof of concept that electromagnetics can be effectively used to detect freshwater reserves in the offshore marine environment.

新鲜饮用水的供应通常来自地表以下的含水层。这些含水层单元并不停留在海岸线上，而是延伸到离岸数百公里的地方，携带着淡水。在某些情况下，人们怀疑可能存在孤立的淡水体，这些淡水体是在海平面比今天低得多的时期沉积的。 虽然大陆架下存在大量淡水可能是一种全球现象，但对潜在资源的估计却有很大差异。最近的一项模拟研究表明，多达1300立方公里的淡水可能被困在新英格兰海岸之外。作为参考，纽约市每年消耗大约1.5立方公里。随着淡水资源日益紧张，许多国家将需要以不污染淡水供应的方式开发这些宝贵的资源。虽然我们怀疑近海存在大量淡水，但我们对水的来源的了解仅限于采集样本的钻井地点。例如，人们知道在新泽西近海可以发现大量的淡水，这已经有40年了。然而，钻探只能进行点测量，而且在需要研究大面积区域时，钻探成本过高。缺少的是能够绘制对淡水敏感的地下水的工具，以及能够绘制陆上供水稀缺的新地区的沉积物的工具。这项研究利用了最初由学术界开发的电磁测量工具，但已被石油工业采用和扩展。这些工具测量海底传导电流的能力，因此对地下水盐度的变化很敏感，因为淡水的传导电流比海水小。将在该项目中使用的电磁方法是唯一的非侵入性手段，可用于检测地下淡水的存在，并在数十公里的长度尺度上绘制这些层。在这项研究中，该项目将在两个地点描述美国大西洋沿岸大陆架下海底淡水的空间分布：马萨诸塞州玛莎葡萄园岛和新泽西近海。这项工作的更广泛影响包括提供了一个概念证明，即电磁学可以有效地用于探测近海海洋环境中的淡水储量。