RES2DINV format continuous resistivity profile data collected by the U.S. Geological Survey in Great South Bay on Long Island, New York, on Sept. 23, 2008

An investigation of submarine aquifers adjacent to the Fire Island National Seashore and Long Island, New York, was conducted to assess the importance of submarine groundwater discharge (SGD) as a potential nonpoint source of nitrogen delivery to Great South Bay. More than 200 kilometers (km) of continuous resistivity profiling (CRP) data were collected to image the fresh-saline groundwater interface in sediments beneath the bay. In addition, groundwater sampling was performed at sites (1) along the northern shore of Great South Bay, particularly in Patchogue Bay, that were representative of the developed Long Island shoreline, and (2) at sites on and adjacent to Fire Island, a 50-km-long barrier island on the southern side of Great South Bay. Other field activities included sediment coring, stationary electrical resistivity profiling, and surveys of in-situ pore water conductivity. The onshore and offshore shallow hydrostratigraphy of the Great South Bay shorelines, particularly the presence and nature of submarine confining units, appears to exert primary control on the dimensions and chemistry of the submarine groundwater flow and discharge zones. Sediment coring has shown that the confining units commonly consist of drowned and buried peat layers likely deposited in salt marshes. Based on CRP data, low-salinity groundwater extends from 10 to 100 meters (m) offshore along much of the northern and southern shores of Great South Bay, especially off the mouths of tidal creeks, and beneath shallow flats to the north of Fire Island adjacent to modern salt marshes. Human modifications of much of the shoreline and nearshore areas along the northern shore of the bay, including filling of salt marshes, construction of bulkheads and piers, and dredging of navigation channels, has substantially altered the natural hydrogeology of the bay's shorelines by truncating confining units and increasing recharge near the shore in filled areas. Better understanding of the nature of SGD along developed and undeveloped shorelines of embayments such as this could lead to improved models and mitigation strategies for nutrient overenrichment of estuaries. For more information on the surveys involved in this project, see https://cmgds.marine.usgs.gov/fan_info.php?fan=2008-007-FA and https://cmgds.marine.usgs.gov/fan_info.php?fan=2008-037-FA.

本研究针对美国纽约州火岛国家海岸（Fire Island National Seashore）及长岛（Long Island）周边的海底含水层展开调查，旨在评估海底地下水排泄（submarine groundwater discharge, SGD）作为大南湾（Great South Bay）氮素面源潜在输送途径的重要性。 研究团队采集了超过200千米的连续电阻率剖面法（continuous resistivity profiling, CRP）数据，以成像海湾下方沉积物中的淡水-咸水地下水界面。此外，分别在两类点位开展地下水采样工作：其一为大南湾北岸区域，尤其是帕乔格湾（Patchogue Bay），该区域具有典型的开发型长岛海岸线特征；其二为大南湾南侧长50千米的障壁岛——火岛（Fire Island）及其邻近区域。其余野外工作还包括沉积物取芯、固定式电阻率剖面测量以及原位孔隙水电导率调查。 大南湾沿岸的陆上与近岸浅层水文地层学特征，尤其是海底隔水层的赋存状态与性质，似乎对海底地下水流及排泄带的规模与化学特征起到主导控制作用。沉积物取芯结果显示，隔水层通常由盐沼沉积形成的淹没埋藏泥炭层构成。基于连续电阻率剖面法数据，低盐度地下水沿大南湾大部分南北岸向海延伸10至100米，尤其分布在潮汐河口外侧以及火岛北侧毗邻现代盐沼的浅滩下方区域。 该海湾北岸多数海岸线及近岸区域受到人类活动改造，包括盐沼填埋、护岸墙与码头修建以及航道疏浚，这些活动通过截断隔水层以及提升填埋区域近岸的地下水补给量，极大改变了海湾岸线的自然水文地质条件。 深入理解此类海湾开发与未开发岸线的海底地下水排泄特征，有助于优化河口湾营养盐过富化的模拟模型与修复策略。如需了解本项目涉及的调查工作更多信息，请访问：https://cmgds.marine.usgs.gov/fan_info.php?fan=2008-007-FA 与 https://cmgds.marine.usgs.gov/fan_info.php?fan=2008-037-FA。