江苏沿海典型盐沼潮沟系统地表水与地下水交换规律OA
Surface water and groundwater exchange pattern in a typical coastal salt marsh-tidal creek system of Jiangsu Province
为进一步探究江苏盐城典型盐沼潮沟系统的地表水与地下水交换过程,通过现场原位连续监测和取样分析获取水量、盐度、同位素等数据,估算了大、小潮期的地表水与地下水交换通量,揭示了地表水与地下水相互作用规律.结果表明:潮汐是引起盐沼潮沟系统地表水与地下水交换的主要驱动因素,其交换量受潮汐条件影响显著,大潮期交换通量可达小潮期的 26~30 倍;潮汐过程中地表水补给量和地下水排泄量相当,虽然净通量可忽略,但地表水与地下水交换会引起地层盐分大量排泄,平均盐分通量可达140 t/d;盐沼潮沟系统内发生在较大时空尺度下的深层滞留海水排泄过程,对水、盐、热交换的影响不可忽略.
To gain further insight into the surface water and groundwater exchange process in typical salt marsh-tidal creek systems in Yancheng City,Jiangsu Province,continuous in-situ monitoring and sampling analysis of data including water volume,salinity,and isotopes were conducted,and the exchange fluxes between surface water and groundwater during both spring and neap tides were estimated,revealing the patterns of surface water and groundwater interactions.Results indicate that tides serve as the primary driving force of surface water and groundwater exchange in the salt marsh-tidal creek systems.The exchange flux is markedly influenced by tidal conditions,with exchange flux during spring tides reaching up to 26-30 times that during the neap tides.During the tidal cycles,surface water recharge and groundwater discharge are almost equivalent.Although the net water flux can be neglected,this process causes a significant discharge of stratum salts,with an average salt flux of up to 140 t/d.Furthermore,a discharge process of deeply trapped marine water with a larger space-time scale exists in the study area,which may have non-negligible impacts on water,salt,and heat exchange.
何晓冬;詹泸成;郑权
河海大学水利水电学院河海大学水利水电学院河海大学水利水电学院
盐沼同位素盐分地表水与地下水交换潮汐泵
salt marshisotopesalinitysurface water and groundwater exchangetidal pumping
《河海大学学报(自然科学版)》 2026 (2)
63-71,9
国家自然科学基金面上项目(42477062)国家重点研发计划项目(2022YFC3204302)
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