Rethinking the Use of Seabed Sediment Temperature Profiles to Trace Submarine Groundwater Flow

@article{Kurylyk2018RethinkingTU,
  title={Rethinking the Use of Seabed Sediment Temperature Profiles to Trace Submarine Groundwater Flow},
  author={Barret L. Kurylyk and Dylan J Irvine and Aaron A. Mohammed and Victor F. Bense and Martin A. Briggs and John W. Loder and Y. S. Geshelin},
  journal={Water Resources Research},
  year={2018},
  volume={54},
  pages={4595-4614}
}
  • Barret L. Kurylyk, Dylan J Irvine, +4 authors Y. S. Geshelin
  • Published 2018
  • Geology
  • Water Resources Research
  • Submarine groundwater fluxes across the seafloor facilitate important hydrological and biogeochemical exchanges between oceans and seabed sediment, yet few studies have investigated spatially distributed groundwater fluxes in deep-ocean environments such as continental slopes. Heat has been previously applied as a submarine groundwater tracer using an analytical solution to a heat flow equation assuming steady state conditions and homogeneous thermal conductivity. These assumptions are often… CONTINUE READING

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