Japan Geoscience Union Meeting 2019

Presentation information

[J] Poster

A (Atmospheric and Hydrospheric Sciences ) » A-CG Complex & General

[A-CG40] Coastal Ecosystems - 1. Water Cycle and Land-Ocean Interactions

Tue. May 28, 2019 5:15 PM - 6:30 PM Poster Hall (International Exhibition Hall8, Makuhari Messe)

convener:Masahiko Fujii(Faculty of Environmental Earth Science), Makoto Yamada(Faculty of Economics, Ryukoku University), Jun Shoji(The University of Tokyo), Ryo Sugimoto(Faculty of Marine Biosciences, Fukui Prefectural University)

[ACG40-P01] Submarine groundwater discharge and dissolved material fluxes quantified by radium isotopes in sandy beach, central Wakasa Bay

*Toshimi Nakajima1, Ryo Sugimoto1, Yuta Sumino1, Makoto Taniguchi2, Osamu Tominaga1 (1.Fukui Prefectural University, 2.Research Institute for Humanity and Nature)

Keywords:Submarine groundwater discharge, Ra isotopes, dissolved materials, Coastal seas

Submarine groundwater discharge (SGD) is recognized as an important pathway for dissolved materials such as nutrients, carbon, alkalinity and trace metals from the land to the coastal sea. In the last decades, 222Rn and Ra isotopes have been used as a proxy of groundwater discharge. In this study, we measured both SGD tracers (222Rn, 223Ra, 224Ra, and 226Ra) and nutrients, dissolved inorganic carbon (DIC), and total alkalinity (TAlk) of surface seawater and subterranean estuary in sandy beach of central Wakasa Bay to quantify the rate of groundwater discharge and associated material fluxes in May, July, and September 2018. Regardless of the sampling periods, 222Rn, Ra isotopes, nutrients, DIC, and total alkalinity in subterranean estuary showed higher concentrations than in seawater. Activities of 222Rn, 223Ra, and 224Ra in seawater decreased constantly from the tideline to offshore with little variation in salinity. This implies that recirculated saline groundwater seeps around the shoreline. Estimated SGD rates in May, July, and September by using the activities of 223Ra and 224Ra were 0.1 m3 m-1 d-1, 4.5 m3 m-1 d-1, 0.3 m3 m-1 d-1 and 1.3 m3 m-1 d-1, 20.3 m3 m-1 d-1, 2.3 m3 m-1 d-1, respectively. High SGD rates in July would be due to heavy rain before the sampling date. If we assume that groundwater discharge occurs along the tideline of the beach (length: 887 m), mean SGD rates were 809.1 m3 d-1 in May, 11192.4 m3 d-1 in July, and 1186.2 m3 d-1 in September. Fluxes of nutrients (DIN, DIP, and DSi), DIC, and TAlk, derived SGD were calculated by multiplying mean SGD rates by its mean concentration in subterranean estuary. Although the nutrients fluxes from SGD were < 1% of those from the Kita River, DIC flux of SGD in May, July, and September corresponds to 6.5%, 94.7%, and 7.7% of the Kita River, respectively. These results mean that DIC transport through groundwater may be significant for carbonate system of Wakasa Bay.