Deep submarine groundwater discharge indicated by pore water chloride anomalies in the Gulf of Gdańsk, southern Baltic Sea

Beata Szymczycha; Żaneta Kłostowska; Karol Kuliński; Aleksandra Winogradow; Jaromir Jakacki; Zygmunt Klusek; Miłosz Grabowski; Aleksandra Brodecka-Goluch; Bożena Graca; Marcin Stokowski; Katarzyna Koziorowska; Daniel Rak

doi:10.1051/e3sconf/20185400035

All issues

Volume 54 (2018)

E3S Web Conf., 54 (2018) 00035

References

Open Access

Issue		E3S Web Conf. Volume 54, 2018 25^th Salt Water Intrusion Meeting (SWIM 2018)


Article Number		00035
Number of page(s)		4
DOI		https://doi.org/10.1051/e3sconf/20185400035
Published online		17 September 2018

Burnett, W.C., Aggarwal, P.K., Aureli, A., Bokuniewicz, H.J., Cable, J.E., Charette, M.A., Kontar, E., Krupa, S., Kulkarni, K.M., Loveless, A., Moore, W.S., Oberdorfer, J.A., Oliveira, J., Ozyurt, N., Povinec, P., Privitera, A.M.G., Rajar, R., Ramessur, R.T., Scholten, J., Stieglitz, T., Taniguchi, M., Turner, J.V. 2006. Quantifying submarine groundwater discharge in the coastal zone via multiple methods. Science of the Total Environment, 367, 498–543. [CrossRef] [PubMed] [Google Scholar]
Carman, R., Rahm, L. 1997. Early diagenesis sediments in and chemical characteristics of interstitial water and the deep deposition bottoms of the Baltic proper. J. Sea Res. 37, 25–47. [CrossRef] [Google Scholar]
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Piekarek-Jankowska H., Matciak M., Nowacki J. (1994) Salinity variations as an effect of groundwater seepage through the seabed (Puck Bay. Poland), Oceanologia, 36, 33–46. [Google Scholar]
Schlüter M., Sauter E.J., Andersen C.A., Dahlgaard H., Dando P.R., 2004. Spatial distribution and budget for submarine groundwater discharge in Eckernförde Bay (Western Baltic Sea). Limnol. Oceanogr. 49, 157–167. [CrossRef] [Google Scholar]
Szymczycha, B., Vogler S., Pempkowiak J. (2012) Nutrient fluxes via submarine groundwater discharge to the Bay of Puck, Southern Baltic, Sci. Total Environ., 438, 86–93. [CrossRef] [PubMed] [Google Scholar]
Szymczycha, B., Maciejewska, A., Winogradow, A., Pempkowiak, J. 2014. Could submarine groundwater discharge be a significant carbon source to the southern Baltic Sea? In Oceanologia, 56, 327–347. [CrossRef] [Google Scholar]
Szymczycha, B., Kroeger, K. D., Pempkowiak, J. 2016. Significance of groundwater discharge along the coast of Poland as a source of dissolved metals to the southern Baltic Sea, Marine Pollution Bulletin, 109, 151–162. [CrossRef] [PubMed] [Google Scholar]
Wilson, A.M. 2005. Fresh and saline groundwater discharge to the ocean : A regional perspective. Water Resour Res 41, WO2016. [CrossRef] [PubMed] [Google Scholar]

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[1] Burnett, W.C., Aggarwal, P.K., Aureli, A., Bokuniewicz, H.J., Cable, J.E., Charette, M.A., Kontar, E., Krupa, S., Kulkarni, K.M., Loveless, A., Moore, W.S., Oberdorfer, J.A., Oliveira, J., Ozyurt, N., Povinec, P., Privitera, A.M.G., Rajar, R., Ramessur, R.T., Scholten, J., Stieglitz, T., Taniguchi, M., Turner, J.V. 2006. Quantifying submarine groundwater discharge in the coastal zone via multiple methods. Science of the Total Environment, 367, 498–543. [CrossRef] [PubMed] [Google Scholar]

[2] Carman, R., Rahm, L. 1997. Early diagenesis sediments in and chemical characteristics of interstitial water and the deep deposition bottoms of the Baltic proper. J. Sea Res. 37, 25–47. [CrossRef] [Google Scholar]

[3] Donis, D., Janssen, F., Wenz, F., Dellwig, O, Escher, P., Spitzy, A., M.E. Böttcher, 2017. Biogeochemical impact of submarine ground water discharge on coastal surface sands of the southern Baltic Sea. Estuar Coast Shelf S 189, 131–42. [CrossRef] [Google Scholar]

[4] Lin, T-I, Wang, C-H, You, C-F, Huang, K-F, Chen, Y-G 2010. Deep submarine groundwater discgage indicated by tracers of oxygen, strontium isotopes an barium content in the Pingtung coastal zone southern Taiwan Mar Cem 122, 51–58. [Google Scholar]

[5] Piekarek-Jankowska H., Matciak M., Nowacki J. (1994) Salinity variations as an effect of groundwater seepage through the seabed (Puck Bay. Poland), Oceanologia, 36, 33–46. [Google Scholar]

[6] Schlüter M., Sauter E.J., Andersen C.A., Dahlgaard H., Dando P.R., 2004. Spatial distribution and budget for submarine groundwater discharge in Eckernförde Bay (Western Baltic Sea). Limnol. Oceanogr. 49, 157–167. [CrossRef] [Google Scholar]

[7] Szymczycha, B., Vogler S., Pempkowiak J. (2012) Nutrient fluxes via submarine groundwater discharge to the Bay of Puck, Southern Baltic, Sci. Total Environ., 438, 86–93. [CrossRef] [PubMed] [Google Scholar]

[8] Szymczycha, B., Maciejewska, A., Winogradow, A., Pempkowiak, J. 2014. Could submarine groundwater discharge be a significant carbon source to the southern Baltic Sea? In Oceanologia, 56, 327–347. [CrossRef] [Google Scholar]

[9] Szymczycha, B., Kroeger, K. D., Pempkowiak, J. 2016. Significance of groundwater discharge along the coast of Poland as a source of dissolved metals to the southern Baltic Sea, Marine Pollution Bulletin, 109, 151–162. [CrossRef] [PubMed] [Google Scholar]

[10] Wilson, A.M. 2005. Fresh and saline groundwater discharge to the ocean : A regional perspective. Water Resour Res 41, WO2016. [CrossRef] [PubMed] [Google Scholar]