Spatial and temporal dynamics of water isotopes in the riverine‐marine mixing zone along the German Baltic Sea coast

Aichner, Bernhard ORCIDiD
Rittweg, Timo
Schumann, Rhena
Dahlke, Sven
Duggen, Svend
Dubbert, David

DOI: https://doi.org/10.1002/hyp.14686
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/10465
Aichner, Bernhard; Rittweg, Timo; Schumann, Rhena; Dahlke, Sven; Duggen, Svend; Dubbert, David, 2022: Spatial and temporal dynamics of water isotopes in the riverine‐marine mixing zone along the German Baltic Sea coast. In: Hydrological Processes, 36, 9, DOI: https://doi.org/10.1002/hyp.14686. 
 
Rittweg, Timo; 2 Department of Fish Biology, Fisheries and Aquaculture Leibniz Institute of Freshwater Ecology and Inland Fisheries Berlin Germany
Schumann, Rhena; 3 Biological Station Zingst University of Rostock Zingst Germany
Dahlke, Sven; 4 Biological Station Hiddensee University of Greifswald Kloster Germany
Duggen, Svend; 5 A. P. Møller Skolen Schleswig Germany
Dubbert, David; 6 Department of Ecohydrology and Biogeochemistry Leibniz Institute of Freshwater Ecology and Inland Fisheries Berlin Germany

Abstract

River estuaries are characterized by mixing processes between freshwater discharge and marine water masses. Since the first are depleted in heavier stable isotopes compared with the marine realm, estuaries often show a linear correlation between salinity and water stable isotopes (δ18O and δ2H values). In this study, we evaluated spatial and seasonal isotope dynamics along three estuarine lagoon transects, located at the northern German Baltic Sea coast. The data show strong seasonality of isotope values, even at locations located furthest from the river mouths. They further reveal a positive and linear salinity‐isotope correlation in spring, but ‐in two of the three studied transects‐ hyperbolic and partially reverse correlations in summers. We conclude that additional hydrological processes partially overprint the two‐phase mixing correlation during summers: aside from the isotope seasonality of the riverine inflows, the shallow inner lagoons in the studied estuaries are influenced by evaporation processes. In contrast the estuarine outflow regions are under impact of significant salinity and isotope fluctuations of the Baltic Sea. Deciphering those processes is crucial for the understanding of water isotope and salinity dynamics. This is also of relevance in context of ecological studies, for example, when interpreting oxygen and hydrogen isotope data in aquatic organisms that depend on ambient estuarine waters.


Spatial and seasonal water isotope dynamics were evaluated along three estuarine lagoon transects at the German Baltic Sea coast. Data reveal a positive and linear salinity‐isotope correlation in spring, but partially reverse correlations in summers. The results show that evaporation processes in the shallow inner lagoons and varying Baltic Sea influence in the outer estuary regions are able to overprint the two‐phase mixing correlation between riverine and marine water masses.