TY - JOUR A1 - Selle, Benny A1 - Graeff, Thomas A1 - Salzmann, Thomas A1 - Oswald, Sascha Eric A1 - Walther, Marc A1 - Miegel, Konrad T1 - Investigation of a renatured fen catchment on the Baltic Sea coast of Mecklenburg - Part II: Salt dynamics and water balance JF - Hydrologie und Wasserbewirtschaftung N2 - Coastal fens like the nature reserve "Hutelmoor und Heiligensee" (north-eastern Germany) are important landscape elements along the southern Baltic coast, which exchange fresh water and brackish water with the Baltic Sea. These exchange processes can be understood as experiments with a natural tracer, which may be used to investigate the hydrologic behaviour of these fen systems. With the establishment of coastal protection measures such as dunes and dikes, the installation of surface drainage and, more recently, also nature conservation measures, the hydrologic regime of these coastal wetlands has constantly altered over the last centuries.The rehabilitated wetland "Hutelnnoor und Heiligensee" is suitable for an analysis of hydrologic change as it has been monitored over the time period since nature conservation measures started in the 1990s. Collected data sets included observation of groundwater levels and electrical conductivities, weather data as well as discharge at the outlet of the drainage catchment. In this article, as a second part of the dual publication, processes and quantified process magnitudes have been identified that govern the salt balance of the study area including its variability in space and time. It was detected that - over the period of rehabilitation - salt water entered the catchment with an episodic storm surge by wave overtopping of dunes in 1995. The intruded brackish water was then diluted, which was a slow process extending over decades. It was governed by local groundwater recharge from precipitation and the inflow of relatively fresh groundwater from the hinterland. It is concluded that salt inputs from the Baltic Sea provide a natural tracer of hydrological processes, which can be readily monitored via electrical conductivity measurements. KW - Baltic Sea KW - coastal wetland KW - drainage of the catchment area KW - groundwater flow KW - management effects KW - system analysis KW - water balance Y1 - 2016 U6 - https://doi.org/10.5675/HyWa_2016.4_2 SN - 1439-1783 VL - 60 SP - 259 EP - 268 PB - Bundesanst. für Gewässerkunde CY - Koblenz ER - TY - JOUR A1 - Munz, Matthias A1 - Oswald, Sascha Eric A1 - Schmidt, Christian T1 - Analysis of riverbed temperatures to determine the geometry of subsurface water flow around in-stream geomorphological structures JF - Journal of hydrology N2 - The analytical evaluation of diurnal temperature variation in riverbed sediments provides detailed information on exchange fluxes between rivers and groundwater. The underlying assumption of the stationary, one-dimensional vertical flow field is frequently violated in natural systems where subsurface water flow often has a significant horizontal component. In this paper, we present a new methodology for identifying the geometry of the subsurface flow field using vertical temperature profiles. The statistical analyses are based on model optimisation and selection and are used to evaluate the shape of vertical amplitude ratio profiles. The method was applied to multiple profiles measured around in-stream geomorphological structures in a losing reach of a gravel bed river. The predominant subsurface flow field was systematically categorised in purely vertical and horizontal (hyporheic, parafluvial) components. The results highlight that river groundwater exchange flux at the head, crest and tail of geomorphological structures significantly deviated from the one-dimensional vertical flow, due to a significant horizontal component. The geometry of the subsurface water flow depended on the position around the geomorphological structures and on the river level. The methodology presented in this paper features great potential for characterising the spatial patterns and temporal dynamics of complex subsurface flow geometries by using measured temperature time series in vertical profiles. (C) 2016 Elsevier B.V. All rights reserved. KW - Temperature time series KW - Amplitude ratio KW - River-groundwater exchange KW - Hyporheic zone KW - In-stream geomorphological structures KW - River restoration Y1 - 2016 U6 - https://doi.org/10.1016/j.jhydrol.2016.05.012 SN - 0022-1694 SN - 1879-2707 VL - 539 SP - 74 EP - 87 PB - Elsevier CY - Amsterdam ER -