Circulation of water masses in the Baltic Proper revealed through iodine isotopes

[1]  A. Aldahan,et al.  129I in the Baltic Proper and Bothnian Sea: application for estimation of water exchange and environmental impact. , 2013, Journal of environmental radioactivity.

[2]  A. Aldahan,et al.  Speciation of ¹²⁹I in sea, lake and rain waters. , 2012, The Science of the total environment.

[3]  S. B. Moran,et al.  Iodine-129, 137Cs, and CFC-11 tracer transit time distributions in the Arctic Ocean , 2011 .

[4]  A. Aldahan,et al.  Iodine isotopes (129I and 127I) in the Baltic Proper, Kattegat, and Skagerrak basins. , 2011, Environmental science & technology.

[5]  A. Aldahan,et al.  Global distribution and long‐term fate of anthropogenic 129I in marine and surface water reservoirs , 2010 .

[6]  R. Feistel,et al.  Vertical mixing in the Baltic Sea and consequences for eutrophication - A review , 2009 .

[7]  D. Conley,et al.  Past Occurrences of Hypoxia in the Baltic Sea , 2008 .

[8]  H. Meier Modeling the pathways and ages of inflowing salt- and freshwater in the Baltic Sea , 2007 .

[9]  A. Aldahan,et al.  Speciation of 129I and 127I in seawater and implications for sources and transport pathways in the North Sea. , 2007, Environmental science & technology.

[10]  A. Aldahan,et al.  Anthropogenic 129I in the Baltic Sea , 2007 .

[11]  A. Aldahan,et al.  Iodine-129 enrichment in sediment of the Baltic Sea , 2007 .

[12]  E. Kjellström,et al.  Estimating uncertainties of projected Baltic Sea salinity in the late 21st century , 2006 .

[13]  J. Sellschopp,et al.  Ventilation of the Baltic Sea deep water: A brief review of present knowledge from observations and models , 2006 .

[14]  V. Mohrholz,et al.  On pathways and residence time of saltwater plumes in the Arkona Sea , 2005 .

[15]  M. Voss,et al.  Nitrogen cycle of the Baltic Sea from an isotopic perspective , 2005 .

[16]  H. Meier Modeling the age of Baltic Seawater masses: Quantification and steady state sensitivity experiments , 2005 .

[17]  A. Aldahan,et al.  Tracing water masses with 129I in the western Nordic Seas in early spring 2002 , 2004 .

[18]  A. Aldahan,et al.  Concentrations of 129I along a transect from the North Atlantic to the Baltic Sea , 2004 .

[19]  R. Döscher,et al.  The Baltic haline conveyor belt or the overturning circulation and mixing in the Baltic. , 2004, Ambio.

[20]  K. Schwehr,et al.  129I/(127)I as a new environmental tracer or geochronometer for biogeochemical or hydrodynamic processes in the hydrosphere and geosphere: the central role of organo-iodine. , 2004, The Science of the total environment.

[21]  R. Feistel,et al.  Observations of low‐frequency current fluctuations in deep water of the Eastern Gotland Basin/Baltic Sea , 2004 .

[22]  J. Gascard,et al.  The Norwegian Atlantic Current in the Lofoten basin inferred from hydrological and tracer data (129I) and its interaction with the Norwegian Coastal Current , 2004 .

[23]  V. Mohrholz,et al.  On dynamics and mixing of inflowing saltwater in the Arkona Sea , 2003 .

[24]  W. Maslowski,et al.  Circulation of the Baltic Sea and its connection to the Pan-Arctic region - a large scale and high-resolution modeling approach , 2002 .

[25]  W. Krauss,et al.  Effects of remote and local atmospheric forcing on circulation and upwelling in the Baltic Sea , 2002 .

[26]  X. Hou,et al.  Chemical speciation analysis of 129I in seawater and a preliminary investigation to use it as a tracer for geochemical cycle study of stable iodine , 2001 .

[27]  U. Fehn,et al.  Dating of pore waters with (129)I: relevance for the origin of marine gas hydrates , 2000, Science.

[28]  A. Aldahan,et al.  Distribution and inventory of 129I in the central Arctic Ocean , 1999 .

[29]  A. Stigebrandt,et al.  Spreading of juvenile freshwater in the Baltic proper , 1998 .

[30]  J. Hurrell,et al.  DECADAL VARIATIONS IN CLIMATE ASSOCIATED WITH THE NORTH ATLANTIC OSCILLATION , 1997 .

[31]  B. Liljebladh,et al.  Observations of the deepwater flow into the Baltic Sea , 1996 .

[32]  G. Raisbeck,et al.  129I from nuclear fuel reprocessing facilities at Sellafield (U.K.) and La Hague (France); potential as an oceanographie tracer , 1995 .

[33]  G. Csanady Turbulent Diffusion in the Environment , 1973 .

[34]  R. R. Edwards Iodine-129: Its Occurrenice in Nature and Its Utility as a Tracer , 1962, Science.

[35]  A. Beszczynska,et al.  DIAMIX: an experimental study of diapycnal deepwater mixing in the virtually tideless Baltic Sea , 2002 .

[36]  A. Lehmann,et al.  On the wind driven and thermohaline circulation of the Baltic Sea , 2000 .

[37]  L. Kilius,et al.  129I and 137Cs tracer measurements in the Arctic Ocean , 1998 .

[38]  K. Różański,et al.  Deuterium and oxygen-18 in the baltic sea , 1988 .

[39]  W. Matthäus Climatic and seasonal variability of oceanological parameters in the Baltic Sea , 1984 .

[40]  M. Shima,et al.  The black particle found on Mt. Norkura, Japan , 1966 .