Water exchange between the Baltic Sea and the North Sea, and conditions in the deep basins

 

	Editors: Rainer Feistel, Günther Nausch and Eberhard Hagen, IOW

 

Key message

The inflow activity of recent years from the Kattegat into the Baltic Sea was coined by a quite unusual sequence of events: a warm summer inflow 2002 was followed by a cold gale-forced one in January 2003, and again by a warm summer inflow 2003, all together they terminated the stagnation period in the Baltic deep water which lasted since 1995. The period afterwards was characterized by low inflow activities with only a slight intensification during 2006. Except in the southern Baltic, the stagnation period lasting since 2004/2005 is strengthening further.

Results and assessment

• Deep water renewal processes can be divided into two types. The “classical” barotropic Major Baltic Inflows (MBIs) and the “new” baroclinic inflows. MBIs occurring in winter and spring are causing higher salinities, low temperatures and increased oxygen levels in the deep basins, while those of either type in summer and autumn increase salinity along their pathway with high temperatures, but carry only low amounts of oxygen.

• Before about 1980, MBIs were relatively frequent and could be observed on average once a year. In the last two decades, however, they became rather scarce; the last three major inflows took place in 1993, 1997 and 2003, and a minor one in 2001.
• In 2003, the very contrasting thermal signatures of both inflow types provided (and still provide) natural ‘tracers’ and allowed a clear insight into the dynamics of deep water propagation through the main basins of the western and central Baltic (Fig. 1a).
  In the largest Baltic basin, the Eastern Gotland Basin (EGB), the barotropic inflows in autumn 1997 and October 2001 increased the temperature at about 200 m depth to more than 6.5°C but did not improve the oxygen conditions significantly.
  In addition, the exceptional baroclinic inflow in summer/autumn 2002 brought very warm water into this basin. Thereafter, it was immediately replaced by a very cold and dense MBI in January 2003, enhanced by some smaller events in spring. Temperature dropped down to around 4.5°C. Meanwhile, near-bottom temperatures have exceeded the long-term mean again as a consequence of the baroclinic inflow of 2003, and is raising further in 2007 due to the baroclinic inflows of 2006 (Nausch et al. 2007, Fig. 1b). The northern and western Gotland Basin is only indirectly affected by the baroclinic events of 2006:
  
  

  Deep	July 2003	July 2004	July 2005	July 2006	July 2007	Mean 1971-90
  Bornholm D.	3.71 °C	5.12 °C	6.97 °C	7.96 °C	8.80 °C	6.12 °C
  Gotland D.	4.63 °C	6.51 °C	5.97 °C	5.95 °C	6.82 °C	5.62 °C
  Farö D.	6.00 °C	5.87 °C	6.03 °C	6.19 °C	6.06 °C	5.20 °C
  Landsort D.	5.88 °C	5.69 °C	5.82 °C	5.78 °C	5.73 °C	4.76 °C
  Karlsö D.	4.90 °C	5.29 °C	5.34 °C	5.23 °C	5.14 °C	4.18 °C

• The major Baltic inflow from January 2003 was the last strong inflow event into the Baltic Sea. The deep basins were additionally influenced by a warm summer inflow in 2003. The salinity development in the Gotland Basin reflects these inflow processes (Fig. 2). In the deep water, steep increases after inflows are followed by slow decreases in the stagnation periods afterwards. It was particularly the short inflow of August 2003 which elevated the salinity again to levels typical for the 1960s and 1970s. The surface salinity is following this trend delayed by a decade. The effects of these events are phasing out, a new stagnation period had started already in 2004 and continued in 2006 in all deep basins of the central Baltic Sea. Thus, salinity in the bottom layer decreased from 2005 to 2006  but increased again recently due to the baroclinic inflows of 2006:
  
  

  Deep	July 2005	July 2006	July 2007
  Gotland Deep	12.73 psu	12.62 psu	12.89 psu
  Farö Deep	12.22 psu	12.11 psu	12.15 psu
  Landsort Deep	11.14 psu	11.06 psu	11.23 psu
  Karlsö Deep	10.35 psu	10.25 psu	10.41 psu

• Changes of the near-bottom distributions of dissolved oxygen resp. hydrogen sulphide reflect these processes and are displayed for the years 2004 – 2007  in Fig. 3. In spring 2003, the MBI of January had ventilated the Bornholm, Gdansk and Eastern Gotland Basin with considerable amounts of oxygen. In the latter basin an oxygen content of 3.96 ml/l could be measured in the near-bottom layer. Since then a deterioration of the oxygen situation in the deep water was observed. Hydrogen sulphide concentrations (expressed as negative oxygen equivalents) in the near-bottom layer increased continuously:
  
  

  Deep	May 2006	July 2006	July 2007
  Gotland Deep	−3.61 ml/l	−4.42 ml/l	−3.95 ml/l
  Farö Deep	−2.33 ml/l	−2.56 ml/l	−2.84 ml/l
  Landsort Deep	+0.50 ml/l	−1.01 ml/l	−1.08 ml/l
  Karlsö Deep	−0.86 ml/l	−1.88 ml/l	−2.74 ml/l

  
  Recent investigations in July 2007 have shown that the huge vertical extension of the layer containing hydrogen sulphide remained. At station 271 (Gotland Deep), hydrogen sulphide was found between around 137 m and the bottom, and at station 286 (Karlsö Deep) the layer between 120 m and the bottom was anoxic. In the western Gotland Basin the water layer below 80 m (Landsort Deep) resp. 70 m (Karlsö Deep) was free of oxygen. Due to the baroclinic inflows of 2006, the ventilation of the Bornholm Deep and the southern Gotland Basin has improved recently, but could affect the Eastern Gotland Basin only shortly in November 2006 and May 2007.

Figures

 

Fig. 1a. Temperature series 1997-2005 of the EGB mooring near the Gotland Deep at 174, 204 and 219 m depth. The bathymetric depth at the anchor position is H = 224 m. The temperature signals caused by the latest warm (red) and cold (blue) inflow events are indicated by arrows.

 

Fig. 1b. Temperature series 2006-2007 of the EGB mooring near the Gotland Deep at 178, 208 and 223 m depth. The bathymetric depth at the anchor position is H = 228 m.

 

 

Fig. 2. Salinity in the Gotland Deep at the surface, at 90 m, 120 m and 200 m depth from 1952 to 2006. Monthly mean time series available from the BALTIC atlas (Feistel et al. 2008).

 

 

 

 

 

Fig. 3. Areas with oxygen deficiency and hydrogen sulphide in the near bottom layer of the Baltic Sea in May in the years 2004 – 2007. Histograms show the maximum oxygen and hydrogen sulphide concentrations of this layer. The figure contains additionally the 70 m isobath. The top-left corner magnifies the western Baltic Sea with the 20 m isobath. Click images to enlarge!

 

References

Feistel R., Nausch G., Hagen E., 2003, The Baltic Inflow of Autumn 2001, Meereswiss. Ber. Warnemünde, 54, 55-68.                http://www.io-warnemuende.de/documents/mebe54_inflow01.pdf 

Feistel R., Nausch G., Matthäus W., Hagen E., 2003, Temporal and Spatial Evolution of the Baltic Deep Water Renewal in Spring 2003, Oceanologia 45, 623-642. http://www.iopan.gda.pl/oceanologia/454feis2.pdf 

Feistel R., Nausch G., Mohrholz V., Łysiak-Pastuszak E., Seifert T., Matthäus W., Krüger S., Sehested Hansen I., 2003, Warm Waters of Summer 2002 in the Deep Baltic, Oceanologia 45, 571-592. http://www.iopan.gda.pl/oceanologia/454feis1.pdf 

Feistel R., Nausch G., Matthäus W., Łysiak-Pastuszak E., Seifert T., Sehested Hansen I., Mohrholz V., Krüger S., Buch E., Hagen E., 2004, Background Data to the Exceptionally Warm Inflow into the Baltic Sea in Late Summer of 2002, Meereswiss. Ber. Warnemünde, 58, 1-58. http://www.io-warnemuende.de/documents/mebe58_2004_paper.pdf 

Feistel R., Nausch G., Heene T., Piechura J., Hagen E., 2004, Evidence for a Warm Water Inflow into the Baltic Proper in Summer 2003, Oceanologia 46, 581-598. http://www.iopan.gda.pl/oceanologia/464feist.pdf

Feistel R., Nausch G., Hagen E., 2006, Unusual Baltic Inflow Activity in 2002-2003 and varying Deep-Water Properties, Oceanologia 48(S), 21-35. http://www.iopan.gda.pl/oceanologia/48_S.html#A2

Feistel, R., Feistel, S., Nausch, G., Szaron, J., Łysiak-Pastuszak, E., Ærtebjerg, G., 2008, BALTIC: Monthly time series 1900 – 2005. In Feistel, R., Nausch, G., Wasmund, N. (Eds.), State and Evolution of the Baltic Sea, 1952 – 2005. A Detailed 50-Year Survey of Meteorology and Climate, Physics, Chemistry, Biology, and Marine Environment. John Wiley & Sons, Inc., Hoboken.

Meier, H.E.M., Feistel, R., Piechura, J., Arneborg, L., Burchard, H., Fiekas, V., Golenko, N., Kuzmina, N., Mohrholz, V.,Christian Nohr, Paka, V. T., Sellschopp, J., Stips, A., Zhurbas, V., 2006, Ventilation of the Baltic Sea deep water: A brief review of present knowledge from observations and models. Oceanologia 48(S), 2006, 133-164. http://www.iopan.gda.pl/oceanologia/48_S.html#A8

Nausch, G., Feistel, R., Lass, H.-U., Nagel, K., Siegel, H., 2007, Hydrographisch-chemische Zustandseinschätzung der Ostsee 2006. Meereswissenschaftliche Berichte Warnemünde 70, 2-91. http://www.io-warnemuende.de/documents/mebe70_2006-zustand-hc.pdf

Additional information

Cruise reports, oxygen deficiency maps: http://www.io-warnemuende.de/research/en_datbild.html

MARNET Darss Sill records: http://www.io-warnemuende.de/projects/monitoring/en_home.html

BSH MARNET: http://www.bsh.de/Meeresdaten/Beobachtungen/MARNET-Messnetz/index.jsp

Marine Science reports: http://www.io-warnemuende.de/research/mebe.html

BALTIC atlas : http://www.io-warnemuende.de/projects/baltic/index.html

Acknowledgments

The German part of Baltic Monitoring Programme (COMBINE) and stations of the German Marine Monitoring Network (MARNET) in the Baltic Sea (Darss Sill mast, Arkona Basin buoy) are conducted by IOW on behalf of the Bundesamt für Seeschifffahrt and Hydrographie (BSH), financed by the German Bundesministerium für Verkehr (BMV). The authors thank Jan Szaron, Oceanographic Laboratory of SMHI, Gothenburg, for providing us with hydrographic-hydrochemical observations from the Swedish Ocean Archive SHARK, obtained within the framework of the Swedish monitoring programme.

Summary (<20 words)

No important inflow events occurred since 2003. Thus, the stagnation period lasting since 2004/2005 is intensified. Some recent baroclinic inflows in 2006 changed the deep water temperatures and improved the oxygen situation in the southern Baltic.

For reference purposes, please cite this indicator fact sheet as follows:
[Author’s name(s)], [Year]. [Indicator Fact Sheet title]. HELCOM Indicator Fact Sheets 2007. Online. [Date Viewed],

http://www.helcom.fi/environment2/ifs/en_GB/cover/.

 

Last updated: 17.9.2007