Baltic Sea

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Local environment

Definition and basic facts

Figure 1:Baltic Sea and its Drainage area[1]
The Baltic Sea – a shallow, epicontinental sea of volume 21,700 km3 , with a drainage area of ~1.7 million km2 - is one of the largest brackish seas in the world. Drainage runoff (660 km3 per year) exceeds ten times precipitation (if exclude evaporation) and makes up 2% of sea volume. Baltic is situated between 100 E ~54oN and ~310E to 660N (close to Arctic Circle) being under influence of mild Atlantic climate in south-west end to harsh continental – boreal climate in Bothnian Bay area. It is connected with Atlantic Ocean through system of very narrow and shallow straits (Great Baelt, Øresund and Little Baelt).
Table 1. Basic data of the Baltic Sea not included in the text (after Bonsdorff[2]).
Parameter Measure
Area

415 000km2

Length

1300 km

Width

1200km

Maximum depth

459m

Sill depth

17m

Residence time of water

25yr

Stratification and circulation

Figure 2:Salinity gradient

Restricted connection with open seas toogether with high riverine inflow results in „piling up” of water in the whole basin – In Gulf of Bothnia water level is 36cm higher than in North Sea, in middle part of Baltic Proper by 18 and in Kattegat by 10cm. This generate strong current in Sound system. Inversely enters weaker (reughly twofold) current bearing saline (<34PSU) waters from North Sea. Such balance of fresh vs. Saline waters – characteristic for estuaries – cause permanent strong salinity gradient. At entrance – in Kattegat – salinity of surface waters is around 20PSU but in Bornholm Basin decrease to 8PSU and even lower at North and East periphery (Fig.2)

Coasts

Figure 3: Inhabitants of sandy coasts

Southern part of the Baltic Sea is fringed mainly by coasts built of sedimentary material – leftovers after glacial time. Composed mainly of sand, are vulnerable mechanical stress of wind and wave action and due to its mobility is not conducive to seaweeds and vascular plant development, also only infaunal or meibenthic animals can endure here. Coastline here is rather straight and exposed, only in estuaries or supports shelters for flora.

Primary production

Characteristic feature of primary production in Baltic Sea is its seasonality and spatial variability. Spring bloom – main pulse of new organic matter in higher latitudes starts in February March in Westernmost while in Northern part, in May. Annual primary production vary from 500 [gC*y-1 *m-2] in Danish fjords to [50 gC*y-1 *m-2] in open waters of Western part of Baltic Proper (Rydberget al. 2006 [3]) in Gulf of Gdańsk annual primary production is as high as ~200[gC*m-2y-1] (Lorentz et al. 1991[4]) and well below 100[gC*m-2y-1] in Northern part of the Sea (Kangas et al. 1993,[5]). This decreasing trend reflects both salinity and climatic gradients.

Specific biodiversity issues

The flora and fauna of the Baltic is unusual in that there are areas in which freshwater, brackish water and marine species co-exist. For example, the freshwater plant Phragmites spp. and the marine wrack Fucus spp. can be found side by side. The Baltic Sea has existed for a relatively short time period and has undergone major changes; subsequently it contains a very limited brackish-water flora and fauna. The area is characterised by low species diversity, but many individuals of each species.


Threats

View of Baltic Sea from Dierhagen. Photo D Schiedek
Many of the marine species present are at the limit of their biogeographical distribution. The highest biodiversity is found in the southwest of the Baltic Sea. The major threats to marine biodiversity in the region are unsustainable exploitation of fisheries resources, eutrophication (enrichment from plant nutrient, reducing oxygen levels), pollution from contaminants and oil and the introduction of alien species.


References

  1. http://maps.grida.no/go/graphic/land_cover_baltic_sea_region_ balans
  2. Bonsdorff, E., C. Ronnberg & K. Arnio, 2002, Some ecological properties in relation to eutrophication in the Baltic Sea. Hydrobiologia 475/476, pp 371-377
  3. Rydberg. L, G. Ærtebjerg , L. Edler .2006. Fifty years of primary production measurements in the Baltic entrance region, trends and variability in relation to land-based input of nutrients. Journal of Sea Research 56, pp.1–16
  4. Lorenz Z, J. Nakonieczny, S. Ochocki, H.Renk. 1991. Primary Production and Chlorophyll in the Gulf of Gdansk in 1987-1988. Acta Ichtyologica Et Piscatoria Vol. XXI Supplement pp. 117-124
  5. Kangas, P., Alasaarela, E., Lax, H.-G., Jokela, S., C., Storgård-Envall. 1993. Seasonal variation of primary production and nutrient concentrations in the coastal waters of the Bothnian Bay and the Quark. Aqua Fennica, Vol. ( 2) . pp. 165-176

See also

  • Baltic Marine Environment Protection Commission (Helsinki Convention)
  • An exercise in comparing the pelagic and benthic macrofauna species diversity in Arctic, Antarctic and Baltic sites using the taxonomic distinctiveness index [1]
  • Values of, and threats to, marine and coastal habitats in the southern Baltic [2]
  • Shallow sandy sublittoral: the ecological treasure of the southern Baltic Sea [3]
  • Daily sea surface temperatures rom the late 1800s to the early 2000s implications for biodiversity in the Baltic Sea [4]
  • Application of benthic indices to assess biodiversity in the southern Baltic Sea [5]


The main author of this article is Wiktor, Józef
Please note that others may also have edited the contents of this article.

Citation: Wiktor, Józef (2009): Baltic Sea. Available from http://www.coastalwiki.org/wiki/Baltic_Sea [accessed on 21-11-2024]