Abstract
We investigated the ultraviolet radiation (UVR) transmission properties of Norwegian oceanic, coastal and fjord waters, and how they influence the primary production and vertical distribution of phytoplankton. Values of the 1% UVR attenuation depth and diffuse attenuation coef- ficients (Kd) in the Greenland and Norwegian Seas (GNS), in the coastal waters of south-western Nor- way (SWN) and in the Samnanger fjord (SAF) are presented. Maximum penetration of UVR in the GNS was confirmed by Kd(320) = 0.25 m -1 , and mimimum penetration in the SAF, by Kd(320) = 9 m -1 . In the GNS, Kd and chlorophyll a (chl a) were closely correlated, while coloured dissolved organic matter (CDOM) was the main contributor to ultraviolet (UV) attenuation in the SAF. Also, in SWN waters, CDOM was more important than chl a for UV attenuation, but less important than in SAF waters. In GNS and SAF waters the average vertical distribution of chl a had its maximum in the upper 10 and 7.5 m of the water column, respectively, while in SWN waters it had its maximum at 20 m. The depths with the highest photosynthetic rates per unit volume decreased successively from the oceanic waters of the GNS via the coastal waters of the SWN to the fjord waters of the SAF. Under similar PAR intensities, however, the water column photosynthetic efficiency (integrated carbon assimilation/chl a ratio) was highest in SWN waters. Maximum and mean percentage potential for inhibition of the estimated (from PAR and UV) primary production due to UVR at a depth of 5 m were 11 and 4.3% in the GNS, 3.2 and 0.9% in the SWN and 0.5 and 0.1% in the SAF. The UVR potential for inhibition was significant down to a depth of 10 m in the GNS, down to a depth of 5 m in the waters of the SWN, while it was seldom found deeper than 3 m in the SAF. These variations could be ascribed to differences in CDOM concentrations and mixed-layer depths. The optical properties of the investigated water masses were found to be highly influenced by the circulation patterns.
Highlights
In spite of relatively short growth seasons the oceanic and coastal waters surrounding Norway are among the most productive in the world (Blindheim & Skjoldal 1993, Nielsen et al 1993)
We investigated the ultraviolet radiation (UVR) transmission properties of Norwegian oceanic, coastal and fjord waters, and how they influence the primary production and vertical distribution of phytoplankton
In south-western Norway (SWN) waters, coloured dissolved organic matter (CDOM) was more important than chl a for UV attenuation, but less important than in Samnanger fjord (SAF) waters
Summary
In spite of relatively short growth seasons the oceanic and coastal waters surrounding Norway are among the most productive in the world (Blindheim & Skjoldal 1993, Nielsen et al 1993). Spawning of the commercially most important fish stocks takes place at certain sites along the Norwegian coast, within the fjords and in shallow regions in the oceanic realm. Häder et al (1995) showed that in the marine ecosystem even a small increase or a temporary fluctuation in the UV-B (280 to 320 nm) radiation may cause permanent damage to sensitive species. According to Helbling & Villafañe (2002) little has been done to investigate possible consequences of increased levels of UV-B radiation for the marine food web in Norwegian Arctic waters and subarctic waters in general.
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