|Arctic rhodolith beds and their environmental controls (Spitsbergen, Norway)|Teichert, S.; Woelkerling, W.; Rüggeberg, A.; Wisshak, M.; Piepenburg, D.; Meyerhöfer, M.; Form, A.; Freiwald, A. (2014). Arctic rhodolith beds and their environmental controls (Spitsbergen, Norway). Facies 60(1): 15-37. hdl.handle.net/10.1007/s10347-013-0372-2
In: Facies. Springer: Heidelberg; Berlin. ISSN 0172-9179, more
Corallinales [WoRMS]; Lithothamnion glaciale Kjellman, 1883 [WoRMS]; Phymatolithon tenue (Rosenvinge) Düwel & Wegeberg, 1996 [WoRMS]; Marine
Depth gradient; Environmental parameters; Lithothamnion glaciale; Phymatolithon tenue; Rhodolith community; Seasonality; Spitsbergen
|Authors|| || Top |
- Teichert, S.
- Woelkerling, W.
- Rüggeberg, A., more
- Wisshak, M.
- Piepenburg, D.
- Meyerhöfer, M.
- Form, A.
- Freiwald, A.
Coralline algae (Corallinales, Rhodophyta) that form rhodoliths are important ecosystem engineers and carbonate producers in many polar coastal habitats. This study deals with rhodolith communities from Floskjeret (78°18'N), Krossfjorden (79°08'N), and Mosselbukta (79°53'N), off Spitsbergen Island, Svalbard Archipelago, Norway. Strong seasonal variations in temperature, salinity, light regime, sea-ice coverage, and turbidity characterize these localities. The coralline algal flora consists of Lithothamnion glaciale and Phymatolithon tenue. Well-developed rhodoliths were recorded between 27 and 47 m water depth, while coralline algal encrustations on lithoclastic cobbles were detected down to 77 m water depth. At all sites, ambient waters were saturated with respect to both aragonite and calcite, and the rhodolith beds were located predominately at dysphotic water depths. The rhodolith-associated macrobenthic fauna included grazing organisms such as chitons and echinoids. With decreasing water depth, the rhodolith pavements were regularly overgrown by non-calcareous Polysiphonia-like red algae. The corallines are thriving and are highly specialized in their adaptations to the physical environment as well as in their interaction with the associated benthic fauna, which is similar to other polar rhodolith communities. The marine environment of Spitsbergen is already affected by a climate-driven ecological regime shift and will lead to an increased borealization in the near future, with presently unpredictable consequences for coralline red algal communities.