Abstract
In Arctic Norway, the risk of major marine oil spills associated with increasing offshore drilling, land terminal, and maritime transport activities is a cause for concern. Intertidal and subtidal kelp and seaweed communities found in this region are highly productive ecosystems, although sea urchin (Strongylocentrotus droebachiensis)-overgrazed areas (urchin barrens) have been and still are a widespread problem. In the present study, we developed a kelp (Laminaria hyperborea) distribution model and studied fauna distribution, dispersal and recolonisation potentials in seaweed communities, kelp forests and sea urchin-grazed areas to assess sensitivity and vulnerability of these rocky shore communities to additional stress from oil spills, especially if the oil is released close to the coast. Our results suggest that sheltered and moderately exposed rocky shore seaweed communities close to urchin barrens are the most sensitive systems when a combined ecological effect from grazing and oil spill pollution is considered. Our study may have implications for which oil spill countermeasures that represent the best environmental practice (BEP) in the northern coastal areas that already are ecologically stressed because of sea urchin overgrazing.
Highlights
The Arctic region is currently experiencing mounting pressure from offshore petroleum industrial activity
The L. hyperborea kelp distribution model is a crucial part of the assessment of probable oil spill effects in this study, as the kelp forests may function as a source during the recovery
In the study area at the northernmost part of the Norwegian coast, we found differences in fauna composition, colonisation rates of mobile animals and distribution of kelp forests along environmental gradients in a way that is relevant for assessing oil spill vulnerability
Summary
The Arctic region is currently experiencing mounting pressure from offshore petroleum industrial activity. Norway facing the Barents Sea, especially close to the city of Hammerfest, at 70.7oN (Bambulyak et al 2015). These trends call for environmental management and action plans that are adapted to marine oil spill situations in Arctic waters, coastlines and ecosystems. Shallow subtidal coastal areas in northern Norway are dominated by rocky shores dominated by seaweed (Fucales) beds and kelp (Laminaria spp. and Saccharina latissima) forests. These vegetation systems support numerous ecosystem services of which communities of mobile invertebrate animals are of principal importance as food for coastal fish. During the last four decades, a regime shift from highly productive kelp forest (Laminaria hyperborea) ecosystems to green sea urchin (Strongylocentrotus droebachiensis)dominated barren grounds has been observed along this coastline and in many coastal temperate and Arctic seas around the world (Skadsheim et al 1995; Sivertsen 1997; Norderhaug and Christie 2009; Filbee-Dexter and Scheibling 2014; Ling et al 2015), leaving patches of intact kelp only in the most wave-exposed locations, whereas less
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
