2013
DOI: 10.3354/meps10373
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Eelgrass Zostera marina populations in northern Norwegian fjords are genetically isolated and diverse

Abstract: Populations along the northern boundary of a marine species' distributional range in the NE Atlantic are expected to harbor lower standing genetic variation as a consequence of postglacial expansion following the last glacial maximum. Founder events and marginal habitat availability may render the edge populations more vulnerable to anthropogenic stress and less capable of rapid adaptation to global climate change, a concern for conservation and management. We analyzed meadow architecture, persistence and conn… Show more

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Cited by 26 publications
(26 citation statements)
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“…Tissues were immediately frozen in LN 2 and stored at −80 °C for later DNA and RNA extraction. Monoclonality was verified by genotyping 40 ramets of the mega-clone with six highly polymorphic, microsatellite loci 30 . There was no evidence for polyploidy 25,31,32 (Z. marina is 2n = 12) or somatic mutations 33 as assessed by multiple peaks in the microsatellite chromatograms.…”
Section: Methodsmentioning
confidence: 99%
“…Tissues were immediately frozen in LN 2 and stored at −80 °C for later DNA and RNA extraction. Monoclonality was verified by genotyping 40 ramets of the mega-clone with six highly polymorphic, microsatellite loci 30 . There was no evidence for polyploidy 25,31,32 (Z. marina is 2n = 12) or somatic mutations 33 as assessed by multiple peaks in the microsatellite chromatograms.…”
Section: Methodsmentioning
confidence: 99%
“…The current warming of the globe is occurring twice as fast in the Arctic as for the globe on average (IPCC 2007), rendering the Arctic particularly susceptible to the effects of climate change. While several studies have documented the negative effects of high temper a tures on seagrass growth and survival at lower latitudes (Thayer et al 1984, Santamaría-Gallegos et al 2000, Nejrup & Pedersen 2008, Bergmann et al 2010, knowledge on productivity, growth and reproduction of eelgrass and probable responses to warming are lacking in the typically colder climates at the northern distribution limit (McRoy 1974, Duarte et al 2002, Berger 2011, Jørgensen & Bkkby 2013, Olsen et al 2013.…”
Section: Introductionmentioning
confidence: 99%
“…The Lofoten circulation which formed in early Holocene as a part of the North Atlantic Drift presumably could be involved in filtering of genotypes penetrated the north during postglacial recolonization of the Scandinavian Peninsula coastline. Similarly to C. edule , the eelgrass Zostera marina shows high genetic diversity in Northern Norway, in combination with low demographic connectivity between the populations from adjacent fjords (Olsen et al., ). Z. marina meadows in these fjords are located on the northeastern edge of the uninterrupted part of eelgrass distribution range in Europe, eelgrass has very scattered distribution in the Barents Sea and again become abundant in the White Sea (Green & Short, ).…”
Section: Discussionmentioning
confidence: 99%
“…At the same time, shores of the Norwegian and Barents Seas constitute about one quarter of the length of the geographical range of temperate intertidal communities in Europe. Recent studies of brown algae and seagrasses (Coyer, Hoarau, Van Schaik, Luijckx, & Olsen, ; Coyer, Hoarau, Costa et al., ; Olsen et al., ) show that subarctic populations can be genetically diverse and isolated from other parts of their distribution ranges.…”
Section: Introductionmentioning
confidence: 99%