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Data_Sheet_2.docx

Monteiro, Cátia ; Heinrich, Sandra ; Bartsch, Inka ; [et al.]

Frontiers Media SA ; 2019

In: Frontiers in Marine Science Vol. 6 ( 2019-12-12)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 6 ( 2019-12-12)

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2019.00769

DOI: 10.3389/fmars.2019.00769.s001

DOI: 10.3389/fmars.2019.00769.s002

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2019

detail.hit.zdb_id: 2757748-X

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Data_Sheet_1.pdf

Diehl, Nora ; Roleda, Michael Y. ; Bartsch, Inka ; [et al.]

Frontiers Media SA ; 2021

In: Frontiers in Marine Science Vol. 8 ( 2021-10-11)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 8 ( 2021-10-11)

Abstract: Kelps are important foundation species in coastal ecosystems currently experiencing pronounced shifts in their distribution patterns caused by ocean warming. While some populations found at species’ warm distribution edges have been recently observed to decline, expansions of some species have been recorded at their cold distribution edges. Reduced population resilience can contribute to kelp habitat loss, hence, understanding intraspecific variations in physiological responses across a species’ latitudinal distribution is crucial for its conservation. To investigate potential local responses of the broadly distributed kelp Saccharina latissima to marine heatwaves in summer, we collected sporophytes from five locations in Europe (Spitsbergen, Bodø, Bergen, Helgoland, Locmariaquer), including populations exposed to the coldest and warmest local temperature regimes. Meristematic tissue from sporophytes was subjected to increasing temperatures of Δ+2, Δ+4 and Δ+6°C above the respective mean summer temperatures (control, Δ±0°C) characteristic for each site. Survival and corresponding physiological and biochemical traits were analyzed. Vitality (optimum quantum yield, F v /F m ) and growth were monitored over time and biochemical responses were measured at the end of the experiment. Growth was highest in northern and lowest in southern populations. Overall, northern populations from Spitsbergen, Bodø and Bergen were largely unaffected by increasing summer temperatures up to Δ+6°C. Conversely, sporophytes from Helgoland and Locmariaquer were markedly stressed at Δ+6°C: occurrence of tissue necrosis, reduced F v /F m , and a significantly elevated de-epoxidation state of the xanthophyll cycle (DPS). The variations in phlorotannins, mannitol and tissue C and N contents were independent of temperature treatments and latitudinal distribution pattern. Pronounced site-specific variability in response to increasing temperatures implies that exceeding a threshold above the mean summer temperature exclusively affect rear-edge (southernmost) populations.

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2021.695821

DOI: 10.3389/fmars.2021.695821.s001

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2021

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Data_Sheet_1.PDF

Krause-Jensen, Dorte ; Archambault, Philippe ; Assis, Jorge ; [et al.]

Frontiers Media SA ; 2020

In: Frontiers in Marine Science Vol. 7 ( 2020-12-23)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 7 ( 2020-12-23)

Abstract: The Arctic climate is changing rapidly. The warming and resultant longer open water periods suggest a potential for expansion of marine vegetation along the vast Arctic coastline. We compiled and reviewed the scattered time series on Arctic marine vegetation and explored trends for macroalgae and eelgrass ( Zostera marina ). We identified a total of 38 sites, distributed between Arctic coastal regions in Alaska, Canada, Greenland, Iceland, Norway/Svalbard, and Russia, having time series extending into the 21st Century. The majority of these exhibited increase in abundance, productivity or species richness, and/or expansion of geographical distribution limits, several time series showed no significant trend. Only four time series displayed a negative trend, largely due to urchin grazing or increased turbidity. Overall, the observations support with medium confidence (i.e., 5–8 in 10 chance of being correct, adopting the IPCC confidence scale) the prediction that macrophytes are expanding in the Arctic. Species distribution modeling was challenged by limited observations and lack of information on substrate, but suggested a current (2000–2017) potential pan-Arctic brown macroalgal distribution area of 655,111 km 2 (140,433 km 2 intertidal, 514,679 km 2 subtidal), representing an increase of about 45% for subtidal- and 8% for intertidal macroalgae since 1940–1950, and associated polar migration rates averaging 18–23 km decade –1 . Adjusting the potential macroalgal distribution area by the fraction of shores represented by cliffs halves the estimate (340,658 km 2 ). Warming and reduced sea ice cover along the Arctic coastlines are expected to stimulate further expansion of marine vegetation from boreal latitudes. The changes likely affect the functioning of coastal Arctic ecosystems because of the vegetation’s roles as habitat, and for carbon and nutrient cycling and storage. We encourage a pan-Arctic science- and management agenda to incorporate marine vegetation into a coherent understanding of Arctic changes by quantifying distribution and status beyond the scattered studies now available to develop sustainable management strategies for these important ecosystems.

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2020.617324

DOI: 10.3389/fmars.2020.617324.s001

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2020

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Corrigendum: Imprint of Climate Change on Pan-Arctic Marine Vegetation

Krause-Jensen, Dorte ; Archambault, Philippe ; Assis, Jorge ; [et al.]

Frontiers Media SA ; 2021

In: Frontiers in Marine Science Vol. 8 ( 2021-7-13)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 8 ( 2021-7-13)

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2021.701634

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2021

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Data_Sheet_3.docx

Liesner, Daniel ; Pearson, Gareth A. ; Bartsch, Inka ; [et al.]

Frontiers Media SA ; 2022

In: Frontiers in Marine Science Vol. 9 ( 2022-3-10)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 9 ( 2022-3-10)

Abstract: Marine forests and kelps as their foundation species are threatened by ocean warming especially at the warm distributional edges. Previously identified genetic divergence and ecotypic differentiation within kelp species may allow to produce more resilient lineages by intraspecific outbreeding among populations. In a mechanistic investigation of heat stress, heterosis (hybrid vigour), and underlying gene expression patterns, we assessed the thermal performance of inbred (selfings) and outbred (reciprocal crosses) sporophytes of the N-Atlantic kelp Laminaria digitata among clonal isolates from two divergent populations; one from the temperate North Sea (Helgoland) and one from the Arctic (Spitsbergen). First, we investigated the upper thermal tolerance of microscopic sporophytes in a 14-day experiment applying sublethal to lethal 20–23°C. The upper survival temperature of microscopic sporophytes was lower for the inbred Arctic selfing (21°C) than for the temperate selfing and the reciprocal crosses (22°C). Only in the temperate selfing, 4.5% of sporophytes survived 23°C. We then subjected 4–7 cm long sporophytes to a control temperature (10°C), moderate (19°C) and sublethal to lethal heat stress (20.5°C) for 18 days to assess gene expression in addition to physiological parameters. Growth and optimum quantum yield decreased similarly in the reciprocal crosses and the temperate selfing at 19 and 20.5°C, while inbred Arctic sporophytes died within seven days at both 19 and 20.5°C. In response to 20.5°C, 252 genes were constitutively regulated across all surviving lineages, which we use to describe metabolic regulation patterns in response to heat stress in kelp. At sublethal 20.5°C, ca. 150 genes were differentially expressed by either crossed lineage in comparison to the temperate selfing, indicating that they maintained a growth response similar to the temperate selfing with differential metabolic regulation during sublethal heat stress. Subtle differences in physiology and the differential expression of nine genes between the reciprocal crosses at 20.5°C indicate that female and male gametophytes may contribute differently to offspring traits. We consider potential inbreeding depression in the Spitsbergen selfing and quantify the better performance of both crosses using heterosis-related parameters. We discuss the potential and risks of outbreeding to produce more resilient crops for mariculture and marine forest restoration.

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2022.838793

DOI: 10.3389/fmars.2022.838793.s001

DOI: 10.3389/fmars.2022.838793.s002

DOI: 10.3389/fmars.2022.838793.s003

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2022

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