A regime shift in the Southeast Greenland marine ecosystem

Two major oceanographic changes have recently propagated through several trophic levels in coastal areas of Southeast Greenland (SEG). Firstly, the amount of drift‐ice exported from the Fram Strait and transported with the East Greenland Current (EGC) has decreased significantly over the past two de...

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Veröffentlicht in:	Global change biology 2023-02, Vol.29 (3), p.668-685
Hauptverfasser:	Heide‐Jørgensen, Mads Peter, Chambault, Philippine, Jansen, Teunis, Gjelstrup, Caroline V. B., Rosing‐Asvid, Aqqalu, Macrander, Andreas, Víkingsson, Gísli, Zhang, Xiangdong, Andresen, Camilla S., MacKenzie, Brian R.
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Sprache:	eng
Schlagworte:	Abundance Animals Aquatic mammals biodiversity Capelin Cetacea Coastal waters Coastal zone Dolphins Ecological conditions Ecosystem Fins Fish Fishes Greenland Habitat changes Ice Cover Ice observations ice volume export Interspecific relationships Krill Marine crustaceans Marine ecosystems Marine fishes Marine mammals Ocean temperature ocean warming Pack ice Predation predation estimates Sea ice Seasons Straits Summer teleconnection Temperature tipping element tipping point Trophic levels Whales
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creator	Heide‐Jørgensen, Mads Peter Chambault, Philippine Jansen, Teunis Gjelstrup, Caroline V. B. Rosing‐Asvid, Aqqalu Macrander, Andreas Víkingsson, Gísli Zhang, Xiangdong Andresen, Camilla S. MacKenzie, Brian R.
description	Two major oceanographic changes have recently propagated through several trophic levels in coastal areas of Southeast Greenland (SEG). Firstly, the amount of drift‐ice exported from the Fram Strait and transported with the East Greenland Current (EGC) has decreased significantly over the past two decades, and a main tipping element (summer sea ice) has virtually disappeared since 2003 leading to a regime shift in oceanographic and ecological conditions in the region. The following 20‐year period with low or no coastal sea ice is unique in the 200‐year history of ice observations in the region, and the regime shift is also obvious in the volume of ice export through the Fram Strait after 2013. In the same period, the temperature of the EGC south of 73.5 N has increased significantly (>2°C) since 1980. Secondly, the warm Irminger Current, which advects warm, saline Atlantic Water into the region, has become warmer since 1990. The lack of pack ice in summer together with a warming ocean generated cascading effects on the ecosystem in SEG that are manifested in a changed fish fauna with an influx of boreal species in the south and the subarctic capelin further north. At higher trophic levels there has been an increase in the abundance of several boreal cetaceans (humpback, fin, killer, and pilot whales and dolphins) that are either new to this area or occur in historically large numbers. It is estimated that the new cetacean species in SEG are responsible for an annual predation level of 700,000 tons of fish. In addition, predation on krill species is estimated at >1,500,000 tons mainly consumed by fin whales. Simultaneously, there has been a reduction in the abundance and catches of narwhals and walruses in SEG and it is suggested that these species have been impacted by the habitat changes. The amount of drift‐ice along East Greenland has decreased significantly over the past two decades, and the summer sea ice has virtually disappeared since 2003 leading to a regime shift in oceanographic and ecological conditions in the region. The lack of pack ice in summer together with a warming ocean generated cascading effects on the ecosystem in East Greenland that are manifested in a changed fish and marine mammal fauna with an influx of boreal species.
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The following 20‐year period with low or no coastal sea ice is unique in the 200‐year history of ice observations in the region, and the regime shift is also obvious in the volume of ice export through the Fram Strait after 2013. In the same period, the temperature of the EGC south of 73.5 N has increased significantly (>2°C) since 1980. Secondly, the warm Irminger Current, which advects warm, saline Atlantic Water into the region, has become warmer since 1990. The lack of pack ice in summer together with a warming ocean generated cascading effects on the ecosystem in SEG that are manifested in a changed fish fauna with an influx of boreal species in the south and the subarctic capelin further north. At higher trophic levels there has been an increase in the abundance of several boreal cetaceans (humpback, fin, killer, and pilot whales and dolphins) that are either new to this area or occur in historically large numbers. It is estimated that the new cetacean species in SEG are responsible for an annual predation level of 700,000 tons of fish. In addition, predation on krill species is estimated at >1,500,000 tons mainly consumed by fin whales. Simultaneously, there has been a reduction in the abundance and catches of narwhals and walruses in SEG and it is suggested that these species have been impacted by the habitat changes. The amount of drift‐ice along East Greenland has decreased significantly over the past two decades, and the summer sea ice has virtually disappeared since 2003 leading to a regime shift in oceanographic and ecological conditions in the region. 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B.</creatorcontrib><creatorcontrib>Rosing‐Asvid, Aqqalu</creatorcontrib><creatorcontrib>Macrander, Andreas</creatorcontrib><creatorcontrib>Víkingsson, Gísli</creatorcontrib><creatorcontrib>Zhang, Xiangdong</creatorcontrib><creatorcontrib>Andresen, Camilla S.</creatorcontrib><creatorcontrib>MacKenzie, Brian R.</creatorcontrib><title>A regime shift in the Southeast Greenland marine ecosystem</title><title>Global change biology</title><addtitle>Glob Chang Biol</addtitle><description>Two major oceanographic changes have recently propagated through several trophic levels in coastal areas of Southeast Greenland (SEG). Firstly, the amount of drift‐ice exported from the Fram Strait and transported with the East Greenland Current (EGC) has decreased significantly over the past two decades, and a main tipping element (summer sea ice) has virtually disappeared since 2003 leading to a regime shift in oceanographic and ecological conditions in the region. The following 20‐year period with low or no coastal sea ice is unique in the 200‐year history of ice observations in the region, and the regime shift is also obvious in the volume of ice export through the Fram Strait after 2013. In the same period, the temperature of the EGC south of 73.5 N has increased significantly (>2°C) since 1980. Secondly, the warm Irminger Current, which advects warm, saline Atlantic Water into the region, has become warmer since 1990. The lack of pack ice in summer together with a warming ocean generated cascading effects on the ecosystem in SEG that are manifested in a changed fish fauna with an influx of boreal species in the south and the subarctic capelin further north. At higher trophic levels there has been an increase in the abundance of several boreal cetaceans (humpback, fin, killer, and pilot whales and dolphins) that are either new to this area or occur in historically large numbers. It is estimated that the new cetacean species in SEG are responsible for an annual predation level of 700,000 tons of fish. In addition, predation on krill species is estimated at >1,500,000 tons mainly consumed by fin whales. Simultaneously, there has been a reduction in the abundance and catches of narwhals and walruses in SEG and it is suggested that these species have been impacted by the habitat changes. The amount of drift‐ice along East Greenland has decreased significantly over the past two decades, and the summer sea ice has virtually disappeared since 2003 leading to a regime shift in oceanographic and ecological conditions in the region. 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Firstly, the amount of drift‐ice exported from the Fram Strait and transported with the East Greenland Current (EGC) has decreased significantly over the past two decades, and a main tipping element (summer sea ice) has virtually disappeared since 2003 leading to a regime shift in oceanographic and ecological conditions in the region. The following 20‐year period with low or no coastal sea ice is unique in the 200‐year history of ice observations in the region, and the regime shift is also obvious in the volume of ice export through the Fram Strait after 2013. In the same period, the temperature of the EGC south of 73.5 N has increased significantly (>2°C) since 1980. Secondly, the warm Irminger Current, which advects warm, saline Atlantic Water into the region, has become warmer since 1990. The lack of pack ice in summer together with a warming ocean generated cascading effects on the ecosystem in SEG that are manifested in a changed fish fauna with an influx of boreal species in the south and the subarctic capelin further north. At higher trophic levels there has been an increase in the abundance of several boreal cetaceans (humpback, fin, killer, and pilot whales and dolphins) that are either new to this area or occur in historically large numbers. It is estimated that the new cetacean species in SEG are responsible for an annual predation level of 700,000 tons of fish. In addition, predation on krill species is estimated at >1,500,000 tons mainly consumed by fin whales. Simultaneously, there has been a reduction in the abundance and catches of narwhals and walruses in SEG and it is suggested that these species have been impacted by the habitat changes. 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subjects	Abundance Animals Aquatic mammals biodiversity Capelin Cetacea Coastal waters Coastal zone Dolphins Ecological conditions Ecosystem Fins Fish Fishes Greenland Habitat changes Ice Cover Ice observations ice volume export Interspecific relationships Krill Marine crustaceans Marine ecosystems Marine fishes Marine mammals Ocean temperature ocean warming Pack ice Predation predation estimates Sea ice Seasons Straits Summer teleconnection Temperature tipping element tipping point Trophic levels Whales
title	A regime shift in the Southeast Greenland marine ecosystem
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