Add to ORKGFuture global warming will impact coastal marine ecosystems significantly. These changes are expected to be particularly dramatic in the sub-Arctic and Arctic regions which have experienced similar conditions during warm periods in the past (e.g., Holocene Optimum, mid-Pliocene Warm Period). Palaeo-climatic information from these periods will facilitate our predictions of future climate change. Fossil shells of the bivalve Arctica islandica constitute reliable bio-archives for coastal regions of the North Atlantic over geological time scales. We analysed sub-fossil shells of A. islandica from Svalbard for their potential to reconstruct local palaeoenvironmental conditions. These shells were collected from raised beach deposits in Dicksonfjo...
The Holocene, starting approximately 11.7 cal ka, is characterized by distinct periods of warming an...
Five species of guide fossils from the Holocene warm period in Svalbard are considered: Mytilus edul...
Understanding the climate of the past is essential for anticipating future climate change. Palaeocli...
In-depth paleoenvironmental studies in polar regions are critical to gain a better understanding of ...
In-depth paleoenvironmental studies in polar regions are critical to gain a better understanding of ...
In-depth paleoenvironmental studies in polar regions are critical to gain a better understanding of ...
Future climate change will have significant effects on ecosystems worldwide and on polar regions in ...
Until now, there has been no published documentation of North Sea year-to-year climate variability d...
Until now, there has been no published documentation of North Sea year-to-year climate variability d...
As the Arctic enters a regime of rapid warming in the 21st century, looking into Earth’s past may pr...
Climate change in the Arctic during the Holocene is reconstructed using shell carbonate isotopes fro...
Climate change in the Arctic during the Holocene is reconstructed using shell carbonate isotopes fro...
Climate change in the Arctic during the Holocene is reconstructed using shell carbonate isotopes fro...
A comprehensive understanding of past climates and environmental conditions is essential for our abi...
High-resolution climate reconstruction, North Sea, annual banded proxy, Arctica islandica. - Until ...
The Holocene, starting approximately 11.7 cal ka, is characterized by distinct periods of warming an...
Five species of guide fossils from the Holocene warm period in Svalbard are considered: Mytilus edul...
Understanding the climate of the past is essential for anticipating future climate change. Palaeocli...
In-depth paleoenvironmental studies in polar regions are critical to gain a better understanding of ...
In-depth paleoenvironmental studies in polar regions are critical to gain a better understanding of ...
In-depth paleoenvironmental studies in polar regions are critical to gain a better understanding of ...
Future climate change will have significant effects on ecosystems worldwide and on polar regions in ...
Until now, there has been no published documentation of North Sea year-to-year climate variability d...
Until now, there has been no published documentation of North Sea year-to-year climate variability d...
As the Arctic enters a regime of rapid warming in the 21st century, looking into Earth’s past may pr...
Climate change in the Arctic during the Holocene is reconstructed using shell carbonate isotopes fro...
Climate change in the Arctic during the Holocene is reconstructed using shell carbonate isotopes fro...
Climate change in the Arctic during the Holocene is reconstructed using shell carbonate isotopes fro...
A comprehensive understanding of past climates and environmental conditions is essential for our abi...
High-resolution climate reconstruction, North Sea, annual banded proxy, Arctica islandica. - Until ...
The Holocene, starting approximately 11.7 cal ka, is characterized by distinct periods of warming an...
Five species of guide fossils from the Holocene warm period in Svalbard are considered: Mytilus edul...
Understanding the climate of the past is essential for anticipating future climate change. Palaeocli...