The scientist’s investigation covers issues in Oceanography, Climatology, Holocene, North Atlantic Deep Water and Sea surface temperature. His Oceanography study focuses mostly on Holocene climatic optimum, Sea ice, Ice sheet, Cryosphere and Atlantic multidecadal oscillation. His Sea ice research includes themes of Foraminifera, Bottom water, Polar front and Water column.
The Holocene study combines topics in areas such as Meltwater, Boreal, Fjord and Chronology. His studies deal with areas such as Northern Hemisphere, Ocean current and Orbital forcing as well as Sea surface temperature. His study in North Atlantic oscillation is interdisciplinary in nature, drawing from both Gulf Stream, Water mass, Circumpolar deep water and Thermohaline circulation.
Matthias Moros focuses on Oceanography, Holocene, Sediment core, Sediment and Sea ice. His Sea surface temperature, Foraminifera, Bottom water, North Atlantic Deep Water and Water mass study are his primary interests in Oceanography. His work in Holocene addresses subjects such as Marine transgression, which are connected to disciplines such as Radiocarbon dating.
Matthias Moros combines subjects such as Environmental chemistry, Geochemistry, Mineralogy and Soil science with his study of Sediment core. His studies in Sediment integrate themes in fields like Structural basin, Dinoflagellate, Period, Hydrography and Fjord. Matthias Moros works mostly in the field of Sea ice, limiting it down to concerns involving Ice sheet and, occasionally, Ice core, Ice shelf and Glacier.
His primary scientific interests are in Oceanography, Holocene, Foraminifera, Sediment and Sea surface temperature. His study in Oceanography focuses on Bottom water, Sea ice, Water mass, Benthic zone and Hydrography. His Holocene research is multidisciplinary, incorporating perspectives in Marine transgression, Sediment core and Ice sheet.
Matthias Moros interconnects Cruise, Polar front, Ridge and Paleoceanography in the investigation of issues within Foraminifera. The study incorporates disciplines such as Dinoflagellate, Radiocarbon dating, Ecological succession, Geochemistry and Environmental history in addition to Sediment. His Sea surface temperature study combines topics in areas such as Leeuwin current, Submarine pipeline, Last Glacial Maximum and Moraine.
His primary scientific interests are in Oceanography, Holocene, Sediment, Foraminifera and Sedimentary rock. His work deals with themes such as Primary productivity and Ecosystem, which intersect with Oceanography. His study on Holocene is covered under Paleontology.
His research in Sediment intersects with topics in Hydrography and Dinoflagellate. His Sedimentary rock study integrates concerns from other disciplines, such as Structural basin and Water column. The concepts of his Greenland ice sheet study are interwoven with issues in Atlantic multidecadal oscillation, Arctic ice pack, Sea ice and Alkenone.
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Holocene cooling culminates in sea ice oscillations in Fram Strait
Juliane Müller;Kirstin Werner;Ruediger Stein;Kirsten Fahl.
Quaternary Science Reviews (2012)
Sea surface temperatures and ice rafting in the Holocene North Atlantic: climate influences on northern Europe and Greenland
Matthias Moros;Kay Emeis;Bjørg Risebrobakken;Ian Snowball.
Quaternary Science Reviews (2004)
A highly unstable Holocene climate in the subpolar North Atlantic: evidence from diatoms
Cathrine Andersen;Cathrine Andersen;Nalan Koc;M. Moros.
Quaternary Science Reviews (2004)
Holocene history of drift ice in the northern North Atlantic: Evidence for different spatial and temporal modes
Matthias Moros;John T. Andrews;Dennis D. Eberl;Eystein Jansen.
Early Holocene palaeoceanography and deglacial chronology of Disko Bugt, West Greenland
J.M. Lloyd;L.A. Park;A. Kuijpers;M. Moros.
Quaternary Science Reviews (2005)
Impact of climate change on the Baltic Sea ecosystem over the past 1,000 years
Karoline Kabel;Matthias Moros;Christian Porsche;Thomas Neumann.
Nature Climate Change (2012)
Influence of the tropics and southern westerlies on glacial interhemispheric asymmetry
Patrick De Deckker;Matthias Moros;Kerstin Perner;Eystein Jansen.
Nature Geoscience (2012)
A signal of persistent Atlantic multidecadal variability in Arctic sea ice
Martin W. Miles;Martin W. Miles;Dmitry V. Divine;Dmitry V. Divine;Tore Furevik;Tore Furevik;Eystein Jansen;Eystein Jansen.
Geophysical Research Letters (2014)
An extensive and dynamic ice sheet on the West Greenland shelf during the last glacial cycle.
C. Ó Cofaigh;J.A. Dowdeswell;A.E. Jennings;K.A. Hogan.
Early Holocene temperature variability in the Nordic Seas: The role of oceanic heat advection versus changes in orbital forcing
Bjørg Risebrobakken;Trond Dokken;Lars Henrik Smedsrud;Carin Andersson;Carin Andersson.
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