Oceanography, Sea surface temperature, Younger Dryas, Holocene and Climate change are her primary areas of study. Her Oceanography study integrates concerns from other disciplines, such as Sedimentary rock, Sediment and Earth science. Her Sediment study combines topics in areas such as Organic matter, Diagenesis, Carbon cycle, Sedimentary depositional environment and Earth system science.
Her Sea surface temperature research integrates issues from Desertification, Deposition, North Atlantic Deep Water, Thermohaline circulation and Deglaciation. Gesine Mollenhauer studies Alkenone which is a part of Holocene. Her Climate change research incorporates elements of Subtropics, Intertropical Convergence Zone, Precipitation, Northern Hemisphere and Last Glacial Maximum.
Her primary areas of study are Oceanography, Sediment core, Radiocarbon dating, Environmental chemistry and Table. Her Oceanography research is multidisciplinary, incorporating elements of Sediment and Terrigenous sediment. The concepts of her Sediment study are interwoven with issues in Sedimentary rock and Organic matter.
Her Sediment core research incorporates themes from Geochemistry and Mineralogy. The various areas that Gesine Mollenhauer examines in her Sea surface temperature study include North Atlantic Deep Water and Thermohaline circulation. The study incorporates disciplines such as Subtropics and Physical geography in addition to Holocene.
Her primary scientific interests are in Oceanography, Sediment core, Permafrost, Radiocarbon dating and Environmental chemistry. She regularly links together related areas like Peninsula in her Oceanography studies. Gesine Mollenhauer interconnects Geochemistry, Mineralogy and Table in the investigation of issues within Sediment core.
Her Permafrost study also includes
Gesine Mollenhauer mainly investigates Oceanography, Radiocarbon dating, Holocene, Permafrost and Sea ice. Her research integrates issues of Sedimentary rock, Glacial period and Globigerinoides in her study of Oceanography. Her biological study spans a wide range of topics, including Younger Dryas, Geochemistry, Ventilation, Carbon cycle and Terpenoid.
Gesine Mollenhauer has researched Holocene in several fields, including Yedoma and Physical geography. As part of one scientific family, Gesine Mollenhauer deals mainly with the area of Sea ice, narrowing it down to issues related to the Proxy, and often Ocean sea and Diatom. Gesine Mollenhauer combines subjects such as Ice core and Paleoclimatology with her study of Sea surface temperature.
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Selective preservation of organic matter in marine environments; processes and impact on the sedimentary record
K. A. F. Zonneveld;G. J. M. Versteegh;Sabine Kasten;T. I. Eglinton.
Consistently dated Atlantic sediment cores over the last 40 thousand years
Claire Waelbroeck;Bryan C. Lougheed;Natalia Vázquez Riveiros;Natalia Vázquez Riveiros;Lise Missiaen.
Scientific Data (2019)
Forcing of wet phases in southeast Africa over the past 17,000 years
Enno Schefuß;Holger Kuhlmann;Gesine Mollenhauer;Gesine Mollenhauer;Matthias Prange.
Increase in African dust flux at the onset of commercial agriculture in the Sahel region
Stefan Mulitza;David Heslop;Daniela Pittauerova;Helmut W. Fischer.
Eastern Pacific cooling and Atlantic overturning circulation during the last deglaciation
Markus Kienast;Stephanie S. Kienast;Stephen E. Calvert;Timothy I. Eglinton.
Asynchronous alkenone and foraminifera records from the Benguela Upwelling System
Gesine Mollenhauer;Timothy I Eglinton;Naohiko Ohkouchi;Ralph R Schneider.
Geochimica et Cosmochimica Acta (2003)
Sea surface temperature variability and sea‐ice extent in the subarctic northwest Pacific during the past 15,000 years
Lars Max;Jan-Rainer Riethdorf;Ralf Tiedemann;Maria Smirnova.
Origins of archaeal tetraether lipids in sediments : Insights from radiocarbon analysis
Sunita R. Shah;Gesine Mollenhauer;Naohiko Ohkouchi;Timothy I. Eglinton.
Geochimica et Cosmochimica Acta (2008)
Orbital- and millennial-scale changes in the hydrologic cycle and vegetation in the western African Sahel: insights from individual plant wax δD and δ^(13)C
Eva M. Niedermeyer;Eva M. Niedermeyer;Enno Schefuß;Alex L. Sessions;Stefan Mulitza.
Quaternary Science Reviews (2010)
Long chain 1,13-and 1,15-diols as a potential proxy for palaeotemperature reconstruction
Sebastiaan W. Rampen;Verónica Willmott;Jung-Hyun Kim;Eleonora Uliana.
Geochimica et Cosmochimica Acta (2012)
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