These included, in particular, scientists working in one of the member institutions of
the German Marine Research Consortium (KDM) and the Cluster of Excellence «The Future Ocean».
Not exact matches
In October 2009 the atmospheric physicist from the Alfred Wegener Institute, Helmholtz Centre for Polar and
Marine Research (AWI) was on board the German research vessel «Sonne» to measure trace substances in the atmosphere in the tropical West
Research (AWI) was on board the
German research vessel «Sonne» to measure trace substances in the atmosphere in the tropical West
research vessel «Sonne» to measure trace substances in the atmosphere in the tropical West Pacific.
The authors of the paper included Shfaquat A. Khan and Per Knudsen of the Technical University of Denmark; Ingo Sasgen and Veit Helm of the Helmholtz Centre for Polar and
Marine Research; Tonie van Dam of the University of Luxembourg; Jonathan L. Bamber of the University of Bristol; John Wahr (now deceased) of the University of Colorado; Michael Willis of Cornell University; Kurt H. Kjaer and Anders A. Bjork of the University of Copenhagen; Bert Wouters and Peter Kuipers Munneke of Utrecht University; Beata Csatho of the University at Buffalo; Kevin Fleming of the GFZ
German Research Center for Geosciences; and Andy Aschwanden of the University of Alaska Fairbanks.
According to a study conducted by
marine biologists of GEOMAR Helmholtz Centre for Ocean
Research Kiel and Rostock University within the German research network BIOACID (Biological Impacts of Ocean Acidification), eutrophication — that is already known for its negative effects — and rising seawater temperatures could lead to a decline of the bladder wrack in the Bal
Research Kiel and Rostock University within the
German research network BIOACID (Biological Impacts of Ocean Acidification), eutrophication — that is already known for its negative effects — and rising seawater temperatures could lead to a decline of the bladder wrack in the Bal
research network BIOACID (Biological Impacts of Ocean Acidification), eutrophication — that is already known for its negative effects — and rising seawater temperatures could lead to a decline of the bladder wrack in the Baltic Sea.
«This cooling reduced precipitation over Africa, and in combination with a range of other complex climate feedback mechanisms tipped the humid system towards aridification,» explains the first author of the study, James Collins from Helmholtz Centre Potsdam — GFZ
German Research Centre for Geosciences and Alfred Wegener Institute — Helmholtz Center for Polar and
Marine Research (AWI) in Bremerhaven.
«We have been able to show that the deep sea is the largest long - time archive of DNA, and a major window to study past biodiversity,» writes Pedro Martinez Arbizu, a deep - sea biologist of the
German Centre for
Marine Biodiversity
Research in Wilhelmshaven and an author of the paper on South Atlantic DNA in an e-mail.
Vtor A. P. Martins dos Santos of the
German Research Center for Biotechnology and his colleagues broke the
marine organism's genome into more than 3 million base pairs and then pieced them together into a complete genetic map.
The following site states
German researchers from the Alfred - Wegener - Institute for Polar and
Marine Research found that mean ice thickness in September 2007 is 1 metre, down by half from 2001.
Between 2009 and 2017, the
German research network BIOACID (Biological Impacts of Ocean Acidification) investigated how different
marine species respond to ocean acidification, how these reactions impact the food web as well as material cycles and energy turnover in the ocean, and what consequences these changes have for economy and society.
More than 250 members of 20
German research institutes, representing a broad range of marine science disciplines, participated in the project coordinated by GEOMAR Helmholtz Centre for Ocean Resear
research institutes, representing a broad range of
marine science disciplines, participated in the project coordinated by GEOMAR Helmholtz Centre for Ocean
ResearchResearch Kiel.
In a joint effort, scientists from Plymouth
Marine Laboratory (UK), the Cluster of Excellence LabexMER (France), Scripps Institution of Oceanography (United States), the University Pierre and Marie Curie (France), the UK Ocean Acidification
research programme (UKOA) and the
German research network Biological Impacts of Ocean Acidification (BIOACID) engaged with public and policymakers at COP 21.
Funding was provided through the European Community's Seventh Framework Programme (FP7) «European Project on Ocean Acidification» (EPOCA), the European Marie Curie Initial Training Network «Calcification of
Marine Organisms» (CalMarO) and the project by
German Ministry for Education and
Research (BMBF) «Biological Impacts of Ocean ACIDification» (BIOACID).
About BIOACID: Since 2009, more than 250 BIOACID scientists from 20
German research institutes have investigated how different
marine organisms respond to ocean acidification and increasing carbon dioxide concentrations in seawater, how their performance is affected during their various life stages, how these reactions impact
marine food webs and elemental cycles and whether they can be mitigated by evolutionary adaptation.
«Toxic substances have a far greater impact here than at other latitudes because they are degraded very slowly,» says physicist Marcel Nicolaus of the Alfred Wegener Institute for Polar and
Marine Research in the northern
German port city of Bremerhaven.
The latest study was conducted by a group of
German scientists of [hold tight for lengthy description] the
Research Unit Potsdam of the Alfred Wegener Institute for Polar and
Marine Research in the Helmholtz Association, and published in the journal Tellus A, which is hosted by the International Meteorological Institute in Stockholm.
In 2010 there was a publication in the Journal of Geophysical
Research by [two Vladimirs — can't ignore such trivialities — of] the
German Potsdam Institute for Climate Impact
Research and Leibniz Institute of
Marine Sciences at the University of Kiel.
Working Group 2, Chapter 1 Hamilton, J.M., 2003a: Climate and the destination choice of
German tourists, Working Paper FNU - 15 (revised), Centre for
Marine and Climate
Research, University of Hamburg, 36 pp.