Not exact matches
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.
BIOACID - Biological Impacts of
Ocean Acidification (the German research network on ocean acidifiction, 20 partner institutes from Ger
Ocean Acidification (the
German research network on
ocean acidifiction, 20 partner institutes from Ger
ocean acidifiction, 20 partner institutes from Germany)
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 soc
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
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 soc
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
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 soc
ocean, and what consequences these changes have for economy and society.
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.
The journal PLOS ONE published the results of the study, which was conducted as part of the
German research network BIOACID (Biological Impacts of
Ocean Acidification).
With the BIOACID II project,
German research on
ocean acidification continues its international top position.
The field experiment with the KOSMOS mesocosms is conducted at Taliarte, Gran Canaria as a joint activity of the
German research networks BIOACID (Biological Impacts of
Ocean Acidification) and SOPRAN (Surface
Ocean Processes in the Anthropocene) between January and April 2014.
The work was carried out in the framework of the
German project on
ocean acidification BIOACID (Biological Impacts of Ocean ACIDification), and lead by GEOMAR Helmholtz Centre for Ocean Research
ocean acidification BIOACID (Biological Impacts of
Ocean ACIDification), and lead by GEOMAR Helmholtz Centre for Ocean Research
Ocean ACIDification), and lead by GEOMAR Helmholtz Centre for
Ocean Research
Ocean Research Kiel.
Members of the
German research network BIOACID (Biological Impacts of
Ocean Acidification) are developing a model that links ecosystem changes triggered by ocean acidification and climate change with their economic and societal conseque
Ocean Acidification) are developing a model that links ecosystem changes triggered by ocean acidification and climate change with their economic and societal
Acidification) are developing a model that links ecosystem changes triggered by
ocean acidification and climate change with their economic and societal conseque
ocean acidification and climate change with their economic and societal
acidification and climate change with their economic and societal consequences.
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).
A two - day public meeting at the Royal Society, London on 4 - 5 June, 2015 will discuss the latest scientific findings arising from the UK
Ocean Acidification (UKOA)
research programme and the
German partnership programme, Biological Impacts of
Ocean Acidification (BIOACID).
The
German coordinated
research project on
ocean acidification BIOACID (Biological Impacts of Ocean Acidification) is extended for another three - year funding pe
ocean acidification BIOACID (Biological Impacts of Ocean Acidification) is extended for another three - year fu
acidification BIOACID (Biological Impacts of
Ocean Acidification) is extended for another three - year funding pe
Ocean Acidification) is extended for another three - year fu
Acidification) is extended for another three - year funding period.
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.
In a photo exhibition by the
German research network on
ocean acidification BIOACID, the two nature photographers Solvin Zankl and Nick Cobbing present BIOACID members at their work and introduce organisms that current
ocean acidification research focuses on.
Five years after their first «kick - off» at GEOMAR, the members of the
German research network on
ocean acidification BIOACID gathered again in Kiel.
Ragazzola carried out her experiment in 2010 at GEOMAR being a post-doctoral fellow in the
German Research Network on
Ocean Acidification BIOACID (Biological Impacts of
Ocean Acidification).