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SPECIAL: Stronger evidence for a weaker Atlantic overturning

 Stronger evidence for a weaker Atlantic overturning
The Atlantic overturning – one of Earth’s most important heat transport systems, pumping warm water northwards and cold water southwards – is weaker today than any time before in more than 1000 years. Sea surface temperature data analysis provides new evidence that this major ocean circulation has slowed down by roughly 15 percent since the middle of the 20th century, according to a study published in the highly renowned journal Nature by an international team of scientists. Human-made climate change is a prime suspect for these worrying observations. Read more...

„Self-combustion“: Schellnhuber's view of the big picture

„Self-combustion“: Schellnhuber's view of the big picture

11/02/2015 - From the pioneer days in barracks to the Pope in the Vatican, from the first mathematical equations to cutting edge computer simulations – for three decades, the physicist and political advisor Hans Joachim Schellnhuber has been exploring climate change as a challenge for humanity. Account of the state of research, life story, eco-manifest: all this is his major upcoming book on the climate crisis. As the founder and director of the Potsdam Institute for Climate Impact Research (PIK), he authored hundreds of scientific papers and shaped ideas like the internationally-accepted two-degree limit. A few weeks prior to the UN Climate Summit in Paris, his book now addresses a wider public.

„Self-combustion“: Schellnhuber's view of the big picture - Read More…

Local destabilization can cause complete loss of West Antarctica’s ice masses

Local destabilization can cause complete loss of West Antarctica’s ice masses

11/02/2015 -The huge West Antarctic ice sheet would collapse completely if the comparatively small Amundsen Basin is destabilized, scientists of the Potsdam Institute for Climate Impact Research find. A full discharge of ice into the ocean is calculated to yield about 3 meters of sea-level rise. Recent studies indicated that this area of the ice continent is already losing stability, making it the first element in the climate system about to tip. The new publication for the first time shows the inevitable consequence of such an event. According to the computer simulations, a few decades of ocean warming can start an ice loss that continues for centuries or even millennia.

Local destabilization can cause complete loss of West Antarctica’s ice masses - Read More…

If a major economy takes the lead, warming could be limited to 2°C

If a major economy takes the lead, warming could be limited to 2°C

10/26/2015 - Though most countries around the globe agree that warming must be limited to 2 degrees Celsius to avoid the raft of climate risks, they clash about who should do what to reach this target. Hence the issue of allocating greenhouse-gas emissions reductions will be key for the outcome of the world climate summit COP21 in Paris. Scientists now found what amount of emissions reductions it takes for a major economy to lead out of the climate gridlock. They conclude that effectively limiting climate change is possible if a major economy acts as a forerunner, while other nations follow – and, importantly, by doing so they do not have to agree on common criteria for fairness.

If a major economy takes the lead, warming could be limited to 2°C - Read More…

National contributions provide entry point for the low-carbon transformation

National contributions provide entry point for the low-carbon transformation

10/22/2015 - While the currently submitted national contributions to the new global climate agreement do not yet put the world on track to limit warming to 2 degrees Celsius, they imply an unprecedented acceleration and consolidation of action against climate change in major economies around the world. Moreover, they can serve as an entry point for the deep low-carbon transformation, if the Paris Agreement includes a mechanism to strengthen and broaden policy commitments by 2020 at the latest. This is shown by a report published today by a consortium of 14 research institutes. The scientists and economists provide a detailed analysis of the energy sector transformations required to implement the intended nationally determined contributions (so called INDCs), in major economies and at the global level in aggregate, and their potential for keeping the below 2 degrees goal within reach.

National contributions provide entry point for the low-carbon transformation - Read More…

Distinguishing coincidence from causality: connections in the climate system

Distinguishing coincidence from causality: connections in the climate system

10/07/2015 - Detecting how changes in one spot on Earth – in temperature, rain, wind – are linked to changes in another, far away area is key to assessing climate risks. Scientists now developed a new technique of finding out if one change can cause another change or not, and which regions are important gateways for such teleconnections. They use advanced mathematical tools for an unprecedented analysis of data from thousands of air pressure measurements. The method now published in Nature Communications can be applied to assess geoengineering impacts as well as global effects of local extreme weather events, and can potentially also be applied to the diffusion of disturbances in financial markets, or the human brain.

Distinguishing coincidence from causality: connections in the climate system - Read More…

The warmer the higher: sea-level rise from Filchner-Ronne ice in Antarctica

The warmer the higher: sea-level rise from Filchner-Ronne ice in Antarctica

10/05/2015 - The more ice is melted of the Antarctic Filchner-Ronne shelf, the more ice flows into the ocean and the more the region contributes to global sea-level rise. While this might seem obvious, it is no matter of course for the huge ice masses of Antarctica: parts of the ice continent are characterized by instabilities that, once triggered, can lead to persistent ice discharge into the ocean even without a further increase of warming - resulting in unstoppable long-term sea-level rise. In the Filchner-Ronne region however, ice-loss will likely not show such behavior, scientists from the Potsdam Institute for Climate Impact Research now found. Published in Nature Climate Change, their study shows that in this area the ice flow into the ocean increases just constantly with the heat provided by the ocean over time.

The warmer the higher: sea-level rise from Filchner-Ronne ice in Antarctica - Read More…

"A trefoil in the woods" - PIK scientists move into new research building

"A trefoil in the woods" - PIK scientists move into new research building

09/28/2015 - Potsdam´s climate science moves into a new, energetically highly innovative research building. The modern facility with a ground plan shaped like a trefoil will accomodate not only about 200 scientists on four floors, but also the new supercomputer of the Potsdam Institute for Climate Impact Research (PIK) that is among the 400 fastest high-performance computers worldwide. Brandenburg´s Minister of Research, Sabine Kunst, as well as Stefan Müller, State Secretary of the Federal Ministry for Education and Research, and Matthias Kleiner, President of the Leibniz Association, congratulated the institute at the festive opening for its exceptional building - which itself is a research project, too.

"A trefoil in the woods" - PIK scientists move into new research building - Read More…

Burning all fossil energy would raise sea-level by more than 50 meters – and eliminate all ice of Antarctica

Burning all fossil energy would raise sea-level by more than 50 meters – and eliminate all ice of Antarctica

09/11/2015 - Burning all of the world’s available fossil-fuel resources would result in the complete melting of the Antarctic ice sheet, a new study to be published in Science Advances shows. The Antarctic ice masses store water equivalent to more than 50 meters of sea-level rise. The new calculations show that Antarctica’s long-term contribution to sea-level rise could likely be restricted to a few meters that could still be manageable, if global warming did not exceed 2 degrees. Crossing this threshold, however, would in the long run destabilize both West and East Antarctica – causing sea-level rise that would reshape coastal regions around the globe for millennia to come.

Burning all fossil energy would raise sea-level by more than 50 meters – and eliminate all ice of Antarctica - Read More…

How network dynamics shape collaboration

How network dynamics shape collaboration

08/25/2015 - From the Earth System to the human brain, from families to Facebook – complex networks can be found everywhere around us. Describing the structure of socio-economic systems, the analysis of complex networks can improve our understanding of interactions and transformations within our society. A team of researchers now used this approach to explore the development of large coalitions in a network of acquaintances, when cooperation promises the highest economic or social advantages. For the first time, they focused on how social relations interact with this process. Published in the journal Scientific Reports of the renowned Nature group, their results show that full cooperation is most probable when the network adapts only slowly to new coalition structures. If the network adapts faster than new coalitions form, its fragmentation might prevent the formation of large-scale coalitions.

How network dynamics shape collaboration - Read More…

CO2 removal cannot save the oceans – if we pursue business as usual

CO2 removal cannot save the oceans – if we pursue business as usual

08/03/2015 - Greenhouse-gas emissions from human activities do not only cause rapid warming of the seas, but also ocean acidification at an unprecedented rate. Artificial carbon dioxide removal (CDR) from the atmosphere has been proposed to reduce both risks to marine life. A new study based on computer calculations now shows that this strategy would not work if applied too late. CDR cannot compensate for soaring business-as-usual emissions throughout the century and beyond, even if the atmospheric carbon dioxide (CO2) concentration would be restored to pre-industrial levels at some point in the future. This is due to the tremendous inertia of the ocean system. Thus, CDR cannot substitute timely emissions reductions, yet may play a role as a supporting actor in the climate drama.

CO2 removal cannot save the oceans – if we pursue business as usual - Read More…

From power grids to heartbeat: Using mathematics to restore rhythm

From power grids to heartbeat: Using mathematics to restore rhythm

07/15/2015 - When a rhythm stalls, the effect can be fatal – in a power grid it can mean a blackout, and in the human heart even death. An international team of scientists has now developed a new approach for revoking these undesired quenching states. They use an advanced mathematical methodology, building on complex networks analysis, and demonstrate it in experiments with chemical reactions. This could one day help to stabilize the flow of electricity in power grids challenged by the variable input from renewable energy sources. Future research could apply it to other complex networks, including processes within body cells and even the human cardiovascular system.

From power grids to heartbeat: Using mathematics to restore rhythm - Read More…

New super-computer for climate science ranks among world’s top 400

New super-computer for climate science ranks among world’s top 400

07/13/2015 - The new high-performance computer at the Potsdam Institute for Climate Impact Research ranks among the 400 fastest world-wide. This was announced today at the beginning of the International Supercomputing Conference in Frankfurt, Germany. The machine is able to do 212 trillion calculations per second – so called Teraflops. This allows simulations of the complex interactions between atmosphere, oceans, land and ice-sheets to a much larger extent than was hitherto possible on site. The computer’s waste heat is used – environmentally-friendly – to heat the new PIK research building.

New super-computer for climate science ranks among world’s top 400 - Read More…

Record-breaking heavy rainfall events increased under global warming

Record-breaking heavy rainfall events increased under global warming

07/08/2015 - Heavy rainfall events setting ever new records have been increasing strikingly in the past thirty years. While before 1980, multi-decadal fluctuations in extreme rainfall events are explained by natural variability, a team of scientists of the Potsdam Institute for Climate Impact Research detected a clear upward trend in the past few decades towards more unprecedented daily rainfall events. They find the worldwide increase to be consistent with rising global temperatures which are caused by greenhouse-gas emissions from burning fossil fuels. Short-term torrential rains can lead to high-impact floodings.

Record-breaking heavy rainfall events increased under global warming - Read More…

“Humanity at risk “: climate scientist Schellnhuber speaks at the Vatican

“Humanity at risk “: climate scientist Schellnhuber speaks at the Vatican

06/18/2015 - Pope Francis’ much anticipated encyclical “Laudato Si” on inequality and the environment mirrors not only religious insights but also the findings of climate science. “Not the poor but the wealthy are putting our planet, and ultimately humanity, at risk,” said Hans Joachim Schellnhuber, director of the Potsdam Institute for Climate Impact Research (PIK), at the presentation of the encyclical in the Vatican today. “Those who profited least from the exploitation of fossil fuels and contributed least to greenhouse-gas emissions are hit hardest by global warming impacts, unless we strongly reduce emissions.” Schellnhuber is the only scientist who has been invited to speak, alongside Cardinal Peter Turkson.

“Humanity at risk “: climate scientist Schellnhuber speaks at the Vatican - Read More…

What would it take to limit climate change to 1.5°C?

What would it take to limit climate change to 1.5°C?

05/21/2015 - A new study analyzes the required climate policy actions and targets in order to limit future global temperature rise to less than 1.5 degrees Celsius by 2100. This level is supported by more than 100 countries worldwide, including those most vulnerable to climate change, as a safer goal than the currently agreed international aim of 2 degrees Celsius – an aim which would already imply substantial greenhouse-gas reductions. Hence the interest for scrutinizing the very low end of greenhouse-gas stabilization scenarios.

What would it take to limit climate change to 1.5°C? - Read More…

Towards a new industrial revolution: studying societies’ metabolism

Towards a new industrial revolution: studying societies’ metabolism

05/19/2015 - To achieve a lasting transition towards sustainability, large-scale conversion of our built environment – cities, transport systems, power generation – is key. This is an outcome of a special feature investigating advances in the research on industrial ecology, published in the Proceedings of the US National Academy of Sciences (PNAS) and coordinated by the Potsdam Institute for Climate Impact Research (PIK). Studies cover topics from the urbanization effects to the material basis of modern societies, fundamental research that informs decision-makers.

Towards a new industrial revolution: studying societies’ metabolism - Read More…

“The Great Urban Transformation“: Nobel Laureates call on cities to tackle sustainability challenge

“The Great Urban Transformation“: Nobel Laureates call on cities to tackle sustainability challenge

04/25/2015 - Cities around the globe need to re-invent themselves if they want to be a safe home for generations to come. Nobel Laureates call upon cities to tackle the dual challenge of population growth and climate change and seize the opportunity to lead the transition to sustainability. National and internationally agreed greenhouse-gas reduction targets need to guide and support local action. The distinguished scientists signed a memorandum this week in Hong Kong at the end of the three-day Nobel Laureates Symposium on Global Sustainability, convened for the first time in Asia. The Symposium was co-hosted by the Potsdam Institute for Climate Impact Research and the Asia Society Hong Kong Center.

“The Great Urban Transformation“: Nobel Laureates call on cities to tackle sustainability challenge - Read More…

“Developing our cities, preserving our planet”: Nobel Laureates gather for the first time in Asia

“Developing our cities, preserving our planet”: Nobel Laureates gather for the first time in Asia

23.04.2015 - Nobel Laureates across the world and across disciplines this week are gathering in Hong Kong to elevate the debate on climate change to a new level and to feed into the world climate summit in Paris later this year. For the first time, the Nobel Laureates are meeting in Asia for the symposium, “4C: Changing Climate, Changing Cities”. Cities are key to addressing the challenge of climate change which, if unabated, might result in a 4°C rise in mean temperature by the end of this century. Participants of the symposium include Nobel Prize winners Yuan T. Lee (Chemistry, 1986) from Taiwan, Brian Schmidt (Physics, 2011) from Australia, and James A. Mirrlees from the United Kingdom (Economics, 2006), complemented by international renowned experts such as K.S. Wong, Secretary for the Environment, The Government of the Hong Kong Special Administrative Region, and Aromar Revi of the Indian Institute for Human Settlements.

“Developing our cities, preserving our planet”: Nobel Laureates gather for the first time in Asia - Read More…

Climate change in Antarctica: Natural temperature variability underestimated - Cold spell superimposes man-made warming

Climate change in Antarctica: Natural temperature variability underestimated - Cold spell superimposes man-made warming

04/16/2015 - The Antarctic ice sheet is one of the tipping elements in the climate system and hence of vital importance for our planet’s future under man-made climate change. Even a partial melting of the enormous ice masses of Antarctica would raise sea-levels substantially. Therefore it is of utmost importance to provide sound knowledge on the extent of anthropogenic warming of the ice-covered continent. A new analysis by German physicists shows that the uncertainties in the temperature trends over Antarctica are larger than previously estimated. “So far it seemed there were hardly any major natural temperature fluctuations in Antarctica, so almost every rise in temperature was attributed to human influence,” says Armin Bunde of Justus-Liebig-Universität Gießen (JLU). “Global warming as a result of our greenhouse gas emissions from burning fossil fuels is a fact. However, the human influence on the warming of West Antarctica is much smaller than previously thought. The warming of East Antarctica up to now can even be explained by natural variability alone.” The results of their study are now published in the journal Climate Dynamics.

Climate change in Antarctica: Natural temperature variability underestimated - Cold spell superimposes man-made warming - Read More…

Top marks for PIK: Senate of the Leibniz Association confirms excellence

Top marks for PIK: Senate of the Leibniz Association confirms excellence

03/24/2015 - The senate of the Leibniz Association - an organisation uniting more than 80 scientific institutions - issued a statement on Monday which brings the evaluation of PIK to a successful conclusion. The research results of the institute as a whole were rated “outstanding”. The rating is based on a review carried out by a team of top international researchers, which takes place only once every seven years. The reviewers judged that PIK has developed into a globally leading institute for climate science. As well as its achievements in research, the institute's important role in scientific policy advice was praised.

Top marks for PIK: Senate of the Leibniz Association confirms excellence - Read More…

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