Tag Archives: Crafoord prize

Two legendary climate researchers receive this year’s Crafoord Prize

Syukuro Manabe and Susan Solomon have played dominant roles in climate research. They are being rewarded with Sweden’s Crafoord Prize in Geosciences 2018, worth six million kronor, for contributing decisive knowledge to aid in combatting of one of our time’s greatest global challenges.

The Royal Swedish Academy of Sciences will award the 2018 Crafoord Prize in Geosciences to:

Syukuro Manabe, Princeton University, USA

and

Susan Salomon, MIT, USA

for fundamental contributions to understanding the role of atmospheric trace gases in Earth’s climate system”.

Atmospheric physicist Syukoro Manabe created the first global climate model after his ground-breaking studies of atmospheric dynamics in the 1960s. In this model, he connected the processes that take place in the atmosphere and at ground level with the oceans’ movements and their thermal balance. This new way of using large-scale numerical modelling to predict how the Earth’s temperature is influenced by atmospheric carbon dioxide levels was a major breakthrough; researchers finally had the powerful tools they required to investigate the Earth’s complex climate systems. The basics of his work remain fundamental to contemporary climate models.

Syukoro Manabe has long been a world-leader in physically based numerical climate modelling and his development of the first global climate model is the foundation for all modern climate research.
Atmospheric chemist Susan Solomon solved the 1980s’ puzzle of the Antarctic ozone hole’s appearance, using theoretical and chemical measurement-focused studies in the Antarctic atmosphere. She examined the ice crystals in the stratospheric clouds that form there every year due to the extreme cold. These ice crystals cause the initiation of chemical processes that differ from those that were previously assumed to occur. On this basis, Susan Solomon presented a theory that explained the link between manmade CFC emissions and the chemical processes taking place in the Antarctic stratosphere in the early spring, ones that led to the extensive depletion of its ozone layer. Her theory was verified by the results of the measurements conducted in the stratosphere. Later, Susan Solomon showed how the thickness of the ozone layer in the southern hemisphere affects atmospheric flows and temperatures all the way down to ground level.

For more than 30 years, Susan Solomon’s studies have been at the absolute frontline of research into the ozone layer and its role in the Earth’s climate systems. The chemical reactions proposed by Susan Solomon are now one of the cornerstones for all modelling of the stratosphere’s chemical composition.

The Laureates

Syukuro Manabe, senior meteorologist, Atmospheric and Oceanic Sciences Program (AOS), Princeton University, NJ, USA. Born 1931.

https://aos.princeton.edu/people/syukuro-manabe

Susan Solomon, Lee and Geraldine Martin Professor of Environmental Studies, Department of Earth, Atmospheric and Planetary Sciences (EAPS), Massachusetts Institute of Technology, MIT, Cambridge, MA, USA. Born 1956.

https://eapsweb.mit.edu/people/solos/bio

Crafoord Prize is awarded for fundamental discoveries in immune regulation

 By Xuefei Chen Axelsson

STOCKHOLM, Jan. 25(Greenpost)–Three immunology researchers share 2017’s Crafoord Prize in Polyarthritis, for which the prize money is 6 million Swedish krona, according to a statement by the Crafoord Prize Foundation. 

The research being rewarded deals with the discovery of regulatory T cells, cells that can be regarded as our immune system’s security guards.

They put a brake on cells that are overzealous and attack the body’s own tissue. There are hopes that their discoveries will lead the way to new, highly effective treatment methods for autoimmune diseases, such as rheumatoid arthritis, MS and type 1 diabetes.

“The Royal Science Academy of Sciences has decided to award the 2017 Crafoord Prize in Polyarthritis to

Shimon Sakaguchi, Osaka University, Japan,

Fred Ramsdell, Parker Institute for Cancer Immunotherapy, San Francisco, CA, USA

and

Alexander Rudensky, Memorial Sloan Kettering Cancer Center, New York, NY, USA,

 

“for their discoveries relating to regulatory T cells, which counteract harmful immune reactions in arthritis and other autoimmune diseases.”

Autoimmune diseases arise when the body’s immune system malfunctions, attacking normal tissue. Globally, these diseases cause great suffering and premature death for millions of people. Autoimmune diseases include multiple sclerosis (MS), type 1 diabetes and polyarthritis. The latter is a term used for rheumatic diseases in which multiple joints are affected.

There are great hopes that highly effective treatments for autoimmune diseases will be possible, based on new knowledge about the immune system that was gained over the last few decades. Three researchers are now being rewarded for their fundamental discoveries in the field: Shimon Sakaguchi, Fred Ramsdell, and Alexander Rudensky.

The Laureates’ discoveries relate to regulatory T cells, which are the immune system’s security guards. Their task is to keep an eye on other white blood cells that are overzealous in their task of defending the body from intruders and could harm things they should leave alone, such as healthy cells in joints, the pancreas or brain.

Even back in the 1960s, researchers were searching for suppressor cells in the immune system, but the research results were contradictory. Accordingly, over time, the consensus became that no such cells existed. Despite this, Shimon Sakaguchi persevered with the search and, after many years, he succeeded in identifying the cells that are now called regulatory T cells. Some years later, Fred Ramsdell approached the same area from a different direction; he isolated and identified the gene that is linked to severe autoimmune disease in a particular strain of mice. He also demonstrated that mutation in the same gene in humans, now known as FOXP3, causes a severe congenital disease called IPEX. Shortly afterwards, decisive findings were made, linking these two pieces of knowledge together. Alexander Rudensky, Shimon Sakaguchi and Fred Ramsdell each described how the FOXP3 gene is vital to a process that results in some T cells becoming security guards in the immune system. These are the regulatory T cells, which can prevent autoimmune reactions because they detect and suppress overzealous colleagues in the immune system.

A great number of clinical trials are now being conducted globally, with research teams testing various ways of using regulatory T cells to subdue the immune system’s attacks that cause autoimmune diseases. The long-term vision is that of a breakthrough in the treatment of polyarthritis and other autoimmune syndromes, which could be treated more effectively than they are today.

 

Additional information, a video about this year’s prize and illustrations for editorial use are available at:

http://kva.se/crafoordprize

www.crafoordprize.se

 

This year’s Crafoord Prize

The Crafoord Prize is awarded as a partnership between the Royal Swedish Academy of Sciences and the Crafoord Foundation in Lund. The Royal Swedish Academy of Sciences is responsible for deciding upon the Crafoord Laureates.

The prize is awarded in one discipline each year, according to a set schedule for Mathematics and Astronomy, Geosciences, and Biosciences. The prize for Polyarthritis is awarded only when a special committee has demonstrated that scientific progress in this field has been such that an award is justified.

 

The prize amount is 6 million Swedish krona to be shared equally between the Laureates.

The award ceremony will be held at the Royal Swedish Academy of Sciences on 18 May 2017, in the presence of H.R.H. Crown Princess Victoria.

The Crafoord Days are 15–18 May 2017 in Stockholm and Lund. A detailed programme will be available at http://kva.se/events

Prize lecture: 16 May, Lund University.

Prize symposium: 17 May, Stockholm. Please register via http://kva.se/events

Prize ceremony: 18 May, Beijer Hall, Royal Swedish Academy of Sciences, Stockholm.

 

The Laureates

Shimon Sakaguchi, Professor at Osaka University, Japan. Discovered and documented the occurrence of regulatory T cells by systematically investigating cells that develop in the thymus of young mice, in a series of experiments from 1985 onwards. Born 1951.

www.ifrec.osaka-u.ac.jp/en/laboratory/experimentalimmunology/

 

Fred Ramsdell, Head of Research at Parker Institute for Cancer Immunotherapy, San Francisco, CA, USA. Identified the faulty gene in some mice and children that are born with IPEX, a severe autoimmune disease, in 2001. This gene, FOXP3, has proven to be vital in the development of regulatory T cells. Born 1961.

www.parkerici.org/about

 

Alexander Rudensky, Professor, Memorial Sloan Kettering Cancer Center, New York, NY, USA. Knocked out the FOXP3 gene in mice in 2003, so they were unable to form regulatory T cells and thus suffered from severe autoimmune diseases. At about the same time, Sakaguchi and Ramsdell independently presented evidence that FOXP3 governs the formation of regulatory T cells and, at a stroke, a dynamic new field of research arose. Born 1956.