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Nobel Prize in Physics Awarded for Study of Humanity’s Role in Changing Climate
The work of Syukuro Manabe, Klaus Hasselmann and Giorgio Parisi “demonstrate that our knowledge about the climate rests on a solid scientific foundation,” the committee said.
Cade Metz, Marc Santora and
Three scientists received the Nobel Prize in Physics on Tuesday for work that “laid the foundation of our knowledge of the Earth’s climate and how humanity influences it.”
The winners were Syukuro Manabe of Princeton University, Klaus Hasselmann of the Max Planck Institute for Meteorology in Hamburg, Germany, and Giorgio Parisi of the Sapienza University of Rome.
The work of all three is essential to understanding how Earth’s climate is changing and how human behavior is influencing those changes.
“The discoveries being recognized this year demonstrate that our knowledge about the climate rests on a solid scientific foundation, based on a rigorous analysis of observations,” said Thors Hans Hansson, chair of the Nobel Committee for Physics.
Complex systems, such as the climate, are often defined by their disorder. This year’s winners helped bring understanding to the seeming chaos, by describing those systems and predicting their long-term behavior.
Dr. Manabe demonstrated how increased levels of carbon dioxide in the atmosphere lead to increased temperatures on the surface of the Earth.
“In the 1960s, he led the development of physical models of the Earth’s climate and was the first person to explore the interaction between radiation balance and the vertical transport of air masses,” the committee said.
Dr. Hasselmann, a decade later, created a model that links weather and climate, “answering the question of why climate models can be reliable despite weather being changeable and chaotic,” the Nobel committee said in its statement.
Dr. Parisi’s discoveries were described as “among the most important contributions to the theory of complex systems.”
He is credited with the discovery of the interplay of disorder and fluctuations in physical systems from atomic to planetary scales.
“They make it possible to understand and describe many different and apparently entirely random materials and phenomena, not only in physics but also in other, very different areas, such as mathematics, biology, neuroscience and machine learning,” the committee said.
Why is the work important?
All three scientists have been working to understand the complex natural systems that have been driving climate change for decades, and their discoveries have provided the scaffolding on which predictions about climate are built.
The importance of their work has only gained urgency as the forecast models reveal an increasingly dire outlook if the rise in global temperature is not arrested.
In August, the Intergovernmental Panel on Climate Change, or IPCC, a body of scientists convened by the United Nations, released a report showing that the nations of the world can no longer stop global warming from intensifying. The global average temperature will rise 2.7 degrees Celsius by century’s end even if all countries meet their promised emissions cuts under the Paris Agreement. That temperature rise is likely to bring more extreme wildfires, droughts and floods, according to a United Nations report released in September.
But that they have a short window in which to curb fossil-fuel emissions and prevent the worst future outcomes, and the IPCC report builds directly on the models pioneered by Dr. Manabe.
“The climate scientists of today stand on the shoulders of these giants, who laid the foundations for our understanding of the climate system,” said Ko Barrett, senior adviser for climate at the National Oceanic and Atmospheric Administration, who is also vice-chair of the IPCC.
Robert Kopp, a climate scientist at Rutgers University who also worked on the IPCC report, called Dr. Manabe a critical figure in the rise of climate science in the mid-1960s.
“He took the weather models that were beginning to emerge in the period after World World II and turned them into the first climate models,” he said.
Piers Forster, a climate scientist at the University of Leeds in England, called Dr. Manabe’s 1967 paper detailing these models “arguably the greatest climate-science paper of all time.”
Dr. Barrett also hailed Dr. Hasselmann and Dr. Parisi for expanding on this work and praised the Nobel Committee for showing the world that today’s climate studies are grounded in decades of scientific work. “It is important to understand that climate science is built on basic foundations of physics,” she said.
Who are the winners?
Dr. Manabe is a senior meteorologist and climatologist at Princeton University. Born in 1931 in Shingu, Japan, he earned his Ph.D. in 1957 from the University of Tokyo before joining the U.S. Weather Bureau as a research meteorologist. In the 1960s, he led groundbreaking research into how increased levels of carbon dioxide lead to higher temperatures on the surface of the Earth. That work “laid the foundation for the development of current climate models,” according to the Nobel judges.
Dr. Hasselmann is a German physicist and oceanographer who greatly advanced public understanding of climate change through the creation of a model that links climate and chaotic weather systems. He is a professor at the Max Planck Institute for Meteorology in Hamburg. He received his Ph.D. in 1957 from the University of Göttingen in Germany before founding the meteorology institute, which he was head of until 1999. He is also the founder of what is now known as the Global Climate Forum. In 2009, Dr. Hasselmann received the 2009 BBVA Foundation Frontiers of Knowledge Award in Climate Change.
Dr. Parisi is an Italian theoretical physicist who was born in 1948 in Rome and whose research has focused on quantum field theory and complex systems. He received his Ph.D. from the Sapienza University of Rome in 1970. In 1980, he was responsible for discovering hidden patterns in disordered complex materials. He is a professor at the Sapienza University of Rome.
Referring to forecasts for the changing climate at a news conference after the prize was announced, Dr. Parisi said, “It’s clear that for the future generation, we have to act now in a very fast way.”
Who won the 2020 Nobel Prize in Physics?
The physics prize went to Roger Penrose, Reinhard Genzel and Andrea Ghez for their discoveries that have improved the understanding of the universe, including work on black holes.
Who else won a Nobel Prize in the sciences in 2021?
On Monday, the prize in Physiology or Medicine was jointly awarded to David Julius and Ardem Patapoutian for work that has led to the development of nonopioid painkillers.
Who else won Nobel Prizes in science in 2020?
Dr. Harvey J. Alter, Michael Houghton and Charles M. Rice received the prize for their discovery of the hepatitis C virus.
The chemistry prize was jointly awarded to Emmanuelle Charpentier and Jennifer A. Doudna for their work on the development of Crispr-Cas9, a method for genome editing.
When will the other Nobel Prizes be announced?
On Wednesday, the Chemistry prize will be announced in Stockholm.
The prize in Literature will be announced in Stockholm on Thursday. Read about last year’s winner, Louise Glück.
The Nobel Peace Prize will be announced on Friday in Oslo. Read about last year’s winner, the World Food Program.
On Monday, the prize in Economic Sciences will be announced in Stockholm. Last year’s prize was shared by Paul Milgrom and Robert Wilson.
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