A new study explains how carbon dioxide cools the upper atmosphere—and warms earth below

Researchers have solved a long-standing atmospheric puzzle: How rising carbon dioxide cools the stratosphere even as it warms Earth’s surface and lower atmosphere.

Columbia Climate School

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View of Earth taken during International Space Station Expedition 66

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Credit: NASA

Even as temperatures rise on Earth’s surface and in the lower atmosphere, the planet’s upper atmosphere has cooled dramatically. This paradoxical pattern is a well-known sign of humanity’s climate impacts—but until now, the underlying physics has remained a mystery.

In a new study, researchers from Columbia University describe the phenomenon’s mechanics, illuminating how it is largely determined by the way carbon dioxide (CO2) interacts with different wavelengths of light.

“It explains a phenomenon that’s a fingerprint of climate change, has been known to occur for decades, and has not been understood,” says Robert Pincus, a research professor of ocean and climate physics at Lamont-Doherty Earth Observatory, which is part of the Columbia Climate School, and co-author of the study published in Nature Geoscience.

In the lower atmosphere, CO2 molecules trap heat that would otherwise escape into space. Higher in the atmosphere, though, the dynamics change. In the stratosphere—the atmospheric layer that extends from about 11km to 50 km above Earth’s surface—CO2 molecules function almost like a radiator, absorbing infrared energy from below and emitting some of that energy into space. When more CO2 is added, the stratosphere radiates heat away more efficiently and it cools.

This was predicted in the 1960s by climatologist Syukuro Manabe’s Nobel Prize-winning models of Earth’s climate and CO2-induced global warming. The stratosphere has cooled by roughly 2 degrees Celsius since the mid-1980s. That’s estimated to be more than 10 times the amount of cooling that would have occurred in the absence of human-caused CO2 emissions.

However, though the basic principles of stratospheric cooling are understood, the specifics have remained cloudy. “The existing theory was incredibly insightful, but at the moment we lack a quantitative theory for CO2-induced stratospheric cooling,” says Sean Cohen, a postdoctoral research scientist at Lamont-Doherty Earth Observatory, which is part of the Columbia Climate School, and the study’s lead author.

Cohen, Pincus, and Lorenzo Polvani, a geophysicist in Columbia Engineering’s Department of Applied Physics and Applied Mathematics, developed their theory through an iterative method of identifying the key processes involved in stratospheric cooling, assigning mathematical values to them, comparing the results of their pen-and-paper models to comprehensive simulations and real-world data, tweaking their equations and repeating. Over several months they deduced the equations that best fit.

The researchers arrived at a central factor: how CO2 molecules interact with light, and in particular infrared—also known as longwave—light. Not every infrared wavelength passes through them in the same way. Some wavelengths contribute to cooling more than others, and the team determined that wavelengths in a certain “Goldilocks zone” are especially efficient. As CO2 accumulates in the atmosphere, that zone expands.

“It’s those changes in efficiency that are going to ultimately be what’s driving stratospheric cooling,” says Cohen.

The researchers also quantified the roles played by ozone and water vapor. These are implicated in similar processes as CO2—they too can trap heat in the lower atmosphere but contribute to cooling in the stratosphere by radiating heat—but turn out to have little influence compared with CO2.

The researchers’ equations fit with three well-described phenomena: How stratospheric cooling varies by altitude, with the least cooling occurring at its lowest level and the most at its highest level; how each doubling of CO2 translates to a cooling of 8 degrees Celsius at the stratopause, or the stratosphere’s upper reaches; and how a cooler stratosphere lets less infrared energy escape to space, increasing CO2’s heat-trapping effect. In other words: CO2 makes the stratosphere better at radiating, which cools it—but because it becomes colder, the Earth system ends up losing less heat to space overall, strengthening warming below.

“Here’s this process that we’ve known about for 50-plus years, and we had a pretty decent qualitative understanding of how it worked. However, we didn’t understand the details of what actually drove that process mechanistically,” says Cohen.

Cohen and Pincus say the implications of the work are less about adding one more piece of evidence to support global warming—that reality is already clear—than developing a better understanding of the mechanisms involved in stratospheric cooling. “This is really telling us what is essential,” says Pincus, and it can inform future research on the process. The findings may also help scientists studying conditions outside of Earth.

“Maybe we can better understand what’s going on in the stratospheres of other planets in our solar system or exoplanets,” says Cohen.

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Journal

Nature Geoscience

DOI

10.1038/s41561-026-01965-8 

Method of Research

Data/statistical analysis

Subject of Research

Not applicable

Article Title

A New Study Explains How Carbon Dioxide Cools the Upper Atmosphere—and Warms Earth Below

Article Publication Date

11-May-2026

Beyond acute-phase support: how “ibasho” aids disaster mental health recovery

Authors propose that rebuilding community, routine, and social roles is essential for long-term recovery after disasters

Juntendo University Research Promotion Center

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Belonging, purpose, and community ties through ibasho may be just as vital as clinical care in post-disaster recovery.

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Credit: Dr. Hidetaka Tamune from Juntendo University Graduate School of Medicine, Japan

As disasters increasingly disrupt lives through displacement, conflict, and climate-related emergencies, addressing long-term mental health recovery remains a major challenge. A correspondence from Juntendo University discusses that, while acute symptom assessment remains important, disaster psychiatry may benefit from a community-led approach to care. The authors discuss the importance of ibasho (community spaces of belonging and social purpose) and suggest that rebuilding routines, roles, and neighborhood connections may support long-term recovery and resilience.

Natural disasters drastically affect human lives—destroying homes, separating families, leading to disruption of daily routines, which affects their stability. While emergency mental health responses are crucial in the beginning of the crisis, new correspondence discusses that psychological recovery may rely on a more meaningful approach to help restore a sense of place and belonging.

Ibasho: A Community-led Place for Belonging and Meaning

In this context, authors from Juntendo University, Japan, led by Associate Professor Hidetaka Tamune from the Department of Psychiatry and Behavioral Science, along with Dr. Yutaka Igarashi from Nippon Medical School, Japan, and Dr. Yuzuru Kawashima from the Disaster Psychiatric Assistance Team, Japan, discussed the approach of ibasho (a community-building concept in Japan) for people affected by disasters. The details were made available online on April 3, 2026, and published in Volume 407, Issue 10537 of The Lancet journal on April 11, 2026.

Dr. Tamune says, “Disaster recovery is not only about reducing acute psychiatric symptoms. It is also about restoring the social environments that give people stability, dignity, and a sense of purpose. In Japanese, the places that make this possible are called ibasho.”

Ibasho means a place of belonging where people are engaged in social networks, routines, and meaningful roles. The authors suggested that restoring this sense of connection among people affected by disasters may be just as important as detecting early symptoms, as it plays a vital role in supporting community recovery. Supporting this, the correspondence places ibasho within the internationally recognized Sphere humanitarian framework, which focuses on survival with dignity, continuity with care, and coordinated support systems during crises. It also suggests that ibasho aligns closely with those principles by offering social infrastructure for displaced and affected communities.

Ibasho in Japan: Community-Led Recovery in Practice

Compared to conventional interventions, ibasho refers to safe, community-led spaces where individuals can reconnect with others and resume daily routines. This may include neighborhood gathering spaces, shared community programs, and locally led recovery hubs. To support this perspective, the authors cited the evidence from disaster-affected regions in Japan. These include examples from the 2011 Great East Japan Earthquake and the Fukushima nuclear accident. Notably, there was an increase in the dementia consultations and behavioral and psychological symptoms of dementia (BPSD) among older adults near the evacuation zones of the affected areas. In contrast, the communities where older residents were helped by leading ibasho-style programs reported stronger recovery and more stable routines with improved social and family relationships. This suggests that recovery improved when people were able to regain meaningful roles in community life. The older adults not only receive support but are also actively contributing to the recovery efforts and rebuilding community life.

“What appears to be most important is not simply access to services, but whether people can reclaim their place within the community and continue to feel valued, useful, and connected.　In Japan, a disaster-prone and super-aged society, we have both the experience and the responsibility to share what we have learned about caring for older adults with dementia, especially those who develop BPSD and delirium,” explains Dr. Tamune.

Redefining Recovery Through Connection, Culture, and Dignity

Although particularly relevant to natural disasters, the correspondence suggests that preparedness and recovery both depend not only on services but also on whether people can remain connected to local networks, routines, and meaningful social roles. The authors further note that trauma-informed support should remain culturally congruent; in some communities, restoring routines, roles, and communal life through ibasho may be the most acceptable first step.

Overall, the correspondence highlights the importance of ibasho in post-disaster mental health. It suggests that, although acute symptom detection matters, recovery also depends on whether people can continue to live safely, sustain relationships, and regain meaningful roles after displacement. In this sense, ibasho may function as a culturally congruent local social infrastructure through which dignity, continuity, and safety are restored in everyday life.

 

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Reference

Title of original paper: Sound mind, sound place: ibasho and post-disaster mental health

Journal: The Lancet

DOI: 10.1016/S0140-6736(26)00546-5

Author(s) name: Hidetaka Tamune1, Yutaka Igarashi2, Yuzuru Kawashima3,4

Author(s) Affiliation:

1Department of Psychiatry and Behavioral Science, Juntendo University Graduate School of Medicine, Japan

2Department of Emergency and Critical Care Medicine, Nippon Medical School, Japan

3Disaster Psychiatric Assistance Team, Japan

4Hanzomon Nobisuko Children’s Clinic, Japan

 

About Associate Professor Hidetaka Tamune from Juntendo University

Dr. Hidetaka Tamune, MD, PhD, is an Associate Professor at the Department of Psychiatry and Behavioral Science, Juntendo University Graduate School of Medicine, Tokyo, Japan. He holds a Doctor of Philosophy (PhD) in Cellular Neurobiology and has an interdisciplinary academic background spanning psychiatry, neuroscience, and primary care. Till date, he has published over 47 peer-reviewed articles, with research focusing on neuropsychiatry, consultation-liaison psychiatry, delirium, disaster mental health, and medical education.

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Journal

The Lancet

DOI

10.1016/S0140-6736(26)00546-5 

Article Title

Sound mind, sound place: ibasho and post-disaster mental health

 

Good vibrations for quantum communications

First demonstration of atomic spin qubit interaction with a single-quantum sound wave

Harvard John A. Paulson School of Engineering and Applied Sciences

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A photo of a 5 mm x 5 mm diamond chip on a room-temperature measurement setup, with arrays of mechanical resonators visible.

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Credit: Loncar Lab / Harvard SEAS

Researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have demonstrated, for the first time, a single quantum of vibrational energy interacting with a single atomic spin, seeding a pathway to quantum technologies that use sound as an information carrier, instead of light or electricity. The results are published in Nature. 

Led by Marko Lončar, the Tiantsai Lin Professor of Electrical Engineering, the researchers engineered a nanometer-scale mechanical resonator around a single color-center spin qubit in diamond. These color centers, atomic defects in the diamond’s crystal structure, act as quantum memory capable of storing quantum information. The researchers’ new system can host sufficiently strong spin-phonon interactions for quantum information storage – a key challenge thus far in the field. 

“At the heart of the experiment is a phonon — the smallest possible unit of sound,” Lončar said. “When we listen to music, it takes countless phonons working together to move our eardrums and maybe even get us spinning on the dance floor. But qubits are far more sensitive: a single phonon can be enough to change their quantum state — to excite them, or, as in our experiment, to help them relax.”

Mechanical vibrations, like those of a guitar string, can “ring” for a long time while occupying a volume far smaller than a comparative electromagnetic cavity of the same frequency. That combination of long lifetime and compact size makes phonons especially promising as quantum information carriers, or interconnects that link compact quantum memories, processors, and sensors on future quantum chips. 

“Many quantum systems, including superconducting qubits, quantum dots, or solid-state defects are known to interact strongly with phonons,” explained Graham Joe, first author and former Harvard graduate student. “So quantum acoustics holds a lot of promise as a sort of ‘universal quantum bus’ which could connect up disparate sorts of quantum systems into hybrid systems.” 

When one phonon can change the atomic qubit’s state, the spin also acts as an exquisitely sensitive probe of its mechanical environment. The spin could be used to measure very small forces, stresses, or temperature changes by “listening” to the quantum noise of the device. This could lead to precision sensing and other applications. 

The results point to new control over quantum defects in solids, bringing spin-mechanical interactions closer to the threshold of full quantum coherence, or the ability of an otherwise fragile quantum system to remain stable.

“This experiment was both a compelling demonstration of new tools for sensing the environment of a single atom, and a meaningful step towards practical quantum acoustic devices,” Joe said.  

“Purcell-enhanced spin-phonon coupling with a single color-center” was co-authored by Michael Haas, Kazuhiro Kuruma, Chang Jin, Dongyeon Daniel Kang, Sophie W. Ding, Cleaven Chia, Hana Warner, Benjamin Pingault, Bartholomeus Machielse, and Srujuan Meesala. 

U.S. federal support for the research came from the National Science Foundation under grant No. DMR-1231319; the Army Research Office/Department of the Army under award No. W911NF1810432; and the NSF under award No. EEC-1941583. 

The Harvard Office of Technology Development is actively pursuing patent protection and commercialization opportunities for the innovations arising from this research.

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Journal

Nature

DOI

10.1038/s41586-026-10495-7 

Method of Research

Experimental study

Subject of Research

Not applicable

Article Title

Purcell-enhanced spin–phonon coupling with a single colour centre

Article Publication Date

6-May-2026

Physician-reported safety outcomes of AI-generated hospital course summaries

JAMA Network Open

About The Study:

 In this study, a large language model-based agentic workflow produced hospital course summaries that were frequently used with minimal risk of harm identified. The intervention was associated with a reduction in physician burnout, supporting the viability of AI summarization to mitigate documentation burden.

Corresponding Author: To contact the corresponding author, Francois Grolleau, MD, PhD, email grolleau@stanford.edu.

To access the embargoed study: Visit our For The Media website at this link https://media.jamanetwork.com/

(doi:10.1001/jamanetworkopen.2026.16556)

Editor’s Note: Please see the article for additional information, including other authors, author contributions and affiliations, conflict of interest and financial disclosures, and funding and support.

#  #  #

Media advisory: This study is being presented at the 2026 Society of General Internal Medicine Annual Meeting.

Embed this link to provide your readers free access to the full-text article 

https://jamanetwork.com/journals/jamanetworkopen/fullarticle/10.1001/jamanetworkopen.2026.16556?guestAccessKey=1b34668e-afe8-4888-aa3d-dd05b3b83eff&utm_source=for_the_media&utm_medium=referral&utm_campaign=ftm_links&utm_content=tfl&utm_term=050826

About JAMA Network Open: JAMA Network Open is an online-only open access general medical journal from the JAMA Network. On weekdays, the journal publishes peer-reviewed clinical research and commentary in more than 40 medical and health subject areas. Every article is free online from the day of publication. 

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Journal

JAMA Network Open

 

Edible cannabis and pain, sleep, and mental health management in older adults

JAMA Network Open

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About The Study:

 In this qualitative study, older adults were motivated to use cannabis as an alternative approach to address health concerns. These findings highlight the importance of physician awareness of older adults’ motivations and concerns to support informed counseling and resources.

Corresponding Author: To contact the corresponding author, Rebecca K. Delaney, PhD, email rebecca.delaney@hsc.utah.edu.

To access the embargoed study: Visit our For The Media website at this link https://media.jamanetwork.com/

(doi:10.1001/jamanetworkopen.2026.11718)

Editor’s Note: Please see the article for additional information, including other authors, author contributions and affiliations, conflict of interest and financial disclosures, and funding and support.

#  #  #

Embed this link to provide your readers free access to the full-text article 

 https://jamanetwork.com/journals/jamanetworkopen/fullarticle/10.1001/jamanetworkopen.2026.11718?guestAccessKey=1b34668e-afe8-4888-aa3d-dd05b3b83eff&utm_source=for_the_media&utm_medium=referral&utm_campaign=ftm_links&utm_content=tfl&utm_term=050826

About JAMA Network Open: JAMA Network Open is an online-only open access general medical journal from the JAMA Network. On weekdays, the journal publishes peer-reviewed clinical research and commentary in more than 40 medical and health subject areas. Every article is free online from the day of publication. 

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Journal

JAMA Network Open

Study reveals why older adults are using cannabis edibles

University of Utah Health

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For adults over 60, cannabis use is increasing faster than in any other demographic.

But science has yet to keep up with why older adults are using cannabis products, which products they choose, and how they make decisions about which products to use.

A new study by researchers from University of Utah Health and University of Colorado Boulder reveals that many older adults start cannabis seeking more effective or non-pharmaceutical options to manage sleep, pain, or mental health, and that many people base their decisions on word of mouth rather than discussions with health care providers.

The results are published in JAMA Network Open.

Many seek more effective options to manage common health conditions

The researchers interviewed 169 adults over 60 who were about to purchase cannabis for the first time to identify common motivations.

“Overall, they really wanted better quality of life, reducing their pain, getting better sleep, and being able to enjoy time with family and friends a little bit more,” says Rebecca Delaney, PhD, assistant professor of population health sciences at U of U Health and first author on the study.

“For the most part, we found that these folks aren’t really interested in getting high. They just want to feel better,” adds Angela Bryan, PhD, professor of psychology and neuroscience at CU Boulder and senior author on the study.

Many participants had heard positive anecdotes about product usefulness from friends or family members, which tended to influence decisions. “They brought a lot of feedback from other people to inform their opinions,” Delaney says. “Word of mouth has a really big impact.”

Discussions with medical providers were rarely part of the picture, suggesting that better informational materials for patients and providers could be needed to drive conversations and help people make informed decisions about their health.

To CBD or to THC, that is the question

Older adults also faced the question of which products to use. Edible cannabis products may contain tetrahydrocannabinol (THC, the main psychoactive component of cannabis), cannabidiol (CBD), or both, and it was unclear what motivated and informed their decisions about which to purchase.

Many people perceived CBD-only products as therapeutically beneficial, which was often driven by anecdotal claims. People tended to perceive THC as offering benefits like improving mood. But most people chose combination products containing both, seeing them as a “Goldilocks option” that gives the best of both worlds.

Toward better decision-making

An important caveat is that the survey was conducted in Colorado, where recreational cannabis is legal. For older adults in Utah and other states where only medical use is permitted, the decision-making process may look different. But Delaney suspects that people’s core motivations—using cannabis to attempt to treat chronic pain, poor sleep, or mental health concerns—are probably the same.

Delaney says that the results help show people’s baseline understanding of using cannabis to address health concerns, providing a foundation to develop better informational tools and clinical support.

“The ultimate goal is to develop resources to help people make decisions and find products that meet their needs, and to figure out how we can distill information to patients and physicians,” Delaney says. “We would really love to see more of these conversations happening between physicians and patients to make sure that people feel supported and informed when seeking alternative ways to address their pain.”

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This research is published in JAMA Network Open as “Edible Cannabis and Pain, Sleep, and Mental Health Management in Older Adults.”

This work was supported by the National Institutes of Health, including the National Institute of Aging (R01AG066698) and the National Center for Advancing Translational Sciences (1K12TR004413) through the Utah Clinical and Translational Science Institute, as well as the American Heart Association (23SCEFIA1154397) and the University of Utah Office of Undergraduate Research. Content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.

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Journal

JAMA Network Open

Method of Research

Survey

Subject of Research

People

Article Title

Edible Cannabis and Pain, Sleep, and Mental Health Management in Older Adults

Article Publication Date

8-May-2026