Tuesday, November 21, 2023

 

In many major crop regions, workers plant and harvest in spiraling heat and humidity


Rice, maize are most affected globally; production declines could loom

Peer-Reviewed Publication

COLUMBIA CLIMATE SCHOOL

Soggy Conditions 

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A RICE FARMER OUTSIDE YEN BAI, VIETNAM. 

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CREDIT: DANNIE DINH/INTERNATIONAL RESEARCH INSTITUTE FOR CLIMATE AND SOCIETY




A global study of major crops has found that farmworkers are being increasingly exposed to combinations of extreme heat and humidity during planting and harvest seasons that can make it hard for them to function. Such conditions have nearly doubled across the world since 1979, the authors report, a trend that could eventually hinder cultivation. The most affected crop is rice, the world’s number one staple, followed closely by maize. As temperatures rise, the trend has accelerated in recent years, with some regions seeing 15-day per-decade increases in extreme humid heat during cultivation seasons.

The study appears today in the journal Environmental Research Communications.

“If this affects humans’ ability to grow food, that’s serious,” said lead author Connor Diaz, who did the research as a Columbia University undergraduate student with scientists at the university’s Lamont-Doherty Earth Observatory. “The global food chain is all connected, and the danger is, this will impact crop production.”

Higher temperatures alone are oppressive, but high relative humidity greatly increases the effects. We cool our bodies by expelling sweat, which contains excess body heat; then, when the sweat evaporates, that heat is carried away. But the more the air is laden with moisture, the less efficiently evaporation can take place—the reason muggy days feel so bad. High humidity is especially prevalent in major tropical and subtropical crop regions in river deltas and near coasts, which supply plenty of moisture for the air to soak up.

Multiple recent studies have already documented increases in extreme combinations of heat and humidity across the world. A 2021 study by Columbia scientists found that the number of city dwellers exposed to extreme humid heat has tripled since the 1980s, affecting more than a fifth of the world population. A 2020 study also out of Columbia found that potentially fatal heat-humidity combinations previously not predicted to appear until mid-century are already popping up in many areas. The new study is the first to look at the effects on farmworkers specifically during cultivation seasons.

Combined heat and humidity are gauged on the “wet bulb” scale, which factors in air temperature, water-vapor content and wind conditions. The authors of the new study define 27 degrees Centigrade wet-bulb as the point where farmworkers will begin struggling. Depending on the exact combination of conditions, this would be equivalent to between 86 and 105 degrees F on “real feel” heat indexes used by popular media.

Some earlier studies have defined 30C wet bulb—roughly 106F or more “real feel”—as extreme for everyday tasks, but farmworkers toiling under direct sun many hours a day may crumble well before that.

The new study found that many major agricultural regions already experience three months of 27C conditions or worse during the year as a whole. These include the Amazon, northern Colombia and parts of Mexico; the coasts of the Red Sea and Persian Gulf; southeast Asia; and much of Malaysia and Indonesia. Countries that see two months or more include Senegal, Ivory Coast, Nigeria, Cameroon and the northern region of Australia.

On shorter time scales, during the crucial planting and harvest seasons, close to half of the world’s rice cropland is already subject to extreme conditions at some point each year, according to the study. For maize the number is about a third. (That rice is more affected is not a surprise, said Diaz; it is generally grown in water-saturated conditions in already hot climates, while maize is often raised in drier, more northerly regions.)

For rice, the highest farmworker exposure is in Bangladesh, with more than 60 days of high humid heat during cultivation seasons. Other regions with high exposure include Vietnam’s Mekong Delta, Myanmar’s Irawaddy Delta, much of Indonesia and Malaysia, parts of coastal Mexico, and the Amazon.  For the maize seasons, the highest potential worker exposure encompasses much of Pakistan, the Mekong Delta, northern Colombia, Venezuela, the Philippines, and parts of coastal Mexico and coastal Iran.

The researchers identified 10 other major crops affected to lesser but significant extents, including sorghum, soybeans, potatoes, millet and yams.

“In places like the Amazon, these conditions are already common, and sadly, people have adapted to it, because they have to,” said study coauthor Mingfang Ting, a climate scientist at Lamont-Doherty. She noted that areas with the worst heat and humidity tend to be the same ones where conditions are worsening the fastest. If the same rates of increase continue in coming decades, she said, people may not be able to cope any longer. “The curve is going up so fast. It’s the trend that really makes it worse,” she said.

So far, the bulk of research on the future effects of climate change on food production has focused on the crops themselves, especially the results of dry heat and drought. But a 2021 paper led by Purdue University predicts that if average global temperatures go up by 3 degrees C—which some scientists think may happen this century—it would reduce agricultural laborers’ work capacity by 30% to 50% and lead to substantial increases in food prices. That study does not explicitly take in the added effects of high humidity.

Another recent paper looking at heat risk to the over 1 million hired agricultural workers in the United States found that they are already 20 times more likely to die of  illnesses related to heat stress than U.S. civilian workers overall. Apart from the nature of their work, their risks are compounded by poverty and lack of access to health care, the study says—conditions that are common in many of the areas covered by the new heat and humidity study.

The most common means of adapting to rising temperatures in the U.S. and most other countries has been to shift work hours into the night. Allowing workers to reduce their pace and effort, and increasing break times can also help, and some U.S. states and countries such as Spain have mandated such measures. But these efforts reduce worker productivity, which may feed into higher food prices. And fancier adaptations, like air-conditioned retreat spaces and air-conditioned tractors are simply not feasible in much of the world.

“The issue of heat and humidity takes on a whole new dimension when you think about someone who has to work outside all day long under the sun,” said Diaz. Many receive a piecework rate, or are simply trying to raise enough to subsist on, he points out. “That kind of incentive pushes people to work harder and longer than is safe, and people will pay,” he said.

CAPTION

Upward changes over the past four decades in extreme humid heat days over the calendar year in crop-producing regions. Warmer colors indicate faster increases. 

CREDIT

Adapted from Diaz et al., Environmental Research Communications, 2023)

Maize farmer, southeastern Mali.

CREDIT

Francesco Fiondella/International Research Institute for Climate and Society

 

Understanding children’s views on the perfect school | Bentham Science


Book Announcement

BENTHAM SCIENCE PUBLISHERS




Young Voices Unheard: Children’s Views from Scotland and Greece on Education is a new book published by Bentham Science that attempts to explore the question of how young children view the concepts of Children’s rights.

Giving children an opportunity to voice their ideas on their education is necessary, if we do not want to deprive children of their right to be consulted and their opinions to be listened to and be seriously considered when decisions are made affecting children’s lives (article 12 of the Convention).

The book attempts to give a voice to children aged 5 to 6 years on the education of children their age and then relate these voices to children’s rights as defined in the Convention of the Rights of the Child. More specifically, children’s views on aspects of behavior and rules, learning and play and the physical environment of a school were produced and related to the implementation or not of various provision, protection and participation rights that children are entitled.

The author - Evanthia Synodi – has used a comparative methodology in this work, citing that “it leads to a deeper understanding of education phenomena and the impact of societal factors on them.” Synodi’s work qualitatively focuses on two countries, Scotland and Greece, and each child participated in two focus group sessions.

What the data from both sessions in Scotland and Greece indicates is that articles 12, 19, 28, 29, 31 were important to children in both countries but article 24 was not. They wanted to be consulted when decisions affecting them are made, they wanted to be safe from physical harm, to be educated and to play, but not to eat healthy food. Children not knowing how to claim their place in the decision making process in school suggests that adults need to find ways to better implement article 5 and article 12 at school. Despite the differences in budgets, educational provision and dimensions of their national cultures, the comparative nature of this study indicated two major similarities in children’s views: children’s desire (a) for less control by adults over them and (b) for more play and initiative for children in school, even though they did not deny that they needed guidance from their teachers and that they should learn at school. Throughout the analysis the implementation of article 5 was crucial in accomplishing children acting as right holders became apparent. However, when it comes to young children, like the 5 to 6 year olds participating in this study, one finds that for children to learn that they are right holders and how to be right holders, we need to let them develop and learn through their free play rather than first cripple their freedom (in schools and other environments with no free play or limited play) and then attempt to fix them (the children)! This appears to be problematic in both countries whether the school young children attend is a primary school or a kindergarten.

The findings of this research are particularly useful to teachers as well as policy makers as well as parents and other adults working with young children. Teachers can begin to consider if their practices are similar to the ones children favored or not and attempt to improve them as some of the findings, particularly those in relation to omnipresent control and play, have been recorded by researchers from other countries. Teachers need to consider if they can allow more scope for consultation and children’s participation in decision making, especially when it comes to setting the rules or defining them. Another issue they need to consider is the daily routine and allowing children more time for play and other child initiated activities.

Policy makers can withhold or modify the strictness and rigidness of existing policies, which interfere with the implementation of the children’s rights, other than the right to education, at schools. Children wanting more control over their lives at school is a strong indicator that the predetermined policy and curriculum for young children is overwhelming to many.

Further professional development for teachers as well as policy makers emerges as a significant factor for the creation of a school promoting respect to, protection of and fulfilment of children’s rights. The issue of a healthy diet, that was brought up by the children in focus groups, is another matter that needs to be examined, so that measures can be taken to protect children’s health more effectively.

This book is unique because it researches and relates young children’s views on their education to their rights, because these children attend schools in Scotland and Greece, which had not been done before, and because it employs the method of focus groups for the production of data. For Synodi, studies on comparative education have proven to be a worthwhile endeavour.

Learn more about the book here: https://bit.ly/47yXhnz

 

About Editor:

Dr. Evanthia Synodi is an associate professor of Comparative Preschool Education at the University of Crete, Greece. She was educated as a kindergarten teacher at the Aristotle University of Thessaloniki and received her Ph.D. in Education from the University of Newcastle upon Tyne, England in 2001. She is interested in Comparative Education, children’s rights, play, antiracist education, initial teacher education and early childhood education.

 

Bentham Science announces release of "Amazon Web Services: The Definitive Guide for Beginners and Advanced Users"



Book Announcement

BENTHAM SCIENCE PUBLISHERS




In a world driven by digital transformation, Amazon Web Services (AWS) has emerged as a powerhouse, providing on-demand cloud computing platforms and APIs to individuals, companies, and governments. Bentham Science is delighted to unveil "Amazon Web Services: The Definitive Guide for Beginners and Advanced Users," a comprehensive text that simplifies the complexities of AWS, making it accessible to graduate students, professionals, and academic researchers in computer science, engineering, and information technology.

Key Features: 

  1. Hands-On Approach for Beginners:  The book adopts a practical, hands-on approach, ensuring that beginners can dive into AWS with confidence. It covers fundamental topics such as Amazon Elastic Compute Cloud, Elastic Load Balancing, Auto Scaling Groups, and Amazon Simple Storage Service, providing a solid foundation for users.
  2. Identity and Access Management (IAM) and Attribute-Based Access Control:  Understanding IAM is crucial in the AWS landscape. The guide delves into AWS's identity and access management resources, emphasizing attribute-based access control to empower users with the knowledge to manage permissions effectively.
  1. Comprehensive Coverage of AWS Services:   From serverless computing services and Virtual Private Cloud to Amazon Aurora, Amazon Comprehend, and more, the book offers a thorough exploration of AWS's extensive service offerings. It provides readers with insights into the capabilities and applications of these services.
  1. AWS Free Tier, Marketplace, and EC2:  Beginners often seek cost-effective ways to explore AWS. The text addresses this by explaining AWS Free Tier, the Marketplace for third-party applications, and the EC2 Service, allowing users to make informed decisions about their AWS journey.
  2. Security and High-Performance Computing:  Security is a top priority in any cloud environment. The book elucidates security measures in AWS, introducing readers to the shared responsibility model. Additionally, it explores high-performance computing on AWS, catering to users with advanced computing needs.

 

How to Get the Book: 

"Amazon Web Services: The Definitive Guide for Beginners and Advanced Users" is available through Bentham Science. https://benthambooks.com/book/9789815165821/contributors/

 

 

  About the Authors: 

1.   Parul Dubey: 

Parul Dubey is an AWS Certified Cloud Practitioner and an author of books and tutorials on Amazon Web Services. As an Assistant Professor, at the Department of AI, G H Raisoni College of Engineering, Nagpur, Dubey has 15 Indian patents and 10 scholarly publications to her credit.

 

2.   Arvind Kumar Tiwari

Arvind Kumar Tiwari teaches computer science at the Department of CS & IT, Dr. C V Raman University, Bilaspur.

 

3.   Rohit Raja: 

Rohit Raja is an Associate Professor and Head of the Department of Information Technology, Guru Ghasidas Vishwavidyalaya, Bilaspur, India. Raja is an active academic, having published 100 research papers in international and national journals.

 

Disinformation expert explores history and future of fake news in new book


Book Announcement

UNIVERSITY OF NOTRE DAME

"A History of Fake Things on the Internet" Book Cover 

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"A History of Fake Things on the Internet" BY WALTER J. SCHEIRER TO BE RELEASED BY STANFORD UNIVERSITY PRESS ON DEC. 5.

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CREDIT: STANFORD UNIVERSITY PRESS




The era of fake news feels brand-new.

But a new book, “A History of Fake Things on the Internet,” takes a deeper look into the origins of online deception.

“There’s this conventional narrative about fake news and manipulated imagery on the internet. But when I started to actually research this and looking into the history, it was very apparent to me that these are very long-standing issues,” said author Walter Scheirer, the Dennis O. Doughty Collegiate Associate Professor of Computer Science and Engineering at the University of Notre Dame.

The book takes readers on a journey that begins long before the internet existed, focusing on photo manipulation before diving into digital fakery of the ’80s and ’90s through today. Scheirer recognizes that the big fear people often have is that the perfect fake image or video could be created to fool the world into believing something wrong — he believes that’s unlikely.

“What I have found, which is more interesting and more concerning, is that obviously fake content is getting way more traction on the internet,” Scheirer said. “Things like memes often have a message that’s funny, right? But the message can still be dangerous.”

As an expert in image forensics, machine learning and AI, Scheirer conducts research at Notre Dame that focuses on combatting the rise of coordinated social media campaigns to incite violence, sow discord and threaten the integrity of democratic elections.

Often, these campaigns feature manipulated images exhibiting false claims and misrepresentation of incidents, fabricated news stories and memes, all created with the intent to provoke citizens and supporters of both political parties. The goal of his research with Tim Weninger, the Frank M. Freimann Associate Professor of Engineering, is to develop an early warning system that identifies manipulated images, deepfake videos and disinformation online.

“On the one hand, you have an enormous amount of fake material on the internet. Some of it appears to be threateningly bad. But it doesn’t seem like that’s stopping people from consuming it. In fact, people seem to be generating more and more of it,” Scheirer said.

But Scheirer’s book brings a different, more optimistic approach by questioning the surface level reading of the internet. He points to this idea that the whole world is creating fiction online and telling stories in their own distinct communities. It’s when that fiction reaches community outsiders that misunderstandings can occur.

In the future, he believes generative AI content is going to be the next frontier for leveling up creativity of the internet.

“It turns out the internet’s a really great creative engine. It’s the ultimate medium for storytelling,” Scheirer said. “I love the internet. And I think others can too if they learn to appreciate it as a really innovative, interesting place.”

A History of Fake Things on the Internet” will be released by Stanford University Press on Dec. 5.

 

Blasts to clear World War II munitions could contaminate the ocean


Peer-Reviewed Publication

AMERICAN CHEMICAL SOCIETY

Blasts to clear World War II munitions could contaminate the ocean 

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EXPLOSIONS, AS SHOWN HERE, THAT CLEAR ABANDONED WAR MINES CAN RELEASE HIGH LEVELS OF TNT, POTENTIALLY THREATENING MARINE LIFE.

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CREDIT: UWE WICHERT



World War II concluded decades ago, but live mines lurking on the ocean floor still pose threats, potentially spewing unexpected geysers or releasing contaminants into the water. Experts conduct controlled explosions to clear underwater munitions, but concerns have arisen over the environmental impacts from these blasts. Now, results in ACS’ Environmental Science & Technology show that the contamination produced by detonation depends on the blast type, with weaker explosions leaving behind more potentially toxic residues.

After World War II, according to research estimates, up to 385,000 metric tons of unexploded munitions — including 40,000 tons of chemical munitions — were dumped into the Baltic Sea. These discarded weapons remain dangerous: They have the potential to jet plumes of water and sediment upward, send shock waves through the ocean, and punch holes in ships’ hulls. In addition, the mines’ metal shells can corrode in seawater, leaking potentially toxic explosive compounds, such as TNT, into the environment over time. Technicians typically clear historic munitions with controlled explosions, but there is debate among scientists about whether weak or strong blasts are better. While smaller blasts minimize shock waves and physical damage, Edmund Maser and coworkers suspected that these weaker ones release more toxic residue than strong blasts. To test whether this is true, the team wanted to measure the explosive residues near underwater mines after controlled detonations of the two different intensities.

The researchers — working in close collaboration with the Royal Danish Navy — first identified World War II mines near a busy shipping route off the coast of Denmark, choosing the sites of two intact and two corroded devices. Divers from the Navy collected ocean water and ocean floor sediment around the mines, and researchers then used mass spectrometry to measure the samples’ levels of TNT. As the researchers expected, chemical contamination was higher near the corroded mines than the intact ones.

Then, using either a low-powered detonation or a high-powered detonation, the team destroyed the leaking mines and assessed the TNT released from the blasts. Sediment contained up to 100 million times more TNT after the weaker explosion than before, and only 250 times more TNT after the stronger blast. Similarly, the TNT levels in water after the weaker blast far exceeded those around the stronger one. The researchers say that the pollution released by the low-power blast meets or exceeds levels previously reported to be toxic to microalgae, sea urchins and fish. Because of the potential threats to nearby marine life, the researchers encourage less invasive methods to remediate submerged World War II relics — like robotic techniques to open and remove abandoned mines’ explosive contents — to prevent unwanted explosions and contamination.

The authors acknowledge funding from the Interreg North Sea Region’s North Sea Wrecks project.

###

The American Chemical Society (ACS) is a nonprofit organization chartered by the U.S. Congress. ACS’ mission is to advance the broader chemistry enterprise and its practitioners for the benefit of Earth and all its people. The Society is a global leader in promoting excellence in science education and providing access to chemistry-related information and research through its multiple research solutions, peer-reviewed journals, scientific conferences, eBooks and weekly news periodical Chemical & Engineering News. ACS journals are among the most cited, most trusted and most read within the scientific literature; however, ACS itself does not conduct chemical research. As a leader in scientific information solutions, its CAS division partners with global innovators to accelerate breakthroughs by curating, connecting and analyzing the world’s scientific knowledge. ACS’ main offices are in Washington, D.C., and Columbus, Ohio.

To automatically receive news releases from the American Chemical Society, contact newsroom@acs.org.

Note: ACS does not conduct research, but publishes and publicizes peer-reviewed scientific studies.

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These bats use their penis as an “arm” during sex but not for penetration


Peer-Reviewed Publication

CELL PRESS

Photo of a serotine bat 

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PHOTO OF A SEROTINE BAT

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CREDIT: ALONA SHULENKO



Mammals usually mate via penetrative sex, but researchers report November 20 in the journal Current Biology that a species of bat, the serotine bat, (Eptesicus serotinus) mates without penetration. This is the first time non-penetrative sex has been documented in a mammal. The bats’ penises are around seven times longer than their partners’ vaginas and have a “heart-shaped” head that is seven times wider than the vaginal opening. Both the penises’ size and shape would make penetration post-erection impossible, and the researchers show that, rather than functioning as a penetrative organ, the bats use their oversized penises like an extra arm to push the female’s tail sheath out of the way so that they can engage in contact mating—a behavior that resembles “cloacal kissing” in birds.

“By chance, we had observed that these bats have disproportionately long penises, and we were always wondering ‘how does that work?’,” says first author Nicolas Fasel of the University of Lausanne. “We thought maybe it's like in the dog where the penis engorges after penetration so that they are locked together, or alternatively maybe they just couldn't put it inside, but that type of copulation hasn’t been reported in mammals until now.”

Very little is known about how bats have sex, and most previous observations of bats mating have only perceived the backs of mating pairs. In this study, the researchers were able to observe the bats’ genitalia during copulation by using footage from cameras that were placed behind a grid that the bats could climb on.

Fasel collaborated with a bat rehabilitation center in Ukraine that opportunistically filmed mating pairs and with a bat enthusiast and citizen scientist, Jan Jeucken, who filmed hours of footage of serotine bat in a church attic in the Netherlands. Altogether, the team analyzed 97 mating events—93 from the Dutch church and 4 from the Ukrainian bat rehabilitation center.

The video recordings revealed that the bats do not engage in penetrative sex. The researchers did not observe penetration at any point during the recorded mating events and noted that the erectile tissues of the penis were enlarged before they made contact with the vulva. During mating, the male bats grasped their partners by the nape and moved their pelvises (and fully erect penises) in a probing fashion until they made contact with the female’s vulva, at which point they remained still and held the females in a long embrace. On average, these interactions lasted less than 53 minutes, but the longest event extended to 12.7 hours. Following copulation, the researchers observed that the female bats’ abdomens appeared wet, suggesting the presence of semen, but further research is needed to confirm that sperm was transferred during these putative mating events.

The researchers also characterized the morphology of serotine bat genitalia by measuring the erect penises of live bats that were captured as part of other research studies (serotine and other vesper bats are conveniently known to get erections under anesthesia) and by performing necropsies on bats that died at bat rehabilitation centers. Their measurements showed that, when erect, serotine bat penises are around seven times longer and seven times wider than serotine bat vaginas, and about a fifth as long as the bats’ head-body length. The bats also have unusually long cervixes, which could help female bats select and store sperm.

The researchers speculate that the bats may have evolved their oversized penises in order to push aside the female bats’ tail membranes, which females may use to avoid sex. “Bats use their tail membranes for flying and to capture the insects, and female bats also use them to cover their lower parts and protect themselves from males,” says Fasel, “but the males can then use these big penises to overcome the tail membrane and reach the vulva.”

Next, the researchers plan to study bat mating behavior in more natural contexts, and they are also investigating penis morphology and mating behavior in other bat species. “We are trying to develop a bat porn box, which will be like an aquarium with cameras everywhere,” says Fasel.

Photo of a serotine bat

CREDIT

Alona Shulenko


Photo of a serotine bat

CREDIT

Olivier Glaizot

This research was supported by the National Science Centre of Poland, the Swiss National Science Foundation, and the Oleksandr Feldman Foundation.

Current Biology, Fasel et al., “Mating without intromission in a bat, a novel copulatory pattern in mammals” https://cell.com/current-biology/fulltext/S0960-9822(23)01304-0

Current Biology (@CurrentBiology), published by Cell Press, is a bimonthly journal that features papers across all areas of biology. Current Biology strives to foster communication across fields of biology, both by publishing important findings of general interest and through highly accessible front matter for non-specialists. Visit: http://www.cell.com/current-biology. To receive Cell Press media alerts, contact press@cell.com.

 

Massive 2022 eruption reduced ozone levels


The Hunga Tonga-Hunga Ha’apai volcano changed the chemistry, dynamics of Earth’s stratosphere


Peer-Reviewed Publication

HARVARD JOHN A. PAULSON SCHOOL OF ENGINEERING AND APPLIED SCIENCES


When the Hunga Tonga-Hunga Ha’apai volcano erupted on January 15, 2022 in the South Pacific, it produced a shock wave felt around the world and triggered tsunamis in Tonga, Fiji, New Zealand, Japan, Chile, Peru and the United States. It also changed the chemistry and dynamics of the stratosphere in the year following the eruption, leading to unprecedented losses in the ozone layer of up to 7% over large areas of the Southern Hemisphere, according to a recent study published in the Proceedings of the National Academy of Sciences (PNAS) from the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) and the University of Maryland.

Driving those atmospheric changes, according to the research, was the sheer amount of water vapor injected into the stratosphere by the undersea volcano. The location of the stratosphere is approximately 8 - 30 miles above Earth’s surface and is where the protective ozone layer resides. 

“The Hunga Tonga-Hunga Ha’apai eruption was truly extraordinary in that it injected about 300 billion pounds of water into the normally dry stratosphere, which is just an absolutely incredible amount of water from a single event,” said David Wilmouth, a project scientist at SEAS and first author of the paper.

“This eruption put us in uncharted territory,” said Ross Salawitch, professor at the University of Maryland’s Earth System Science Interdisciplinary Center and co-author of the study. “We’ve never seen, in the history of satellite records, this much water vapor injected into the atmosphere and our paper is the first that looks at the downstream consequences over broad regions of both hemispheres in the months following the eruption using satellite data and a global model.”

The Hunga Tonga-Hunga Ha’apai eruption was the largest explosion ever recorded in the atmosphere. The eruption hurled aerosols and gases deep into the stratosphere. Some material reached the lower mesosphere, more than 30 miles above the Earth’s surface, altitudes never recorded from a volcanic eruption. Previous studies found that the eruption increased water vapor in the stratosphere by 10% worldwide, with even higher concentrations in some areas of the Southern Hemisphere.

Wilmouth, Salawitch and the rest of the research team used data from the Microwave Limb Sounder (MLS) aboard the NASA Aura satellite, to track not only how that water vapor moved across the globe but also monitor temperature and levels of chlorine monoxide (ClO), ozone (O3), nitric acid (HNO3), and hydrogen chloride (HCl) in the stratosphere for the year following the eruption. They then compared those measurements to data collected by MLS from 2005 to 2021 prior to the eruption.

The team found that the injection of water vapor and sulfur dioxide (SO2) changed both the chemistry and the dynamics of the stratosphere.

In terms of chemistry, the SO2 led to an increase of sulfate aerosols, which provided new surfaces for chemical reactions to occur.

“Certain reactions that might not happen at all or only happen slowly can happen faster if there are aerosols available on which those reactions can take place,” said Wilmouth. “The injection of SO2 from the volcano allowed sulfate aerosols to form and the presence of water vapor led to the additional production of sulfate aerosols.”

The increased sulfate aerosols and water vapor kicked off a chain of events in the complex atmospheric chemistry that led to widespread changes in the concentrations of a number of compounds, including ozone.

The extra water vapor also had a cooling effect in the stratosphere, leading to a change in circulation, which drove decreases in ozone in the southern hemisphere and an increase of ozone over the tropics.

The researchers found that the peak decrease in ozone occurred in October, nine months after the eruption.

"We had this enormous increase in water vapor in the stratosphere with modest increases in sulfate that set off a series of events that led to significant changes in temperature and circulation, ClO, HNO3, HCl, O3, and other gases," Wilmouth said.

Next, the researchers hope to continue the study by following the impact of the volcano into 2023 and beyond as the water vapor moves from the tropics and midlatitudes to the Southern Hemisphere pole, where it has the potential to amplify ozone losses in the Antarctic. The water vapor is expected to stay elevated in the stratosphere for a period of several years.

The research was co-authored by James Anderson, the Philip S. Weld Professor of Atmospheric Chemistry at SEAS, Freja Østerstrøm and Jessica Smith. It was supported in part by NASA under Grant No. 80NSSC19K0326 and the National Science Foundation under Grant No. 1764171.

 

The sound of injustice: Inequitable urban noise impacts people, wildlife


Peer-Reviewed Publication

COLORADO STATE UNIVERSITY




Noise is an unseen pollutant with very real health impacts. Like many other forms of pollution, because of systemic injustice, it affects some people more than others. It also affects wildlife.  

In a study published in Nature Ecology and Evolution, Colorado State University acoustic ecologists found that redlined, or marginalized, communities have more and louder urban noise, which has been linked to negative consequences for people and wildlife.  

Ecological degradation exacerbates injustices against those living in formerly redlined areas, because people benefit from nature and wildlife, said Sara Bombaci, an author on the study and an assistant professor in CSU's Department of Fish, Wildlife and Conservation Biology. Now illegal, redlining was the discriminatory practice of denying loans or services to those living in non-white neighborhoods. 

"We need to be thinking more about how these systemic injustices and problems are manifesting to shape ecology and evolution,” Bombaci said. 

Bombaci and her research group examined urban noise distribution across historical racial divisions in 83 U.S. cities and evaluated hundreds of studies on the impacts of noise on wildlife. The team originally wanted to analyze ecological data on noise impacts to wildlife, instead of reviewing literature, but data in redlined communities are underrepresented, reflecting historical biases. 

The study is the first to examine noise inequity in redlined communities. Results show that louder noise levels more commonly correspond with redlined urban areas and have detrimental effects on urban ecosystems proportional to their volume.  

Redline noise 

Starting in 1933, the Home Owners' Loan Corporation assigned grades to neighborhoods based on race and wealth. Grade A neighborhoods were wealthier and whiter, while red lines were drawn around grade D neighborhoods where people from various racial and ethnic backgrounds lived. Redlining was outlawed in 1968, but decades of divestment in these neighborhoods caused enduring disparities.  

The study found that grade D neighborhoods experience 17% higher maximum noise levels than grade A neighborhoods, and grades C and D neighborhoods more frequently have maximum noise levels above the level known to cause hearing loss, physical pain and stress in humans.   

"This is directly linked to structural racism,” Bombaci said. “There's a clear signal that ties directly to whether these communities were redlined.” 

Some of the human health effects from noise pollution include hearing loss, stress, insomnia, hypertension and increased risk of heart disease and stroke. Persistent loud noise stresses wildlife too. It can alter animal behavior, including communication, community structure, distribution, fitness, foraging, mating, movement and reproduction. Noise can make some species more vulnerable to predators and cause wildlife to avoid certain areas.  

Righting past wrongs 

Many cities, like Denver, are working toward equitable planning to improve access to parks and green space in underserved communities. Bombaci said noise should be considered in those plans.  

"If we're adding green space without mitigating impacts of noise, we might not be fully recognizing the benefits of these green spaces,” she said. 

Wildlife might not bounce back in urban green space if noise pollution remains a problem, but planning and noise mitigation can help, Bombaci said, and conservation funding and urban planning can benefit both people and wildlife.  

Additional authors of the study, “Inequalities in noise will affect urban wildlife,” are CSU students Jasmine Nelson-Olivieri, Tamara Layden, Edder Antunez, Monica Lasky, Steven Starr and Anahita Verahrami, as well as collaborators Ali Khalighifar (CSU), Theresa Laverty (New Mexico State University), Karina Sanchez (University of New Hampshire) and Graeme Shannon (Bangor University).