Wednesday, July 24, 2024

SPACE

NASA’s Webb images cold exoplanet 12 light-years away


An international team of astronomers using NASA’s James Webb Space Telescope has directly imaged an exoplanet roughly 12 light-years from Earth. The planet, Epsilon Indi Ab, is one of the coldest exoplanets observed to date.


NASA/GODDARD SPACE FLIGHT CENTER

Image A: Exoplanet Epsilon Indi Ab 

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THIS IMAGE OF THE GAS-GIANT EXOPLANET EPSILON INDI AB WAS TAKEN WITH THE CORONAGRAPH ON NASA’S JAMES WEBB SPACE TELESCOPE’S MIRI (MID-INFRARED INSTRUMENT). A STAR SYMBOL MARKS THE LOCATION OF THE HOST STAR EPSILON INDI A, WHOSE LIGHT HAS BEEN BLOCKED BY THE CORONAGRAPH, RESULTING IN THE DARK CIRCLE MARKED WITH A DASHED WHITE LINE. EPSILON INDI AB IS ONE OF THE COLDEST EXOPLANETS EVER DIRECTLY IMAGED. LIGHT AT 10.6 MICRONS WAS ASSIGNED THE COLOR BLUE, WHILE LIGHT AT 15.5 MICRONS WAS ASSIGNED THE COLOR ORANGE. MIRI DID NOT RESOLVE THE PLANET, WHICH IS A POINT SOURCE.

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CREDIT: NASA, ESA, CSA, STSCI, E. MATTHEWS (MAX PLANCK INSTITUTE FOR ASTRONOMY)




An international team of astronomers using NASA’s James Webb Space Telescope has directly imaged an exoplanet roughly 12 light-years from Earth. The planet, Epsilon Indi Ab, is one of the coldest exoplanets observed to date.

The planet is several times the mass of Jupiter and orbits the K-type star Epsilon Indi A (Eps Ind A), which is around the age of our Sun, but slightly cooler. The team observed Epsilon Indi Ab using the coronagraph on Webb’s MIRI (Mid-Infrared Instrument). Only a few tens of exoplanets have been directly imaged previously by space- and ground-based observatories.

“Our prior observations of this system have been more indirect measurements of the star, which actually allowed us to see ahead of time that there was likely a giant planet in this system tugging on the star,” said team member Caroline Morley of the University of Texas at Austin. “That's why our team chose this system to observe first with Webb.”

“This discovery is exciting because the planet is quite similar to Jupiter — it is a little warmer and is more massive, but is more similar to Jupiter than any other planet that has been imaged so far,” added lead author Elisabeth Matthews of the Max Planck Institute for Astronomy in Germany.

Previously imaged exoplanets tend to be the youngest, hottest exoplanets that are still radiating much of the energy from when they first formed. As planets cool and contract over their lifetime, they become significantly fainter and therefore harder to image.

A Solar System Analog

“Cold planets are very faint, and most of their emission is in the mid-infrared,” explained Matthews. “Webb is ideally suited to conduct mid-infrared imaging, which is extremely hard to do from the ground. We also needed good spatial resolution to separate the planet and the star in our images, and the large Webb mirror is extremely helpful in this aspect.”

Epsilon Indi Ab is one of the coldest exoplanets to be directly detected, with an estimated temperature of 35 degrees Fahrenheit (2 degrees Celsius) — colder than any other imaged planet beyond our solar system, and colder than all but one free-floating brown dwarf. The planet is only around 180 degrees Fahrenheit (100 degrees Celsius) warmer than gas giants in our solar system. This provides a rare opportunity for astronomers to study the atmospheric composition of true solar system analogs.

“Astronomers have been imagining planets in this system for decades; fictional planets orbiting Epsilon Indi have been the sites of Star Trek episodes, novels, and video games like Halo,” added Morley. “It's exciting to actually see a planet there ourselves, and begin to measure its properties.”

Not Quite As Predicted

Epsilon Indi Ab is the twelfth closest exoplanet to Earth known to date and the closest planet more massive than Jupiter. The science team chose to study Eps Ind A because the system showed hints of a possible planetary body using a technique called radial velocity, which measures the back-and-forth wobbles of the host star along our line of sight.

“While we expected to image a planet in this system, because there were radial velocity indications of its presence, the planet we found isn’t what we had predicted,” shared Matthews. “It’s about twice as massive, a little farther from its star, and has a different orbit than we expected. The cause of this discrepancy remains an open question. The atmosphere of the planet also appears to be a little different than the model predictions. So far we only have a few photometric measurements of the atmosphere, meaning that it is hard to draw conclusions, but the planet is fainter than expected at shorter wavelengths.”

The team believes this may mean there is significant methane, carbon monoxide, and carbon dioxide in the planet’s atmosphere that are absorbing the shorter wavelengths of light. It might also suggest a very cloudy atmosphere.

The direct imaging of exoplanets is particularly valuable for characterization. Scientists can directly collect light from the observed planet and compare its brightness at different wavelengths. So far, the science team has only detected Epsilon Indi Ab at a few wavelengths, but they hope to revisit the planet with Webb to conduct both photometric and spectroscopic observations in the future. They also hope to detect other similar planets with Webb to find possible trends about their atmospheres and how these objects form.

NASA's upcoming Nancy Grace Roman Space Telescope will use a coronagraph to demonstrate direct imaging technology by photographing Jupiter-like worlds orbiting Sun-like stars – something that has never been done before. These results will pave the way for future missions to study worlds that are even more Earth-like.

These results were taken with Webb’s Cycle 1 General Observer program 2243 and have been published in the journal Nature.

The James Webb Space Telescope is the world’s premier space science observatory. Webb is solving mysteries in our solar system, looking beyond to distant worlds around other stars, and probing the mysterious structures and origins of our universe and our place in it. Webb is an international program led by NASA with its partners, ESA (European Space Agency) and CSA (Canadian Space Agency).

 

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Lyda Hill Philanthropies funds innovative wildfire solutions in Colorado


Generous support allows the Western Fire & Forest Resilience Collaborative to launch a Colorado research team



CARY INSTITUTE OF ECOSYSTEM STUDIES

A burn scar from the 2002 Hayman Fire near Deckers, Colorado. 

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A BURN SCAR FROM THE 2002 HAYMAN FIRE, PHOTOGRAPHED BY DRONE IN OCTOBER 2022 NEAR DECKERS, COLORADO TO EVALUATE POST-FIRE IMPACTS.

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CREDIT: PHOTO COURTESY OF JENNIFER BALCH




Lyda Hill Philanthropies has donated $290,000 to Cary Institute of Ecosystem Studies for the Western Fire & Forest Resilience Collaborative. The two-year grant will help to engage a research team within the Collaborative that is focused on wildfire-related challenges and solutions in Colorado, where Lyda Hill has deep family ties.

Led by Winslow Hansen at Cary Institute and launched with seed funding from the Gordon and Betty Moore Foundation, the Western Fire & Forest Resilience Collaborative joins together multidisciplinary scientists with decision makers to develop and implement bold, science-based solutions to the fire crisis. 

“The fire challenge is vast and complex, and the Western Fire & Forest Resilience Collaborative has a unique role to play in Colorado and across the Western US,” says Matthew Crommett from Lyda Hill Philanthropies.

Across the Western US, climate change and a legacy of fire suppression have led to larger, more severe, and more frequent fires — with devastating consequences for people, natural resources, and the climate. Colorado is no exception. More than half of the state’s 20 largest fires in history have occurred since 2016, and more than 1 million Coloradans live in areas with moderate to very high risk of wildfire. 

As record-breaking fires become the new normal, fire and forest management strategies need to adapt to keep pace. Leveraging fieldwork, remote sensing via satellites, and state-of-the-art modeling, and guided by decision makers in the fire community, the Western Fire & Forest Resilience Collaborative will provide a clearer understanding of the future of forests and fire, and pilot new fire management strategies and policies. 

“We are so appreciative of this grant from Lyda Hill Philanthropies,” said Hansen. “Their support allows us to engage more deeply with decision makers in Colorado to understand how their forests are changing today with increasing fire, and how we might steward them to live more sustainably with fire over the coming seasons, years, and decades.”

The funding comes at a critical time. Although the federal government is investing billions of dollars to reduce fire severity using treatments like thinning and prescribed burns, these treatments will only cover a small percentage of forest. The Collaborative’s work will reveal where and how to strategically place these treatments to maximize return on investment — minimizing damaging fires and maintaining resilient forests.

The Collaborative’s predictive models will make it possible to test novel and scaled-up management strategies, helping to ensure that practitioners can leverage the best science to invest in practices that will shift the balance of wildfire from devastating to sustainable. 

Learn more about the Western Fire & Forest Resilience Collaborative in this overview video

 

Nayani Ilangakoon carries a drone that was used to study a burn scar in Colorado in 2022. Ilangakoon is a member of Jennifer Balch’s lab, which is leading the Western Fire & Forest Resilience Collaborative’s Colorado research.

CREDIT

Photo courtesy of Jennifer Balch

Lyda Hill Philanthropies encompasses the charitable giving for founder Lyda Hill and includes her foundation and personal philanthropy. The organization is committed to funding transformational advances in science and nature, empowering nonprofit organizations and improving the Texas and Colorado communities. Because Miss Hill has a fervent belief that “science is the answer” to many of life’s most challenging issues, she has chosen to donate the entirety of her estate to philanthropy and scientific research. 


Cary Institute of Ecosystem Studies is an independent nonprofit center for environmental research. Since 1983, our scientists have been investigating the complex interactions that govern the natural world and the impacts of climate change on these systems. Our findings lead to more effective resource management, policy actions, and environmental literacy. Staff are global experts in the ecology of: cities, disease, forests, and freshwater.

 

Hens blush when they are scared or excited


Domestic chickens use flushed skin and feather fluffing to display different emotions, levels of excitement



PLOS

Facial blushing and feather fluffing are indicators of emotions in domestic fowl (Gallus gallus domesticus) 

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DOMESTIC CHICKENS WERE ANALYZED IN DIFFERENT SCENARIOS WHICH EVOKED VARIED EMOTIONS AND FOUND TO DISPLAY FACIAL REDNESS (BLUSHING) AND FACIAL FEATHER FLUFFING. HAPPY, RELAXED BIRDS SHOWED PREENING BEHAVIORS AND FACIAL FEATHER FLUFFING. HAPPY, EXCITED BIRDS DISPLAYED SLIGHT BLUSHING, WHILE IN FEARFULLY EXCITED BIRDS, STRONG FACIAL BLUSHING WAS OBSERVED.

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CREDIT: DIEGO PEREZ-LOPEZ, PLOS, CC-BY 4.0 (HTTPS://CREATIVECOMMONS.ORG/LICENSES/BY/4.0/)




Hens fluff their head feathers and blush to express different emotions and levels of excitement, according to a study publishing July 24, 2024, in the open-access journal PLOS ONE by Cécile Arnould and colleagues from INRAE and CNRS, France.

Facial expressions are an important part of human communication that allow us to convey our emotions. Scientists have found similar signals of emotion in other mammals such as dogs, pigs and mice. Although birds can produce facial expressions by moving their head feathers and flushing their skin, it is unclear whether they express emotions in this way. To investigate, researchers filmed 18 female domestic chickens (Gallus gallus domesticus) from two breeds, as they performed routine behaviors on a French farm. They also filmed the birds while being captured and held by a human, and while being rewarded with an appealing food.

The researchers analyzed the position of their facial feathers and the color of the exposed skin on their faces in seven contexts that differed in their emotional valence and level of excitement. For example, birds preen their feathers when they are relaxed and content, whereas receiving a rewarding food generally causes excitement and happiness, and being captured is an exciting but fearful experience.

The results suggested that the position of the head feathers and the color of the skin varied between contexts. Fluffed head feathers were mainly associated with a state of contentment, whereas blushing indicated that the birds were positively excited or fearful. Hens tended to have redder skin in contexts associated with excitement, and in those that caused negative emotions. In situations that caused both excitement and a positive emotion, the birds displayed an intermediate skin redness, indicating a continuum of blushing that can convey subtle emotional changes.

The study was the first to investigate facial displays of emotion in chickens, and suggests that domestic hens use facial expressions to show their emotions, much like humans and other mammals do. These findings offer a window into the emotional experiences of domestic birds, which could be used to improve the welfare of farmed poultry, the authors say.

The authors add: “The skin blushing on the face of the domestic fowl is a window into their emotions. The intensity of the blushing varies within a few seconds depending on the emotional situations they experience.”

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In your coverage please use this URL to provide access to the freely available article in PLOS ONEhttps://journals.plos.org/plosone/article?id=10.1371/journal.pone.0306601

Citation: Arnould C, Love SA, Piégu B, Lefort G, Blache M-C, Parias C, et al. (2024) Facial blushing and feather fluffing are indicators of emotions in domestic fowl (Gallus gallus domesticus). PLoS ONE 19(7): e0306601. https://doi.org/10.1371/journal.pone.0306601

Author Countries: France

Funding: This work was supported by INRAE: UMR PRC (CA, SAL, FL, RN, LL, AB) and Métaprogramme SANBA - RED project (CA, SAL, MCB, FL, RN, LL, AB). DS thesis is supported by INRAE and Région Centre Val de Loire. The funders have no role in the data collection and analysis, decision to publish, or preparation of the manuscript.

 

Weibo posts illuminate public response to China’s three-child policy measures


Measures such as housing subsidies are praised, but extended maternity leave elicits concern



Peer-Reviewed Publication

PLOS

Changes in online public opinions associated with various three-child supportive policies in China: Observational study using social media data over time 

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RESEARCH FRAMEWORK.

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CREDIT: PENG ET AL., 2024, PLOS ONE, CC-BY 4.0 (HTTPS://CREATIVECOMMONS.ORG/LICENSES/BY/4.0/)




An analysis of comments on Chinese social media platform Sina Weibo reveals trends in the public response to measures implemented to support China’s three-child policy, highlighting concerns about women’s rights and employment. Lijuan Peng of Zhejiang Gongshang University in Hangzhou, China, and colleagues present these findings in the open-access journal PLOS ONE on July 24, 2024.

For decades, China’s one-child policy restricted most families to having just one child. In 2021, to combat a falling birthrate, China introduced its three-child policy, allowing couples to have up to three children. To help encourage childbirth, China has introduced supportive measures alongside, such as housing subsidies and maternity insurance.

Social media offers a unique window into the public response to new national policies, but few studies have analyzed the three-child policy through such a lens. To deepen understanding of the response to China’s three-child supportive measures, Peng and colleagues analyzed comments posted on Sina Weibo after the release of information about such measures between May 2021 and June 2022. They drew on various statistical and computational tools, including neural network analysis, to identify hot topics and areas of concern.

The analysis revealed short-term, positive attitudes among Weibo users in response to some supportive measures, including those relating to housing subsidies, maternity insurance, and financial incentives. However, users showed persistent negative responses to extensions of maternity leave, primarily due to concerns about women’s future employment opportunities and marital rights.

The researchers found that Sina Weibo discussions about the three-child policy were primarily centered around protection of women’s rights, including post-childbirth legal rights and access to adequate physical and mental healthcare. Other hot topics included the financial difficulty of raising multiple children and concerns about housing and childcare services. The study also highlighted a strong desire for children among many infertile or single women that has gone unfulfilled because of the limitations of the personal medical insurance system.

These findings could help inform China’s future efforts to raise birthrates. Meanwhile, further research could address some of the limitations of this analysis, such as by accounting for social media users’ demographics.

The authors add: “This study reveals the public’s evolving focus, cognition, and emotional response to the three-child supportive policy through Weibo analysis, providing insights for future policy releases.”

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In your coverage please use this URL to provide access to the freely available article in PLOS ONEhttps://journals.plos.org/plosone/article?id=10.1371/journal.pone.0306698

Citation: Peng L, Chen T, Yang J, Cong G (2024) Changes in online public opinions associated with various three-child supportive policies in China: Observational study using social media data over time. PLoS ONE 19(7): e0306698. https://doi.org/10.1371/journal.pone.0306698

Author Countries: China, USA

Funding: This research is supported by Zhejiang Provincial Natural Science Foundation of China (Grant No. LY22G010004), as well as Zhejiang Gongshang University “digital +” discipline construction key project (Grant No. SZJ2022B019). In addition, the funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

 

Southern Ocean absorbing more CO2 than previously thought, study finds



UNIVERSITY OF EAST ANGLIA

A CO2 flux system on the RRS Sir David Attenborough during a research cruise in Antarctica 

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THE FLUX SYSTEM THAT COLLECTED DATA FOR THE STUDY IS NOW BEING USED ON NEW RESEARCH SHIP THE RRS SIR DAVID ATTENBOROUGH (PICTURED).

A CO2 FLUX SYSTEM ON THE RRS SIR DAVID ATTENBOROUGH DURING A RESEARCH CRUISE IN ANTARCTICA IN 2024.

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CREDIT: TOM BELL/PML




New research led by the University of East Anglia (UEA) and Plymouth Marine Laboratory (PML) has found that the Southern Ocean absorbs more carbon dioxide (CO2) than previously thought.

Using direct measurements of CO2 exchange, or fluxes, between the air and sea, the scientists found the ocean around Antarctica absorbs 25% more CO2 than previous indirect estimates based on shipboard data have suggested.

The Southern Ocean plays a major role in absorbing CO2 emitted by human activities, a process vital for controlling the Earth's climate. However, there are big uncertainties in the magnitude and variability in this flux.

Until now it has been estimated using shipboard measurements, such as those collected for the Surface Ocean CO2 Atlas (SOCAT) from research ships and sail drones, data from profiling floats deployed in the ocean, and global ocean biogeochemistry models. These different approaches have produced large variations in estimates.

This new study used a novel technique called eddy covariance - with flux systems mounted on ships’ foremasts - to directly measure air-sea CO2 fluxes during seven research cruises in the region.

The results - published in the journal Science Advances - show the summer Southern Ocean is likely to be a strong CO2 sink, challenging the much weaker estimates based on float data and model simulations, which the authors say “substantially underestimate” the observed CO2 uptake.

The authors argue this difference can be explained by considering temperature variations in the upper ocean and a limited resolution, for example averaging over a too-long time scale or sampling over a too-large interval, adding that current models and float data do not account for small, intense CO2 uptake events.

Lead author Dr Yuanxu Dong, of UEA’s Centre for Ocean and Atmospheric Sciences (COAS) and PML, is currently at the GEOMAR Helmholtz Centre for Ocean Research Kiel, funded by a Humboldt Foundation fellowship. He said: “This is the first time a large number of direct air-sea CO2 flux observations have been used to assess existing flux products in the Southern Ocean. Our findings provide direct observational evidence that this ocean may take up more CO2 than previously recognized.

“Accurate quantification of the Southern Ocean CO2 sink is essential for the assessment of the Earth’s climate. However, it is the most uncertain region regarding the estimate of its CO2 sink capacity.

“Our study reduces this uncertainty and improves the understanding of Southern Ocean CO2 uptake, and we recommend that future estimates should include temperature adjustments and higher resolution reconstruction and modelling.”

The team, which also included scientists at the Alfred Wegener and Max Planck Institutes in Germany, the Flanders Marine Institute in Belgium and University of Hawai'i in the US, investigated inconsistencies in the existing CO2 flux estimates, then used the eddy covariance flux observations to assess the different data sets. 

The cruise data covered approximately 3300 hours - about 175 days - of measurements in the Antarctic summer of 2019 and 2020, defined as November to April in the study, over an area of highly dynamic frontal zones. Measurements were taken hourly compared, for example, to approximately every 10 days for those from floats.

Dr Mingxi Yang, study co-author and Chemical Oceanographer at PML, said: “The Southern Ocean is a key sink of CO2, but the magnitudes and the locations of this ocean uptake are uncertain. PML's autonomous and high frequency eddy covariance system has significantly increased the number of direct air-sea CO2 flux measurements in this region.

“This paper offers the first comparison between direct CO2 flux measurements and estimates from coarse data products and global models on a large spatial/temporal scale. It has helped validate these and shed light on ways to improve them.”

Lack of winter data is a general problem with ships because of the difficulty accessing the region at that time, which the floats partially address. Acknowledging that their cruise data only covers some parts of the Southern Ocean in summer, the authors say continued efforts towards high-quality observations are essential to improve estimates of air-sea CO2 fluxes.

This might include an expansion of measurements to more ships, and the further deployment of buoys and sail drones, particularly in the winter season. Additional observations in winter by unattended platforms could also help fill the seasonal data gap.

Prof Tom Bell, co-author and PML Ocean-Atmosphere Biogeochemist, added: “We have recently moved our flux system onto the new ice breaker, the RRS Sir David Attenborough, and collected the first set of flux measurements during a research cruise in the Weddell Sea earlier this year. We aim to continue this valuable work over the coming years, which is essential for monitoring the current climate and forecasting future changes.”

The researchers also warn that the amount of shipboard surface ocean CO2 measurements has drastically declined in recent years, partly due to the COVID pandemic, but also to less funding. The number of annual datasets in SOCAT, for example, decreased by 35% from 2017 to 2021 – and 40% for the Southern Ocean.

Dr Dorothee Bakker, of UEA’s COAS and chair of SOCAT, said: “There is a real need for sustained and expanded funding of surface ocean CO2 measurements and their SOCAT synthesis, in order to constrain Southern Ocean CO2 uptake, to support the World Meteorological Organization’s Global Greenhouse Gas Watch monitoring initiative and to inform climate policy.”

The work was supported by funding from the China Scholarship Council, the UK’s Natural Environment Research Council (NERC) and the European Space Agency.

‘Direct observational evidence of strong CO2 uptake in the Southern Ocean’, Yuanxu Dong, Dorothee C E Bakker, Thomas G Bell, Mingxi Yang, Peter Landschützer, Judith Hauck, Christian Rödenbeck, Vassilis Kitidis, Seth M Bushinsky, and Peter Liss, is published in Science Advances on July 24.

 

Saharan dust regulates hurricane rainfall




STANFORD UNIVERSITY




Giant plumes of Sahara Desert dust that gust across the Atlantic can suppress hurricane formation over the ocean and affect weather in North America. 

But thick dust plumes can also lead to heavier rainfall – and potentially more destruction – from landfalling storms, according to a July 24 study in Science Advances. The research shows a previously unknown relationship between hurricane rainfall and Saharan dust plumes. 

“Surprisingly, the leading factor controlling hurricane precipitation is not, as traditionally thought, sea surface temperature or humidity in the atmosphere. Instead, it’s Sahara dust,” said the corresponding author Yuan Wang, an assistant professor of Earth system science at the Stanford Doerr School of Sustainability.

Previous studies have found that Saharan dust transport may decline dramatically in the coming decades and hurricane rainfall will likely increase due to human-caused climate change. 

However, uncertainty remains around the questions of how climate change will affect outflows of dust from the Sahara and how much more rainfall we should expect from future hurricanes. Additional questions surround the complex relationships among Saharan dust, ocean temperatures, and hurricane formation, intensity, and precipitation. Filling in the gaps will be critical to anticipating and mitigating the impacts of climate change.

“Hurricanes are among the most destructive weather phenomena on Earth,” said Wang. Even relatively weak hurricanes can produce heavy rains and flooding hundreds of miles inland. “For conventional weather predictions, especially hurricane predictions, I don’t think dust has received sufficient attention to this point.”

Competing effects

Dust can have competing effects on tropical cyclones, which are classified as hurricanes in the North Atlantic, central North Pacific, and eastern North Pacific when maximum sustained wind speeds reach 74 miles per hour or higher.

“A dust particle can make ice clouds form more efficiently in the core of the hurricane, which can produce more precipitation,” Wang explained, referring to this effect as microphysical enhancement. Dust can also block solar radiation and cool sea surface temperatures around a storm’s core, which weakens the tropical cyclone.

Wang and colleagues set out to first develop a machine learning model capable of predicting hurricane rainfall, and then identify the underlying mathematical and physical relationships.

The researchers used 19 years of meteorological data and hourly satellite precipitation observations to predict rainfall from individual hurricanes. 

The results show a key predictor of rainfall is dust optical depth, a measure of how much light filters through a dusty plume. They revealed a boomerang-shaped relationship in which rainfall increases with dust optical depths between 0.03 and 0.06, and sharply decreases thereafter. In other words, at high concentrations, dust shifts from boosting to suppressing rainfall.  

“Normally, when dust loading is low, the microphysical enhancement effect is more pronounced. If dust loading is high, it can more efficiently shield [the ocean] surface from sunlight, and what we call the ‘radiative suppression effect’ will be dominant,” Wang said.

Additional authors are affiliated with Western Michigan University, Purdue University, University of Utah, and California Institute of Technology