Caribou have been using same Arctic calving grounds for 3,000 years

Epic migration leads caribou to same areas to give birth every spring

Peer-Reviewed Publication

UNIVERSITY OF CINCINNATI

 

IMAGE: ALASKA'S BARREN-GROUND CARIBOU HAVE BEEN USING THE SAME PARTS OF THE ARCTIC NATIONAL WILDLIFE REFUGE TO GIVE BIRTH TO THEIR CALVES FOR AT LEAST 3,000 YEARS, ACCORDING TO RESEARCHERS. view more 

CREDIT: MICHAEL MILLER

Caribou have been using the same Arctic calving grounds for more than 3,000 years, according to a new study by the University of Cincinnati.

Female caribou shed their antlers within days of giving birth, leaving behind a record of their annual travels across Alaska and Canada’s Yukon that persists on the cold tundra for hundreds or even thousands of years. Researchers recovered antlers that have sat undisturbed on the arctic tundra since the Bronze Age.

“To walk around the landscape and pick up something that’s 3,000 years old is truly amazing,” said Joshua Miller, an assistant professor of geosciences at the University of Cincinnati.

He has been leading summer expeditions to the Arctic National Wildlife Refuge since 2010, using rafts to navigate remote rivers to search for caribou antlers exposed on the tundra.

“We think about having to dig down into the soil to find that kind of ecological history, but on the Coastal Plain, the vegetation grows extremely slowly,” Miller said. “Bones dropped by animals that lived dozens or even hundreds of generations in the past can provide really meaningful information.”

The study demonstrates how important the area is for an animal that native Alaskans and Candians still depend on for sustenance, even as energy companies seek to exploit oil and gas resources in this protected area.

The Biden Administration in 2021 suspended drilling leases in the Arctic National Wildlife Refuge, the largest tract of undeveloped wilderness in the United States. 

“We know this region of the Arctic National Wildlife Refuge has been an important area for caribou for millennia,” Miller said. “That should give us pause on how we think about those landscapes.”

The study was published in the journal Frontiers in Ecology and Evolution.

Barren ground caribou undertake nature’s longest overland migration, traveling as far as 800 miles each year to reach their spring calving grounds in the Arctic National Wildlife Refuge and Canada’s Ivvavik National Park. The largest herd in this area, named for the Porcupine River, numbers in the hundreds of thousands of animals.

Scientists think caribou use these areas because they have fewer predators and offer seasonal vegetation near places where they can avoid the worst of the mosquitoes.

“The mosquitoes are horrible,” Miller said. “You get swarmed — literally covered in them. They can do significant damage to a young calf.”

Whatever the reason, the antlers they leave behind provide a physical record of their epic yearly travels that researchers can unlock through isotopic analysis. 

Caribou antlers, like those of elk, deer and moose, are made of fast-growing bone that the animals shed each year and regrow the following year.

“It is amazing to think that the oldest of the antlers found in our study were growing approximately the same time Homer was penning ‘the Iliad’ and ‘the Odyssey,’” study co-author Patrick Druckenmiller said.

He is director of the University of Alaska Museum and professor of the Department of Geology and Geophysics at the University of Alaska Fairbanks. Eric Wald from the U.S. Fish and Wildlife Service also co-authored the study.

The antler surveys in the vast expanse of the Arctic refuge require meticulous logistical planning, Miller said. Small planes deposit researchers and their gear deep in the interior, where they have to be watchful for grizzly and polar bears. They pilot rafts to the Beaufort Sea, conducting a  grid search of suitable caribou habitat identified in advance using aerial photography.

“We search for antlers along old river terraces, walking back and forth, covering every inch of habitat to find those ancient treasures,” Miller said. 

While male caribou antlers span four feet and weigh more than 20 pounds, female caribou antlers are much smaller. The antlers contain nutrients such as phosphorus and calcium that are important to plants and animals.

The dropped antlers create “nutrient sinks,” which could have a profound effect on the area’s vegetation. Miller said the caribou’s migration serves as a nutrient “conveyor belt” that might even draw caribou back to reap the benefits of this fertilizer in a reinforcement loop.

Caribou and other mammals are known to chew on dropped antlers for their valuable minerals. This could be an important dietary supplement for new caribou moms.

“We’d like to know to what degree this conveyor belt influences why caribou are going there in the first place,” Miller said.
The study was supported by the U.S. Fish and Wildlife Service, the National Geographic Society, the National Science Foundation, the Wildlife Society and the UC Office of Research.

Miller said the Arctic is warming faster than other parts of the globe. Parts of the Arctic that were once barren tundra are sprouting new spruce forests.

“We were in Arctic Village this summer, just south of the calving grounds, talking to elders about the changes they have seen,” Miller said. “Where once it was open tundra, large stretches of this barren ground are now full of trees everywhere. What will happen to the barren ground caribou as this habitat gets converted into forest?”

By comparing isotopes in shed antlers to the geology of Alaska, researchers can tell where caribou have spent the year feeding.

University of Cincinnati assistant professor Joshua Miller holds an antler shed by a female caribou in the Arctic National Wildlife Refuge. By conducting an isotopic analysis of the antler, researchers can track the animal's migration over the previous year.

CREDIT

Colleen Kelley/UC

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JOURNAL

Frontiers in Ecology and Evolution

DOI

10.3389/fevo.2022.1059456 

METHOD OF RESEARCH

Observational study

SUBJECT OF RESEARCH

Animals

ARTICLE TITLE

Shed female caribou antlers extend records of calving activity on the Arctic National Wildlife Refuge by millennia

Spanish lagoon used to better understand wet-to-dry transition of Mars

Peer-Reviewed Publication

CORNELL UNIVERSITY

ITHACA, N.Y. – In the ongoing search for signs of life on Mars, a new study proposes focusing on “time-resolved analogs” – dynamic and similar Earth environments where changes can be analyzed over many years.

Alberto Fairén, visiting scientist of astronomy at Cornell University, led an investigation in the extremely salty Tirez lagoon in central Spain, which had experienced alternating dry and wet periods over the course of two decades before reaching total desiccation in 2015.

The key findings: If life existed on Mars when the planet had liquid water on its surface, its desiccation would not have necessarily implied that life disappeared for good. In addition, lipids – such as fatty acids or their derivatives – have a higher resistance to degradation and should be preferred targets in the search for life in a waterless world.

When analyzing Mars, Fairén’s research group focused particularly on locations that contained water ponds before drying up during the Noachian (around 4 billion years ago) and Hesperian (3.7 to 3 billion years ago) periods. They closely monitored Tirez’s gradual desiccation over 25 years, using it as an opportunity to better understand the evolution of microbial communities in small, dried-out lagoons.

Samples from Tirez were collected and analyzed in 2002, during the early stages of desiccation, and again in 2021, when the lagoon was completely dry.

“We conclude that any possible early ecosystems on Mars probably collapsed when liquid water disappeared,” Fairén said, “but the changing environment would have triggered global ecological successions, with hypothetical microorganisms evolving strategies similar to those of microorganisms living in Tirez now, adapted to thrive at very low water activity in the desiccated sediments.”

The group will continue to monitor Tirez, Fairén said, noting that any changes in its status regarding water content would be of interest.

“It would be particularly interesting if the ongoing dry decade in central Spain would experience some alleviation and we could witness at least a partial comeback of the water table,” he said. “That would allow us to extend even more our concept of the astrobiological time-analog for Mars, because the desiccation of Mars was a stepwise process.

“Analyzing the response of the microbiota in Tirez to the presence of liquid water again, after years of complete desiccation, would provide new insights to understand the evolution of possible ancient ecosystems on Mars,” Fairén noted.

The study published February 8 in the Nature journal Scientific Reports.

For additional information, see this Cornell Chronicle story.

Cornell University has dedicated television and audio studios available for media interviews.

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JOURNAL

Scientific Reports

DOI

10.1038/s41598-023-28327-3 

First nursery of multiple shark species in the Eastern Atlantic described in Cape Verde

Peer-Reviewed Publication

FACULTY OF SCIENCES OF THE UNIVERSITY OF LISBON

 

IMAGE: JUVENILE MILK SHARK (RHIZOPRIONODON ACUTUS). view more 

CREDIT: VASCO PISSARRA

A new study carried out by Portuguese and Cape Verdean researchers reveals a shark nursery in the Sal Rey bay (Boa Vista island, Cape Verde): home to juveniles of several endangered species, including the iconic hammerhead shark, this is a unique region in the eastern Atlantic.

“Identifying and protecting nursery areas is crucial for the conservation of sharks, one of the most endangered animal groups in the world”, highlights Rui Rosa, researcher at the Faculty of Sciences of the University of Lisbon (Portugal) and lead author of this study, now published at Frontiers in Marine Science.

By monitoring the bycatch of sharks, and integrating the observations and knowledge of local fishermen, the research team evidences the consistent and preferential use of this zone by newborns of at least five shark species – all of them at imminent risk of extinction, according to the International Union for the Conservation of Nature (IUCN).

“The relevance of this region is clearly recognized by the local fishing community”, adds Rui Rosa. Since it is also used by marine mammals and turtles, “the protection of Sal Rei bay will be important not only for sharks, but for the conservation of a whole diversity of highly charismatic marine organisms and for the sustainable use of the marine resources in the region”, concludes the researcher.

This study was developed within the scope of the NGANDU research project, financed by the Portuguese Foundation for Science and Technology and for the Aga Khan Development Network.

Juvenile scalloped hammerhead (Sphyrna lewini).

Sal Rei bay (Boa Vista, Cape Verde)

CREDIT

Vasco Pissarra

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JOURNAL

Frontiers in Marine Science

DOI

10.3389/fmars.2023.1077748 

ARTICLE TITLE

Evidence for the first multi-species shark nursery area in Atlantic Africa (Boa Vista Island, Cabo Verde)

Regenstrief-led study shows enhanced spiritual care improves well-being of ICU surrogate decision-makers

Importance of chaplains to the long-term psychological health of surrogate decision-makers demonstrated

Peer-Reviewed Publication

REGENSTRIEF INSTITUTE

INDIANAPOLIS – Family members or others who make decisions for patients in a hospital intensive care unit (ICU) often experience significant anxiety, depression and post-traumatic stress.

In one of the first studies to address the effect of spiritual support on the well-being of these surrogate decision-makers, researchers led by Alexia Torke, M.D., with Regenstrief Institute and Indiana University School of Medicine, found that those receiving enhanced spiritual care had a clinically significant decline in anxiety. Additionally, family surrogates receiving enhanced spiritual support experienced higher spiritual well-being and satisfaction with spiritual care compared to individuals receiving usual care from a hospital chaplain.

The enhanced spiritual care model, developed and implemented by the researchers, many of whom are chaplains, addressed the most important questions about religion and spirituality that ICU patients and their family members were likely to face. The researchers noted that board-certified chaplains provide spiritual care to patients of all religions or no religion. Spirituality is defined to include big questions about life, including meaning, purpose, spiritual experiences and connection to oneself and others.

“Throughout my career as a physician, as I have spoken with patients and family members about critical illness and life and death decision-making, many of them have talked about their religious and spiritual practices and beliefs. Yet, studies addressing the effect of spiritual support on family members of these very sick individuals are lacking,” said Dr. Torke. “This study, one of the first of its kind, enabled us to actually measure the impact of spiritual care on those who are making decisions for ICU patients who are unable to do so for themselves.” A clinician-researcher focused on palliative care, Dr. Torke directs the Daniel F. Evans Center for Spiritual and Religious Values in Healthcare at IU Health.

A total of 128 pairs of patients (age 18 and older) admitted to an ICU and unable to make medical decisions and their surrogate decision-makers – typically family members – participated in the study.

Patients and family members in the usual care arm of the study saw a chaplain, on average, two times during the patient’s ICU stay.

Patients and family members participating in the enhanced spiritual care arm of the study saw a chaplain, on average, four times during their relative’s ICU stay. Surrogates were contacted again six to eight weeks after the patient’s discharge from the hospital. If, however, the patient died during hospitalization, study chaplains attempted a bereavement visit, in person or by telephone, within 48 hours of the patient’s death.

Dr. Torke notes that the study’s enhanced spiritual care model, which builds upon usual chaplain practice, is scalable and could be adapted by hospitals across the country and around the world because it is uncomplicated and was developed to fit well into existing spiritual care departments.

The primary endpoint of the study was measurement of the surrogate's anxiety, six to eight weeks after the patient’s discharge. The researchers found that those enrolled in the expanded chaplain interaction arm of the study had a clinically significant decline in anxiety and showed improvement in their spiritual well-being and satisfaction with spiritual care.

“As we discuss in the paper, spiritual care does not bring in revenue for a hospital. Chaplains, at this point in time, don't bill the way physicians do, and so they are not generating income for a hospital. And sometimes when budgets are tight, it's very tempting to cut chaplain programs,” said Dr. Torke. “By building a research base and research knowledge about spiritual care, we are demonstrating the importance of chaplains to the long-term well-being of our patients and their family members. Even though they're not bringing in money, chaplains are an extremely important part of the care environment, providing real support to family members as well as patients in critical ways that not only affect satisfaction and but also health outcomes.”

“Effects of Spiritual Care on Well-being of Intensive Care Family Surrogates: A Clinical Trial” is published in the Journal of Pain and Symptom Management.

The authors concluded, “results of this study can inform hospitals, payors and policymakers about the value of chaplain-delivered spiritual care to improve emotional and spiritual support for ICU families. These results provide evidence for greater inclusion of chaplains in palliative and intensive care and inform the field about important elements of high-quality spiritual care such as proactive contact, comprehensive assessment, and tailored interventions.”

The study was supported by IU School of Medicine, the Daniel F. Evans Center and the National Institutes of Health’s National Institute on Aging.

Author list

Alexia M. Torke, M.D., M.S.1; Shelley E. Varner-Perez, MDiv, MPH, CPH, BCC2; Emily S. Burke, B.A.3; Tracy A. Taylor, B.S.3; James E. Slaven, M.S., M.A.4; Kathryn L. Kozinski, MDiv, BCC5; Saneta M. Maiko, PhD, M.S.6; Bruce J. Pfeffer, MAHL, BCC7; and Sarah K. Banks, B.S.8

Author affiliations

1 IU Center for Aging Research (A.M.T., S.E.V.P., E.S.B., T.A.T.), Regenstrief Institute, Indianapolis, Indiana; Indiana University School of Medicine (A.M.T., S.M.M., S.K.B.), Indianapolis, Indiana; Daniel F. Evans Center (A.M.T., S.E.V.P., S.M.M., B.J.P.), Indiana University Health, Indianapolis, Indiana.

2 IU Center for Aging Research (A.M.T., S.E.V.P., E.S.B., T.A.T.), Regenstrief Institute, Indianapolis, Indiana; Daniel F. Evans Center (A.M.T., S.E.V.P., S.M.M., B.J.P.), Indiana University Health, Indianapolis, Indiana; Spiritual Care and Chaplaincy. Department (S.E.V.P., B.J.P.), Indiana University Health, Indianapolis, Indiana

3 IU Center for Aging Research (A.M.T., S.E.V.P., E.S.B., T.A.T.), Regenstrief Institute, Indianapolis, Indiana.

4 Department of Biostatistics and Health Data Science (J.E.S.), Indiana University School of Medicine, Indianapolis, Indiana.

5 Maine General Health (K.L.K.), Augusta, Maine.

6 Indiana University School of Medicine (A.M.T., S.M.M., S.K.B.), Indianapolis, Indiana;

Daniel F. Evans Center (A.M.T., S.E.V.P., S.M.M., B.J.P.), Indiana University Health, Indianapolis, Indiana.

7 Daniel F. Evans Center (A.M.T., S.E.V.P., S.M.M., B.J.P.), Indiana University Health, Indianapolis, Indiana; Spiritual Care and Chaplaincy Department (S.E.V.P., B.J.P.), Indiana University Health, Indianapolis, Indiana.

8 Indiana University School of Medicine (A.M.T., S.M.M., S.K.B.), Indianapolis, Indiana

About Alexia Torke, M.D., M.S.

In addition to her Regenstrief appointment, Alexia Torke, M.D., M.S., is a professor of medicine and chief of the Section of Palliative Medicine at Indiana University School of Medicine. She also directs the Daniel F. Evans Center for Spiritual and Religious Values in Healthcare at Indiana University Health.

About Regenstrief Institute

Founded in 1969 in Indianapolis, the Regenstrief Institute is a local, national and global leader dedicated to a world where better information empowers people to end disease and realize true health. A key research partner to Indiana University, Regenstrief and its research scientists are responsible for a growing number of major healthcare innovations and studies. Examples range from the development of global health information technology standards that enable the use and interoperability of electronic health records to improving patient-physician communications, to creating models of care that inform practice and improve the lives of patients around the globe.

Sam Regenstrief, a nationally successful entrepreneur from Connersville, Indiana, founded the institute with the goal of making healthcare more efficient and accessible for everyone. His vision continues to guide the institute’s research mission.

About IU School of Medicine

IU School of Medicine is the largest medical school in the U.S. and is annually ranked among the top medical schools in the nation by U.S. News & World Report. The school offers high-quality medical education, access to leading medical research and rich campus life in nine Indiana cities, including rural and urban locations consistently recognized for livability.

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JOURNAL

Journal of Pain and Symptom Management

DOI

10.1016/j.jpainsymman.2022.12.007 

ARTICLE TITLE

Effects of Spiritual Care on Well-being of Intensive Care Family Surrogates: A Clinical Trial

Whiskers help nectar-eating “acro bats” hover like hummingbirds

Extra-long hairs provide enhanced spatial information for orientation and feeding

Peer-Reviewed Publication

DARTMOUTH COLLEGE

 

VIDEO: NECTAR-EATING BATS EVOLVED EXTRA-LONG WHISKERS THAT PROVIDE ENHANCED SPATIAL INFORMATION AS THE ANIMALS DART FROM FLOWER TO FLOWER TO FEED WITHOUT LANDING. view more 

CREDIT: ERAN AMICHAI

From dragonflies to hummingbirds, hovering flight is among the most complex and captivating forms of animal movement—a physiological feat of size, musculature and wing development.

For nectar-feeding bats that hover as they feed from flowers, this aerial maneuver also depends on extra-long whiskers unlike those of most other bat species, according to a Dartmouth College-led study in the journal Proceedings of the Royal Society B. The researchers used high-speed cameras to capture how the stiff hairs jutting forward from the face of nectar-eating bats provide enhanced spatial information that guides the animals as they swoop in to quickly feed—within a second or less—on succulent flowers without landing.

“The whiskers of nectar-feeding bats are critical sensory organs that provide high-quality input the brain works with to optimize hovering. It’s a cool junction between sensory biology and bio-kinematics, between form and function,” said lead author Eran Amichai, a postdoctoral researcher in biological sciences at Dartmouth who studies echolocation in bats. Co-authors are postdoctoral fellow David Boerma from the American Museum of Natural history, animal behavioralist Rachel Page at the Smithsonian Tropical Research Institute in Panama, Sharon Swartz, a professor of biology and engineering at Brown University, and Hannah ter Hofstede, a past assistant professor of biological sciences at Dartmouth now at the University of Windsor in Canada.

The researchers worked at the Smithsonian Tropical Research Institute recording Pallas’s long-tongued bats—a South and Central American bat that has the fastest metabolism of any mammal—as they drank from hand-blown glass flowers designed for the study to replicate the plants the animals feed from. High-speed infrared cameras captured photos and video of the bats as they descended upon the glass flowers and navigated their muzzles and tongues into the “bloom” to eat the nectar. Feedings typically lasted between a half- to one second.

The researchers found that bats with clipped whiskers were less agile and accurate during feeding and flight than animals with untouched whiskers. The animals with clipped whiskers were held for a few days until the hairs regrew, then released back into the jungle. “Clipping the whiskers doesn’t reduce the bats’ ability to feed, they just do it a little less gracefully,” Amichai said. “If it were gymnastics, they’d get an 8.5 instead of a 9.8.”

The role of long whiskers in nectar-feeding bats’ flight control provides new insight into the coevolution of the bats with the flowers they feed on, Amichai said. The majority of bats possess short whiskers not arranged in any particular pattern or direction. But the researchers found that whisker length in nectar-eating bats evolved at least twice to—along with long tongues and faces—potentially help them better navigate the deep chambers of the flowers they prefer. In turn, the long reach these flowers require results in more pollen sticking to their pollinators and thus the broader proliferation of their kind.

The researchers plan to continue their work using higher-resolution images, flowers that move, interactions with predators and other expansions on the experimental model, Amichai said.

In the meantime, the latest study offers a fascinating glimpse into how nectar-feeding bats combine various forms of sensory information to navigate the world around them, Amichai said. Their world is a combination of scent, echolocation, spatial memory, knowledge of the seasons and the physical sensation and equilibrium provided by their whiskers.

“I find thinking in these terms of switching back and forth between completely different ways to perceive the world—and seamlessly integrating their input—to be a mind-blowing concept,” Amichai said. Understanding how animals perceive and interact with their surroundings helps scientists develop better conservation strategies, he said.

“We are strange animals—we rely almost solely on vision and, to a lesser extent, hearing to perceive the world. As a result, we interpret other animals' behavior in similar terms and that often leads us to completely misinterpret what they're doing and why,” Amichai said. “Understanding the sensory world of other animals helps us ‘see the world through their eyes’ and understand their behavior, needs and challenges better.”

The paper, “By a Whisker: The Sensory Role of Vibrissae in Hovering Flight in Nectarivorous Bats,” was published Feb. 1 by the Proceedings of the Royal Society B. The work was supported by a Journal of Experimental Biology Travelling Fellowship (JEBTF1911291) from The Company of Biologists.

High-speed cameras captured nectar-eating Pallas’s long-tongued bats as they fed from glass tubes designed for the study to replicate the animals' preferred flowers.

CREDIT

Eran Amichai

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JOURNAL

Proceedings of the Royal Society B Biological Sciences

DOI

10.1098/rspb.2022.2085 

METHOD OF RESEARCH

Experimental study

SUBJECT OF RESEARCH

Animals

ARTICLE TITLE

By a whisker: the sensory role of vibrissae in hovering flight in nectarivorous bats

Solar-powered gel filters enough clean water to meet daily needs

Peer-Reviewed Publication

PRINCETON UNIVERSITY, ENGINEERING SCHOOL

 

IMAGE: RESEARCHERS NÉHÉMIE GUILLOMAITRE AND XIAOHUI XU HOLD A SAMPLE OF THE SOLAR ABSORBER GEL, WHICH ACTS LIKE A SPONGE TO SOAK UP CLEAN WATER AND FILTER OUT CONTAMINANTS. view more 

CREDIT: BUMPER DEJESUS/PRINCETON UNIVERSITY

Worldwide, over two billion people lack reliable access to clean water. And one potential solution for meeting that need works a lot like a sponge, soaking up clean water while leaving contaminants behind.

Researchers at Princeton University have developed the next generation of their solar absorber gel technology, a device that could be key to unlocking clean water access for people across the globe. The sponge-like gel is low-cost, easy-to-use, and requires only sunlight to filter pollutants such as heavy metals, oils, microplastics, and some bacteria from water, making it an alternative for off-grid water purification.

The device demonstrates an almost fourfold increase in filtration rate over the first-generation technology, which was developed in 2021. A square meter of the one-centimeter-thick material can produce over a gallon of water in as little as 10 minutes and could provide enough clean water to meet daily demand in many parts of the world. The details of the new solar absorber gel were published on Feb. 8 in ACS Central Science.

“There have been many efforts to develop a technology that uses solar energy to create clean, potable drinking water, but they often fail to produce enough water to meet daily need,” said Rodney Priestley, Dean of the Graduate School, Pomeroy and Betty Perry Smith Professor of Chemical and Biological Engineering, and associated faculty at the Andlinger Center for Energy and the Environment. “This latest iteration of our technology gets us another step closer towards the goal of having a technology driven by solar energy that can actually produce enough clean water to meet daily demand.”

At the core of the device’s sponge-like appearance is a gel formed from a polymer known as poly(N-isopropylacrylamide) or PNIPAm, which can either absorb or release water, depending on the temperature.

Below 33 degrees Celsius (91 degrees Fahrenheit), this hydrogel acts like a sponge to absorb water from a source such as a lake. But when the hydrogel is removed from the water and heated by sunlight to a temperature above 33 degrees, it begins to release the water. With the addition of polymers such as polydopamine (PDA) to the gel’s surface, the device can filter contaminants like oils, heavy metals, microplastics, and some types of bacteria from the water.

The researchers said the gel is less expensive and simpler to use than existing systems that rely on evaporation. Users simply toss the sponge-like device in a water source until it becomes saturated. Then they remove it from the water, place it in sunlight, and wait for it to release filtered water. Under the midday sun, the gel can release around 70% of the water it absorbs in as little as ten minutes.

“Our first solar absorber gel already had strong performance,” said Xiaohui Xu, a presidential postdoctoral fellow at Princeton University and the study’s first author. “But we wanted to continue making the device even more efficient at filtering water.”

According to Xu, the dramatic increase in filtration speed stems from changes the researchers made to the hydrogel’s structure between the first and second generations that enhanced its ability to transport water. While both the first and second generations utilize the same PNIPAm hydrogel, the researchers found they could change the gel to have a more interconnected, fibrous structure by synthesizing the polymer in a mixture of water and ethylene glycol.

Xu said the unconventional approach led to a key improvement over most existing hydrogels, which tend to have a honeycomb-like structure with walls that impede water transport. She compared the interconnected, fibrous structure of the new hydrogel to that of a mature loofah-fruit, which is commonly used as a scrubbing sponge in bathrooms and kitchens.

In addition to its enhanced filtration speed, Néhémie Guillomaitre, study co-author and a graduate student in chemical and biological engineering, added that the second-generation solar absorber gel sports other improvements over its predecessor.

For example, the researchers gave the solar absorber gel anti-fouling properties by adding another polymer, poly(sulfobetaine methacrylate) (PSBMA), to the surface of the gel. Not only does PSBMA help the device filter contaminants from water even more efficiently, but it also binds tightly with water molecules at the gel’s surface to form a hydration layer that repels oil and bacteria, which allows the device to be self-cleaning.

“Having anti-fouling properties helps the gel last longer,” Guillomaitre said. “There is less of a need to worry about oils and bacterial films accumulating on the gel’s surface over time and lowering its efficiency.”

The researchers ultimately believe the solar absorber gel could scale to become an attractive option for water purification at the household level and could provide access to clean water without needing to rely on energy from the grid.

“Ideally, this technology could one day be used by anyone concerned about their water quality, regardless of where they live,” Guillomaitre said.

While the researchers noted that they are still working to create prototypes to demonstrate their device can be scaled to household use, Priestley said in the near term, he believes the solar absorber gel could be used in emergency situations to provide on-demand access to clean water.

With support from the National Science Foundation, the research has led to the launch of a startup, AquaPao, co-founded by Priestley, which will continue to iterate and improve the design of the solar absorber gel, test its long-term durability, and identify opportunities to scale up the technology.

“This work is a wonderful example of how academic research can be translated into the startup world,” said Priestley. “Through our work, we have been able to show that fundamental research may have significant impact on society.”

The article, “Quick Release Anti-Fouling Hydrogels for Solar-Driven Water Purification,” was published in ACS Central Science on Feb. 8. In addition to Xu, Guillomaitre, and Priestley, authors include Kofi Christie, R. Kōnane Bay, Navid Bizmark, Sujit Datta, and Z. Jason Ren, of Princeton University.

The work was supported by the National Science Foundation Materials Research Science and Engineering Centers, the Eric and Wendy Schmidt Transformative Technology Fund at Princeton University, the Project X fund, and the Princeton Catalysis Initiative.

A sample of the solar absorber gel

CREDIT

Bumper DeJesus/Princeton University

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JOURNAL

ACS Central Science

DOI

10.1021/acscentsci.2c01245 

METHOD OF RESEARCH

Experimental study

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Quick-Release Antifouling Hydrogels for Solar-Driven Water Purification

ARTICLE PUBLICATION DATE

8-Feb-2023

This loofah-inspired, sun-driven gel could purify all the water you’ll need in a day

Peer-Reviewed Publication

AMERICAN CHEMICAL SOCIETY

 

IMAGE: A POROUS HYDROGEL INSPIRED BY LOOFAH SPONGES ABSORBS POLLUTED WATER AT ROOM TEMPERATURE AND THEN RAPIDLY RELEASES PURIFIED WATER WHEN HEATED. view more 

CREDIT: ADAPTED FROM ACS CENTRAL SCIENCE 2023, DOI: 10.1021/ACSCENTSCI.2C01245

Access to clean water is being strained as the human population increases and contamination impacts freshwater sources. Devices currently in development that clean up dirty water using sunlight can only produce up to a few gallons of water each day. But now, researchers in ACS Central Science report how loofah sponges inspired a sunlight-powered porous hydrogel that could potentially purify enough water to satisfy someone’s daily needs — even when it’s cloudy.

Previously, researchers have suggested that sunlight-driven evaporation could be a low-energy way to purify water, but this approach doesn’t work well when it’s cloudy. One solution could be temperature-responsive hydrogels, specifically poly(N-isopropyl acrylamide) (PNIPAm), that switch from absorbing water at cooler temperatures to repelling it when heated. However, conventional PNIPAm gels can’t generate clean water fast enough to meet people’s daily needs because of their closed-off pores. Conversely, natural loofahs, which many people use to exfoliate in the shower, have large, open and interconnected pores. So, Rodney Priestley, Xiaohui Xu, and colleagues wanted to replicate the loofah’s structure in a PNIPAm-based hydrogel, yielding a material that could rapidly absorb water at room temperature, and rapidly release purified water when heated by the sun’s rays under bright or cloudy conditions.

The researchers used a water and ethylene glycol mixture as a uniquely different polymerization medium to make a PNIPAm hydrogel with an open pore structure, similar to a natural loofah. Then they coated the opaque hydrogel’s inner pores with polydopamine (PDA) and poly(sulfobetaine methacrylate) (PSMBA), and tested this material using an artificial light equivalent to the power of the sun. It absorbed water at room temperature and, when heated by the artificial light, released 70% of its stored water in 10 minutes — a rate four times greater than the one for a previously reported absorber gel. The researchers say that, at this rate, the material has the potential to meet a person’s daily demand. And under lower light conditions, replicating partly cloudy skies, it took 15 to 20 minutes for the material to release a similar amount of stored water.

Finally, the new loofah-like material was tested on samples polluted with organic dyes, heavy metals, oil and microplastics. In all of the tests, the gel made the water substantially cleaner. For example, in two cycles of treatment, water samples with around 40 parts per million (ppm) chromium were absorbed, then released with less than 0.07 ppm chromium — the allowable limit for drinking water. The researchers say the unique hydrogel structure that they created could be useful in additional applications, such as drug delivery, smart sensors and chemical separations.

The authors acknowledge funding from a Princeton University Presidential Postdoctoral Fellowship, a National GEM Consortium Fellowship, the U.S. National Science Foundation, the Eric and Wendy Schmidt Transformative Technology Fund at Princeton University, the Project X Fund at Princeton University and the Princeton Catalysis Initiative.

The paper’s abstract will be available on Feb. 8 at 8 a.m. Eastern time here: http://pubs.acs.org/doi/abs/10.1021/acscentsci.2c01245

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JOURNAL

ACS Central Science

DOI

10.1021/acscentsci.2c01245 

ARTICLE TITLE

Quick Release Anti-Fouling Hydrogels for Solar-Driven Water Purification 

ARTICLE PUBLICATION DATE

8-Feb-2023

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