Tuesday, May 16, 2023

We now know exactly what happens in nature when we fell forests

Deforestation is the biggest threat to the planet's ecosystems, and new research has now mapped out exactly what happens when agriculture replaces forestry

Peer-Reviewed Publication

AARHUS UNIVERSITY

Terceira Island — IMAGE: HEAT, RECURRING RAIN AND VOLCANIC SOIL MAKES THE NATURE ON THE AZORES EXTREMELY FERTILE. IN FACT FARMERS CAN HARVEST YEAR-ROUND ON THE ISLANDS - AND A GREAT DEAL OF THE FRUIT WE EAT IN EUROPA COMES FROM THE AZORES. MANY ANIMALS GRAZE ALSO PASTURES ON THE ISLANDS. THIS PICTURE IS FROM THE ISLAND OF TERCEIRA, SNAPPED CLOSE TO SOME FAMOUS VULCANIC TUNNELS. view more
CREDIT: PHOTO: JULES VERNE TIMES TWO / CREATIVE COMMONS

Humans first started farming about 12,000 years ago. On the shores of the Euphrates and the Tigris, in what is now Iraq and Syria, small groups of people started to grow peas, lentils and barley independently of each other. They felled trees to make space for fields and animals, and in so doing began to shape nature according to the needs of humans.

Back then, our ancestors already knew that, after the forest was felled and the fields were established, some of the animals and plants that had previously thrived would disappear. Today, we know that modern, intensive agriculture is one of the biggest threats to biodiversity on the planet.

However, we actually know very little about what specifically happens to plants, insects and animals in the ecosystem when a forest is felled and the soil is ploughed and planted.

Therefore, Gabor Lovei from the Department of Agroecology at Aarhus University and a number of Portuguese colleagues decided to investigate. On the island of Terceira in the Azores, there is still a part of the original forest. For this reason, the island made a good place to study how agriculture affects original nature.

However, when Gabor Lovei saw his results, he was a little surprised.

"The changes in the ecosystem were less extensive than I’d imagined. True enough, there were fewer large and small animals in the fields, but on a number of other parameters, activity in the ecosystem had actually increased," he says.

The unique nature on the Azores
Until 1427, very few people had set foot on the Azores. Recent archaeological findings suggest that the Vikings perhaps visited the islands many hundred years before the Portuguese, but it was not until the 15th century that humans settled there permanently.

For thousands of years, the Azores were left untouched and lush in the middle of the Atlantic. Deep-green trees and plants thrived because of the islands' combination of high heat, frequent precipitation and volcanic soil.

After Portuguese sailors accidentally discovered the forested mountains in the middle of the Atlantic in 1427, everything changed.

Smallholders, who were tired of the royal favours poured on manor houses in Portugal, packed their picks, shovels and hoes and sailed out to the Azores. They felled the forest and planted wheat and other crops.

Unlike at home on the mainland, the farmers reaped huge yields at harvest. Rumours spread and farmers poured to the islands. Large parts of the forest quickly disappeared and were replaced by agricultural land. Only the parts of the forest in the most mountainous and inaccessible areas, where the soil was too difficult to cultivate, were spared.

And it was precisely this original forest that Gabor Lovei could use in his research.

"In Denmark – and most other places in Europe – the forest is not original. It has been felled, replanted and changed by humans for thousands of years. In the Azores, on the other hand, there is completely original forest – and it’s gold for this type of research," he says.

Gabor’s clever trick
Normally, when entomologists or ornithologists study how agriculture affects different species, they jump into their hiking boots and go out into fields, meadows and forest fringes to record everything they find. They do so systematically, at different times of the day and repeatedly.

However, the method does not tell us as much about how the entire ecosystem reacts to changes. Only about the animal populations.

So when Gabor Lovei set out to investigate how the entire ecosystem reacted to forest felling and field establishment, he had to use other methods.

First, he planted a number of full-grown lettuces in an original forest, on cultivated fields, and on grazing fields for cows. The plants were left for two weeks. After the two weeks, he recorded the area covered by the lettuce, and how much had been eaten. In this way, he could measure the extent of the plant-eating activity in the ecosystem.

He repeated the same process with larvae to determine the scope of the hunt for insects. The more larvae eaten, the more animals – e.g. birds, rodents and frogs – lived in the area. He also put out small boxes of seeds to see how many disappeared. He dug teabags ten centimetres into the soil to examine the activity of the microorganisms in the soil that break down organic matter.

And finally, he planted strawberries to learn more about the pollination in the different areas.

Together, all these small experiments formed a picture of how the ecosystem as a whole changes when forest is felled and fields are planted.

Fewer animals in the fields
Of all the parameters Gabor Lovei studied, the greatest difference was in the number of insects eaten. In the forest, significantly more larvae disappeared than in the cultivated field and grazing areas.

This suggests that there is more wildlife in the forest, he explains.

“Larvae are typically eaten by rodents, birds and lizards. Our findings suggest that there were significantly more of them in the forest, because more larvae disappeared between the trees,” he says.

The seeds also disappeared more quickly in the forest.

"The humidity is higher in the forests, and this means that several different invertebrates can live there. Animals like snails and beetles, which eat seeds.”

With regard to pollination and the number of microorganisms in the soil, he did not find any difference. In fact, plant pollination was slightly higher on the maize fields than in the forest. However, this does not necessarily mean that there are many different species of bee. There are usually only a few plant types on cultivated fields. For this reason, the same few bee species are responsible for pollination.

What can farmers do?
When local farmers fell forest, biodiversity is lost. Gabor Lovei has clearly demonstrated this in his experiments. But can his results also say something about what farmers can do to get some of the biodiversity back on their fields?

Yes, he explains. They can. The results provide a completely new understanding of which parts in the ecosystem will be affected.

"We clearly see that snails and beetles have a hard time on the fields. To get them back, farmers can leave small pockets of natural vegetation in the fields. For example, they can leave roots from dead trees to rot. This will attract many kinds of beetles,” he says.

Another problem with the fields is that we humans bring with us animals, plants and microbes that do not belong there naturally when we grow our crops. For example, rats invaded and displaced a large part of the indigenous fauna on the Azores.

"By making space for small pockets of non-cultivated nature in and around the fields, we know that the native species will survive more easily. They’re simply more resistant to invading species,” he explains.

Can the results be transferred to Denmark?
Nature in the Azores is very different from Denmark. Denmark is colder, the soil is different, and we have virtually no original nature left.

Nevertheless, the results from the Azores can be transferred to Danish conditions, according to Gabor Lovei.

"Such comprehensive experiments have never been conducted on the European mainland, but some of the parameters have been studied in other European countries. The pattern was roughly the same. Therefore, we can assume that Danish nature reacts more or less in the same way to deforestation and cultivation," he says.

“However, agriculture is not all that threatens biodiversity. Cities and gardens also restrict where animals can live. That’s why it's important to do something in our own backyard,” he concludes.

Sowing flowers and trees that belong naturally in Denmark – and not exotic plants – can make a big difference. Plant Danish trees and Danish flowers and stop mowing the lawn. This will make a huge difference for many species.

Part of the Azores is covered by ancient, native forest. This photo is from a protected area on the island of Terceira. The same island that Gabor Lovei did his experiments.

CREDIT

Samuel Monteiro Domingues (Creative Commons)

Gabor Lovei and his colleagues have plotted the locations of their experiments in on this map. The green dots show the locations. Furthermore the map shows which parts of the island are cultivated, which parts are grazed by farm animals and which parts are covered in ancient forest.

CREDIT

Basic and Applied Ecology

Large parts of the Azores are cultivated or are grazed by animals. This photo shows pastures on Terceira. These areas contains less biodiversity than they original forest.

CREDIT

Jules Verne Times TwoDOI

10.1016/j.baae.2022.11.010

METHOD OF RESEARCH

Experimental study

SUBJECT OF RESEARCH

Animals

ARTICLE TITLE

Gains and losses in ecosystem services and disservices after converting native forest to agricultural land on an oceanic island

SOVIET DISCOVERY

Phage structure captured for the first time, to benefit biotech applications

New insights into the structure of phages will enable researchers to develop new uses for the viruses in biotechnology

Peer-Reviewed Publication

UNIVERSITY OF EXETER

First image of filamentous phage structure — IMAGE: FIRST IMAGE OF FILAMENTOUS PHAGE STRUCTURE, BASED ON GOLD ET AL, NATURE COMMUNICATIONS view more
CREDIT: DR VICKI GOLD

New insights into the structure of phages will enable researchers to develop new uses for the viruses in biotechnology.

Phages are viruses that infect bacteria, which enables them to be exploited as tools in biotechnology and medicine. Now, for the first time, researchers at the University of Exeter, in collaboration with Massey University and Nanophage Technologies, New Zealand, have mapped out what a commonly-used form of phage looks like, which will help researchers design better uses in future.

One common use for phage is phage display, which is a useful tool in drug discovery. Phage display works by linking a gene fragment of interest to a phage gene that makes one of the phage coat proteins. The new coat protein with the linked protein of interest appears on the surface of the phage, where it can be assayed and tested for biological activity.

Billions of types of phages exist. Phage display often uses a type of phage known as filamentous, so called because they are long and thin, making the display of many proteins across its surface possible. Although phage display and other applications have proved successful, until now, scientists have not known what this type of phage looks like.

For the first time, Dr Vicki Gold at the University of Exeter, has revealed the structure of a filamentous phage, in research published in the journal Nature Communications. She said: “Phages form part of a very exciting and growing area of research, with a range of current and potential applications. Yet until now, we’ve not had a complete picture of what filamentous phages look like. We’ve now provided the first view, and understanding this will help us improve applications for phage into the future.”

Because filamentous phages are so long, scientists have previously failed to capture an image of their entirety. To image the phage, researchers created smaller versions, which are around 10-fold shorter, which look like straight nanorods rather than entangled spaghetti-like filaments. This mini version was small enough to be imaged in its entirety using high-resolution cryo-electron microscopy.

The paper is entitled “Cryo-electron microscopy of the f1 filamentous phage reveals insights into viral infection and assembly”, published in the journal Nature Communications. The work was funded by Wellcome.

JOURNAL

Nature Communications

DOI

10.1038/s41467-023-37915-w

METHOD OF RESEARCH

Imaging analysis

SUBJECT OF RESEARCH

Cells

ARTICLE TITLE

Cryo-electron microscopy of the f1 filamentous phage reveals insights into viral infection and assembly

SEE

LA REVUE GAUCHE - Left Comment: Search results for PHAGE

First-in-human trial of oral drug to remove radioactive contamination begins

NIH-funded clinical trial will determine safety, tolerability of experimental drug

Business Announcement

NIH/NATIONAL INSTITUTE OF ALLERGY AND INFECTIOUS DISEASES

International ionizing radiation warning symbol — IMAGE: INTERNATIONAL IONIZING RADIATION WARNING SYMBOL view more
CREDIT: NONE

WHAT:
A first-in-human clinical trial of an experimental oral drug for removing radioactive contaminants from inside the body has begun. The trial is testing the safety, tolerability and processing in the body of escalating doses of the investigational drug product HOPO 14-1 in healthy adults. The National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, is funding the Phase 1 trial, which is sponsored and conducted by SRI International of Menlo Park, California.

Internal radioactive contamination occurs when radioactive elements are absorbed through wounded skin, inhaled or ingested. This could happen as the result of a nuclear power plant accident or the detonation of a “dirty bomb” or nuclear weapon. As the atoms of radioactive elements decay, they emit ionizing radiation, which can damage DNA, tissues and organs. One method for reducing the risk of this damage is to remove the radioactive elements from the body as soon as possible after contamination occurs.

The Food and Drug Administration has approved two products for removing internal radioactive contamination. These drugs, both based on diethylenetriamine pentaacetate (DTPA), are administered intravenously by a healthcare provider and can remove three radioactive elements: plutonium, americium, and curium.

In contrast, HOPO 14-1 has been formulated as an oral capsule, which would be easier than an intravenous drug to stockpile and to deploy and administer during an emergency. Preclinical research has shown that HOPO 14-1 can effectively remove many radioactive contaminants, including uranium and neptunium in addition to plutonium, americium and curium. These studies also have found that HOPO 14-1 is up to 100 times more effective than DTPA at binding and removing these radioactive elements.

NIAID has funded the discovery and development of HOPO 14-1 since 2006. The active pharmaceutical ingredient in the drug is called 3,4,3-LI(1,2-HOPO).

The clinical trial is taking place at a site in Plymouth, Michigan, under the leadership of Sascha N. Goonewardena, M.D., a physician investigator at SRI’s Clinical Trials Unit and an assistant professor of medicine at the University of Michigan Medical School in Ann Arbor. The study team will enroll 42 healthy participants ages 18 to 65 years in seven groups of six. Each participant in the first group will receive a 100-milligram (mg) dose of HOPO 14-1. The subsequent groups will receive increasingly higher doses of the study drug up to 7500 mg in the final group, if lower doses are deemed safe. Participants will undergo intensive safety monitoring and will be followed for 14 days to measure the absorption, distribution and elimination of the study drug. Results are expected in 2024.

Additional information about the trial is available in ClinicalTrials.gov under study identifier NCT05628961.

WHO:
Andrea DiCarlo-Cohen, Ph.D., director of the Radiation and Nuclear Countermeasures Program in the NIAID Division of Allergy, Immunology and Transplantation, is available to respond to media inquiries about the trial.

CONTACT:
To schedule interviews, please contact Laura Leifman, (301) 402-1663, NIAIDNews@niaid.nih.gov.

NIAID conducts and supports research—at NIH, throughout the United States, and worldwide—to study the causes of infectious and immune-mediated diseases, and to develop better means of preventing, diagnosing and treating these illnesses. News releases, fact sheets and other NIAID-related materials are available on the NIAID website.

About the National Institutes of Health (NIH): NIH, the nation's medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit http://www.nih.gov/.

NIH...Turning Discovery Into Health®

Crushed clams, roaming rays: acoustic tags reveal predator interactions

Longitudinal study uses acoustic telemetry to monitor rays in clam leases along Florida’s Atlantic coast

Peer-Reviewed Publication

FLORIDA ATLANTIC UNIVERSITY

Acoustic Tags Reveal Predator Interactions — IMAGE: RESEARCHERS SHOWN WITH A WHITESPOTTED EAGLE RAY (AETOBATUS NARINARI), A HIGHLY MOBILE ANIMAL WITH A MIGHTY JAW AND PLATE-LIKE TEETH. view more
CREDIT: FLORIDA ATLANTIC UNIVERSITY/HARBOR BRANCH OCEANOGRAPHIC INSTITUTE

Clam leases are designated underwater locations used to produce hard clams of all sizes from littlenecks to chowders. Clam production or aquaculture can be a risky business due in part to unwanted marine intruders. Among them, stealthy and highly mobile rays.

The Indian River Lagoon is one key location used for hard clam (Mercenaria mercenaria) aquaculture operations along Florida’s Atlantic coast. Clam fishermen have anecdotally reported seeing rays in clam leases and suspect that their interactions could result in damaged aquaculture gear and crushed clams. After all, some species of rays are equipped with mighty jaws and plate-like teeth that make them highly capable culprits.

Inspired by clammer reports, researchers from Florida Atlantic University’s Harbor Branch Oceanographic Institute and collaborators, used passive acoustic telemetry to gauge the interactions between two highly mobile animals, whitespotted eagle rays (Aetobatus narinari) and cownose rays (Rhinoptera spp.) in two clam lease sites and four other sites in Sebastian, including the Sebastian Inlet and the Saint Sebastian River mouth. Since visual observations can be challenging and unpredictable, this technology enabled researchers to monitor the tagged rays in the wild over two years.

“We wanted to understand how often and when rays visited these clam leases, how long they stayed there, and if it was seasonal or year-round,” said Matt Ajemian, Ph.D., senior author, an associate research professor and director of the Fisheries Ecology and Conservation Lab at FAU Harbor Branch. “We tagged them, set them on their way and logged 17,014 unique visits to the leases derived from 38 different rays.”

Findings from the study, published in PLOS ONE, provide both good news and bad news for clammers. Rays spent even more time in these clam lease sites than clammers reported or suspected, but it’s not necessarily where they prefer hanging out. For example, whitespotted eagle rays spent only 6.2 percent of their time near clam lease locations and cownose rays 13.2 percent.

Predicting when and for how long rays visit the clam leases also was complicated as it depended on the species, time of day, season, and even certain environmental conditions. Despite less frequent use when compared to other reference receiver locations, both species of rays exhibited longer visits at clam lease sites than some locations considered and were periodically observed within the clam lease regions for extended periods of time. The longest continuous duration spent at the northern and southern clam leases were 387.5 and 207.1 minutes, respectively. This shows that rays can remain within these areas for hours at a time, which increases the likelihood in which they are interacting with, and potentially foraging upon, the clam leases.

“Since 84 percent of all visits were from whitespotted eagle rays and their visits were significantly longer at night, this information suggests that observed interactions with the clam leases are potentially underestimated, given most clamming operations occur during daytime,” said Brianna Cahill, corresponding author, an FAU Harbor Branch marine science and oceanography graduate, and a research technician at Stony Brook University. “Results from our study justify the need to continue monitoring mobile predators in the region, including more studies to assess their behaviors such as foraging at the clam lease sites.”

Cownose rays and whitespotted eagle rays have different migratory patterns, but in both cases their tendency to be mobile may limit their impacts on clammers.

“Additional good news for clammers is that rays did not use the clam lease sites year-round, and their visits varied seasonally, with substantially fewer detections and visits during the summer months,” said Ajemian. “This suggests that clammers need only deploy anti-predator protections against rays, if needed, for a portion of the year.”

Findings from the study also highlight the need to understand if clam leases are situated within rays’ natural foraging habitats and if rays are actively interacting with the clam leases or if they may be attracted to other organisms nearby.

“It’s possible that rays may be feeding on other organisms that are attracted to the clams in the clam lease sites, as bivalve aquaculture farms have been known to change community structure and attract a wide variety of predatory snails, that may be an alternative attractant for cownose and whitespotted eagle rays given their diets,” said Cahill.

Study co-authors represent the University of Massachusetts Dartmouth; Bonefish and Tarpon Trust; Smithsonian Environmental Research Center; and Dalhousie University in Canada.

- FAU -

About Harbor Branch Oceanographic Institute:
Founded in 1971, Harbor Branch Oceanographic Institute at Florida Atlantic University is a research community of marine scientists, engineers, educators and other professionals focused on Ocean Science for a Better World. The institute drives innovation in ocean engineering, at-sea operations, drug discovery and biotechnology from the oceans, coastal ecology and conservation, marine mammal research and conservation, aquaculture, ocean observing systems and marine education. For more information, visit www.fau.edu/hboi.

About Florida Atlantic University:
Florida Atlantic University, established in 1961, officially opened its doors in 1964 as the fifth public university in Florida. Today, the University serves more than 30,000 undergraduate and graduate students across six campuses located along the southeast Florida coast. In recent years, the University has doubled its research expenditures and outpaced its peers in student achievement rates. Through the coexistence of access and excellence, FAU embodies an innovative model where traditional achievement gaps vanish. FAU is designated a Hispanic-serving institution, ranked as a top public university by U.S. News & World Report and a High Research Activity institution by the Carnegie Foundation for the Advancement of Teaching. For more information, visit www.fau.edu.

JOURNAL

PLoS ONE

DOI

10.1371/journal.pone.0285390

METHOD OF RESEARCH

Observational study

SUBJECT OF RESEARCH

Animals

ARTICLE TITLE

Visitation patterns of two ray mesopredators at shellfish aquaculture leases in the Indian River Lagoon, Florida

What is meat? (video)

AMERICAN CHEMICAL SOCIETY

WASHINGTON, May 15, 2023 — Beyond “burgers.” Impossible “meat.” A huge meatball (supposedly) made from wooly mammoth DNA. Chemistry is changing how we think about meat, and as technology advances, things are only going to get more confusing … https://youtu.be/0PdLHZVQYQs

Reactions is a video series produced by the American Chemical Society and PBS Digital Studios. Subscribe to Reactions at http://bit.ly/ACSReactions and follow us on Twitter @ACSReactions.

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.

Most species, including humans, who experience early life adversity suffer as adults. How are gorillas different?

Peer-Reviewed Publication

UNIVERSITY OF MICHIGAN

Images

There's something most species—from baboons to humans to horses—have in common: When they suffer serious adversity early in life, they're more likely to experience hardship later on in life.

When researchers from the Dian Fossey Gorilla Fund and the University of Michigan decided to look at this question in gorillas, they weren't sure what they would find.

Previous studies by the Fossey Fund revealed that young gorillas are surprisingly resilient to losing their mothers, in contrast to what has been found in many other species. But losing your mother is only one of many potential bad things that can happen to young animals.

"Assuming that you survive something that we consider early life adversity, it's often still the case that you will be less healthy or you will have fewer kids or your lifespan will be shorter—no matter what species you are," said U-M anthropologist Stacy Rosenbaum, senior author on the study. "There's this whole range of things that happens to you that seems to just make your life worse in adulthood."

But instead, the researchers found that gorillas who survived past age 6 were largely unaffected by difficulties they encountered as infants or juveniles. The study is published in the journal Current Biology.

Like other species, humans also deal with early life adversity, and the effects of this can follow us into adulthood, such as a shorter lifespan or health complications, Rosenbaum said. But in humans, it's difficult to tease out whether we, for example, develop cancer or die early as adults because of an adverse event early in life per se, or whether it's because of a multitude of behavioral, environmental and cultural factors—or a combination of all of the above.

Studying these early adverse events in nonhuman species could help researchers understand how such events affect humans, and how to mitigate them.

"When you look at animals, you remove a lot of the variation that we have in humans. For example, they are all eating similar diets, they all get exercise as part of their daily lives, they don't have the opportunity to engage in behaviors with negative health outcomes like smoking," said Robin Morrison, a researcher with the Dian Fossey Gorilla Fund and lead author on the study.

But despite this, in most species it is still the case that early adversity can have negative effects in adulthood, which suggests that there is some kind of deeper biological mechanism there that we don't understand very well, Morrison said. That gorillas show a different pattern suggests these early life adversities can be overcome. Understanding why and how this happens can have significant implications for our own species, she said.

Like humans, gorillas live a long time and have a small number of offspring that they heavily invest in. This makes them a good comparative animal model for understanding the ramifications of early life adverse events. The researchers looked at 55 years of long-term data collected in 253 wild mountain gorillas, 135 of which were male and 118 female. These gorillas live in Volcanoes National Park in Rwanda, and have been monitored for more than five decades by the Dian Fossey Gorilla Fund.

The researchers identified six different kinds of early life adversity: losing a father or mother, experiencing the death of a group member by infanticide, social group instability, having few age-mates in the social group, and having a competing sibling who was born soon after them. The data included information about how many of these early adversities each gorilla experienced and at what age, as well as how long each gorilla lived.

The researchers looked at what happened when a gorilla experienced none, one, two or three or more adverse events. They found that the more of these adverse events gorillas experienced before age 6, the more likely they were to die as juveniles. But if, despite experiencing early adversity, they survived until age 6—past their juvenile stage—the researchers found no evidence that their lifespans were shorter, no matter how many adverse events the gorillas suffered.

In fact, if a gorilla experienced three or more forms of adversity, it actually lived longer; this group of animals had a 70% reduction in the risk of death across adulthood. But this was driven by greater longevity in males specifically, and the researchers suspect the trend was due to something called viability selection. This means that if a gorilla was strong enough to survive difficult early life events, it might just be a "higher-quality individual," and thus more likely to have a longer life span.

"I was expecting to see that these gorillas would have short lifespans and would not do very well as adults," Rosenbaum said. "We found that these events are definitely associated with a much higher risk of death when you're young. But if you survive to age 6, there's no evidence that those shorten your lifespan at all. This is quite different from what we see in other species."

The researchers have some theories about why these mountain gorillas were so resilient. Gorillas have very tight-knit social groups and prior studies have shown that when a young gorilla loses its mom, it doesn't actually become more isolated: other gorillas fill the gap in social companionship.

"The youngster actually increases its time near other gorillas after the loss of its mom and in particular the highest-ranking adult male, even if he isn't their biological father," Morrison said. "These strong networks might provide critical social buffering, as has been shown in humans. The quality of our social relationships is a very important predictor of our health and longevity—in some cases, more important than genetics or lifestyle."

Another reason they may be relatively buffered from the consequences of adversity is that mountain gorillas live in a resource-rich environment compared to many other wild primates. It may be easier for a gorilla to survive difficult circumstances if they are not also constantly dealing with the stress of finding enough food and water, Rosenbaum said.

"For comparison, savanna baboons—who were the inspiration for this analysis—live in this highly seasonal environment where they go through extreme droughts. They sometimes will have to walk miles to get to a water hole. They're often struggling for every single calorie they take in," she said. "That's not the world that mountain gorillas live in. They're often described as living in a giant salad bowl."

The researchers' findings suggest that species similar to our own can have significant resilience to early life adversity. The results also raise important questions about the biological roots of sensitivity to early experiences, and the protective mechanisms that contribute to resilience in gorillas.

"I don't think we should assume that the long-term negative effects of early life adversity are universal," Rosenbaum said. "We tend to talk about this as if it's a ubiquitous experience, and a given that your adulthood is going to be compromised if you live through early adversity.

"But I don't think it's nearly that cut-and-dry, even in the human literature. I think the data are a lot more complex for humans and this research would suggest that they might be more complex for other animals, too. And I actually think that that's a hopeful story."

Study: Cumulative early life adversity does not predict reduced adult longevity in wild gorillas

About the Dian Fossey Gorilla Fund

Founded in 1967, the Dian Fossey Gorilla Fund is the world's longest-running and largest organization dedicated entirely to gorilla conservation. The Fossey Fund has over 300 staff in Rwanda and eastern DR Congo, protecting vulnerable gorilla populations and some of the world's richest biodiversity. The organization's integrated approach to conservation involves supporting the livelihoods and food security of local communities and building capacity of African conservationists.

JOURNAL

Current Biology

Postsecondary university education improves intelligence of adult students with intellectual disability

IQ exceeded the cutoff point of the ID definition among five of the adults tested

Peer-Reviewed Publication

BAR-ILAN UNIVERSITY

IQ exceeded the cutoff point of the ID definition among five of the adults tested — IMAGE: POST-SECONDARY EDUCATION (PSE) HAS A POTENTIAL FOR IMPROVING THE IQ OF ADULTS WITH MILD INTELLECTUAL DISABILITY (ID), ACCORDING TO A NEW BAR-ILAN UNIVERSITY STUDY. THE STUDY EXAMINED THE IMPACT OF PSE ON STUDENTS WITH MILD ID WHO STUDY IN A UNIVERSITY-BASED PROGRAM, KNOWN AS THE EMPOWERMENT PROJECT, AT THE BAR-ILAN UNIVERSITY FACULTY OF EDUCATION. THE STUDY SAMPLE INCLUDED 24 PARTICIPANTS, DIVIDED INTO 12 STUDENTS WITH ID WHO PARTICIPATE IN THE EMPOWERMENT PROJECT AND 12 ADULTS WITH ID WITH THE SAME BACKGROUND, WHO DID NOT PARTICIPATE. THE RESULTS WERE PUBLISHED IN THE EUROPEAN JOURNAL OF SPECIAL NEEDS EDUCATION. THE FINDINGS REVEALED SIGNIFICANT IQ IMPROVEMENT AMONG THE 12 ADULTS AFTER FOUR-AND-A-HALF YEARS OF PARTICIPATION IN PSE COMPARED TO THOSE WITH THE SAME INTELLIGENCE LEVEL AND LIFESTYLE WHO DID NOT PARTICIPATE IN PSE. THEIR IQ REMAINED STABLE. PHOTO: GRAPH ILLUSTRATING INCREASE IN GENERAL IQ AMONG ADULT STUDENTS WITH ID PARTICIPATING IN BAR-ILAN UNIVERSITY'S EMPOWERMENT PROJECT view more
CREDIT: PROF. HEFZIBA LIFSHITZ, BAR-ILAN UNIVERSITY

Post-secondary education (PSE) has a potential for improving the IQ of adults with mild intellectual disability (ID), according to a new Bar-Ilan University study.

The study examined the impact of PSE on students with mild ID who study in a university-based program, known as the Empowerment Project, at the Bar-Ilan University Faculty of Education.

The study sample included 24 participants, divided into 12 students with ID who participate in the Empowerment Project and 12 adults with ID with the same background, who did not participate. The results were published in the European Journal of Special Needs Education.

The findings revealed significant IQ improvement among the 12 adults after four-and-a-half years of participation in PSE compared to those with the same intelligence level and lifestyle who did not participate in PSE. Their IQ remained stable.

The Empowerment Project, a first-of its-kind program established by Prof. Hefziba Lifshitz, is based on her Compensation Age Theory, which postulates that chronological age, as opposed to mental age, plays an important role in determining the cognitive ability of adults with intellectual disability. Lifshitz and colleagues at Bar-Ilan University have determined that intelligence in ID individuals reaches its peak at around 40-45 years old, providing a window of opportunity for additional, meaningful education and enabling ID adults to develop and maximize their potential later in life.

The Empowerment Project serves 120 adults with all levels of intellectual disability: mild-moderate as well as severe-profound, providing college-level courses adapted to their needs. The most academically capable students in the program can earn a bachelor’s degree. All 12 students participating in this study began their studies in the 2014-2015 academic year.

The Weschler Adult Intelligence Test was administered during the third year of study. A second test was administered four-and-a-half years later. "We know that our project contributes to the improvement of cognitive ability, but I was curious to examine whether it would influence their intelligence," says Prof. Lifshitz. "Among those students studying for a BA, IQ recorded the second time exceeded the cutoff point of the ID definition, which is between 70-75. They reached 80, and some higher. This is an amazing development." Though some more and some less, IQ increased in all of the PSE participants, according to Lifshitz, who conducted the study with Dr. Shoshana Nissim, Dr. Chaya Aminadav, and Prof. Eli Vakil from Bar-Ilan University.

The Empowerment Project is the first in the world to open adapted enrichment college for students with severe-profound ID who require extensive support. Due to physical handicap they cannot attend university in person, so the Project offers courses on-site in their day care centers.

Next month, six of the 120 will become the first group of adults with ID in Israel to fulfill all the academic requirements for a bachelor's degree. It is believed that only three additional ID individuals in the world have received the same degree to date.

Prof. Lifshitz says that in addition to their IQ improvement, their self-esteem is also much higher. This can be seen in how they carry themselves and in their body language. And on the university campus they feel like insiders rather than outsiders.

JOURNAL

European Journal of Special Needs Education

DOI

10.1080/08856257.2023.2177944

ARTICLE TITLE

Postsecondary University Education Improves Intelligence of Adult Students with Intellectual Disability: A Preliminary Study

High inflation creates stress in lower socioeconomic groups exacerbating health inequities

Peer-Reviewed Publication

YORK UNIVERSITY

Cary Wu — IMAGE: YORK UNIVERSITY ASSISTANT PROFESSOR CARY WU view more
CREDIT: YORK UNIVERSITY

TORONTO, May 15, 2023 – High inflation rates are stressing certain sociodemographic groups more than others, exacerbating inequalities in health in the United States, found a new study led by a York University researcher.

Stress is known to have detrimental effects on health and high inflation has become a significant source of stress. Of the 93 per cent of respondents who reported an increase in prices for goods and services in their area, 47 per cent of them said the rise in prices was very stressful, 28 per cent felt moderately stressed, while 19 per cent reported feeling a little stress. Less than six per cent said increased prices were not stressful to them.

Inflation stress, however, affects various segments of the population differently.

“Inflation does not affect everyone equally and can have a greater impact on people depending on their gender, race, age, marital status, education and income,” says lead author York University Assistant Professor Cary Wu of the Faculty of Liberal Arts and Professional Studies.

Although the study looked at the effects of high inflation in the U.S., research on Canadians by Wu has found similar patterns.

To measure high inflation stress, the researchers analyzed data from the U.S. Household Pulse Survey. Of the 369,328 respondents, 62 per cent were white, 11 per cent were Black, five per cent were Asian and 17 per cent were Hispanic, while 51 per cent were women and 31 per cent had post-secondary education.

The study found inflation is a significant source of stress for women, much more so than men, as well as those who are socioeconomically more vulnerable. Black and Hispanic people reporter higher inflation stress than white people, while Asians reporter lower inflation stress.

Education and income also play a role with higher levels of both being associated with lower inflation stress. Some 66 per cent of those who reported less than $25,000 in household income felt stressed, while only 17 per cent of those with a household income more than $200,000 reported feeling stress about high inflation.

After adjusting socioeconomic status, the difference in stress disappeared between Blacks and whites, but Asians showed slightly higher inflation stress.

Previously married individuals who are now widowed, divorced or separated had higher levels of inflation stress than married couples. It was also found to be higher for middle-aged groups compared to those older and younger.

"There is a need for more research and better policies to help protect against the health disparities caused by high inflation stress that affects certain segments of the population more than others," says Wu.

The study, Assessment of sociodemographics and inflation-related stress in the US, was published today in the American Medical Association’s open access journal JAMA Network Open.

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York University is a modern, multi-campus, urban university located in Toronto, Ontario. Backed by a diverse group of students, faculty, staff, alumni and partners, we bring a uniquely global perspective to help solve societal challenges, drive positive change and prepare our students for success. York's fully bilingual Glendon Campus is home to Southern Ontario's Centre of Excellence for French Language and Bilingual Postsecondary Education. York’s campuses in Costa Rica and India offer students exceptional transnational learning opportunities and innovative programs. Together, we can make things right for our communities, our planet, and our future.

Media Contact:

Sandra McLean, York University Media Relations, 416-272-6317, sandramc@yorku.ca

JOURNAL

JAMA Network Open

DOI

10.1001/jamanetworkopen.2023.13431

ARTICLE PUBLICATION DATE

15-May-2023

Assessment of sociodemographics and inflation-related stress

JAMA Network Open

Peer-Reviewed Publication

JAMA NETWORK

About The Study: This analysis of U.S. Census Bureau survey data found that rising inflation has become a significant source of stress, especially among women and those who were socioeconomically more vulnerable.

Authors: Cary Wu, Ph.D., of York University in Toronto, is the corresponding author.

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

(doi:10.1001/jamanetworkopen.2023.13431)

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

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

JOURNAL

JAMA Network Open