Saturday, June 01, 2024

 

Wealthier neighborhoods in Boulder saw lower bee diversity



UNIVERSITY OF COLORADO AT BOULDER
Asia Kaiser checked on the jalapeño pepper plants the team grew in the community gardens in Boulder County. 

IMAGE: 

ASIA KAISER CHECKED ON THE JALAPEÑO PEPPER PLANTS THE TEAM GREW IN THE COMMUNITY GARDENS IN BOULDER COUNTY.

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CREDIT: JOHN RUSSELL/CU BOULDER





Community gardens in higher-income Boulder neighborhoods have fewer varieties of bees than their medium-income counterparts, new University of Colorado Boulder research suggests. Scientists suggest that people in these neighborhoods tend to apply more landscaping practices, such as using fertilizers, which could impact bees’ habitats.

The finding appeared May 22 in the journal Urban Ecosystems

“Bees are so important for local ecosystems through their pollination services. The landscape would not look the same without our pollinators,” said Asia Kaiser, a doctoral student in the Department of Ecology and Evolutionary Biology at CU Boulder. 

The result came as a surprise to Kaiser and Julian Resasco, assistant professor in the Department of Ecology and Evolutionary Biology and the paper’s senior author, because it contradicted previous studies. 

Prior research showed that wealthier urban neighborhoods tend to have more trees and green space. As a result, a greater diversity of animal species tends to live in these areas, a pattern called the luxury effect. 

Ecologists Kaiser and Resasco wanted to explore how insects in urban gardens respond to the neighborhoods that surround them. Specifically, they are interested in how the urban environment could affect insects like bees that pollinate garden crops. 

Last spring, the team planted about 70 jalapeño pepper plants in seven large community gardens across Boulder and Louisville. Using traps, the team collected more than 3,000 insects and other arthropods such as spiders from the gardens. 

The researchers found that neighborhoods with more artificial structures—pavement, roads and rooftops that prevent water from soaking into the ground—had lower numbers of pollinators. At the same time, wealthier neighborhoods had fewer species of bees.

Landscaping practices and the type of plants that are more common in wealthier neighborhoods may contribute to lower bee biodiversity, Kaiser said. These communities tend to have more mature trees, which are different from plants found in native bees’ habitats. People living in these neighborhoods may also use more pesticides, fertilizers, water and mulch to support these plants, creating worse soil conditions for bees to nest in. 

“Most of the bees found in these gardens, such as long-horn bees and squash bees, nest in the ground, so they are sensitive to changes in the soil,” Kaiser said. 

In addition, the jalapeño pepper fruits grew larger in gardens with higher bee diversity, suggesting the important role that pollinators play in ecosystems.

Other arthropods—including pests like beetles and pest-eating predators like spiders—thrived in wealthier neighborhoods, the team found. It remains unclear why these critters were doing well, but Kaiser suspected they might be benefiting from the abundant food sources in the urban gardens. 

 the urban gardens may be providing sufficient food for them. 

“It’s interesting that different animal groups are being impacted by different features of the urban environment,” Kaiser said. 

She added that Colorado residents can plant more native plants and provide natural cover such as bare soil and downed wood for insects to nest in to promote bee diversity. 

Next, the team plans to expand the experiments to community gardens in Denver. This will allow them to evaluate pollinator diversity in neighborhoods with a wider range of urbanization and socioeconomic status, including lower-income areas. 

“Urban community gardens can be really important sources of nutrition in cities where nutritious food is often hard to come by,” Resasco said. “Understanding how different aspects of urbanization affect arthropod biodiversity and how that in turn affects the yield of these crops is very important.”

 

A greener, more effective way to kill termites


Natural compound is appetizing to wood eaters



UNIVERSITY OF CALIFORNIA - RIVERSIDE

Termites 

IMAGE: 

WESTERN DRYWOOD TERMITES. 

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CREDIT: DONG-HWAN CHOE/UCR




UC Riverside scientists have discovered a highly effective, nontoxic, and less expensive way to lure hungry termites to their doom.

The method, detailed in the Journal of Economic Entomology, uses a pleasant-smelling chemical released by forest trees called pinene that reminds western drywood termites of their food. They follow the scent to a spot of insecticide injected into wood.  

“We saw significant differences in the death rates using insecticide alone versus the insecticide plus pinene,” said UCR entomologist Dong-Hwan Choe, who led the discovery. “Without pinene, we got about 70% mortality. When we added it in, it was over 95%.

Native to North America, western drywood termites are environmentally important. They are drawn to dead wood above ground, and consume it with the help of microorganisms in their guts. “They are recyclers,” Choe said. “And they’re very common.”

Unfortunately for humans, the insects are unable to distinguish between dead trees and the wood used to build homes. Of particular concern in California and Florida, as well as parts of Canada and Mexico, no dwelling is immune to them. “It’s only a matter of time before termites attack a house, especially in warmer parts of the states,” Choe said.

Fumigation is one of the most common drywood termite control techniques. Homes are covered with tents and then bombed with gas that kills the insects. In the U.S., California uses this method more than any other state.

The pest control industry is under pressure to find new methods because the chemical, sulfuryl fluoride, is both a greenhouse gas and is also toxic to humans. Additionally, fumigation is an expensive process that does not provide lasting protection against termites. 

“Even though it is very thorough, a home can be infested again soon after fumigation is completed,” Choe said. “Some people fumigate every three to five years because it doesn’t protect structures from future infestations.”

Localized injection is an alternative strategy to control drywood termites that does not involve gas. Technicians drill holes into the infested wood to reach the termite “gallery” or lair, then inject poison into the hole to inundate the bugs. 

“This is a more localized treatment, and in theory, it is a better strategy when you want to control drywood termites with fewer chemicals. It’s less expensive, and the treated wood may also stay protected from future infestations,” Choe said. 

The challenge with localized injection is figuring out exactly where the bugs are hiding. Typically, this method uses a contact-based insecticide, meaning the insects must touch the poison for it to work.

Using an attractant like pinene eliminates the need to hunt for the termites. “Even at low concentrations, pinene is good at attracting termites from a distance,” Choe said. 

“We don’t think it’s functioning as a pheromone,” Choe said. “We think the scent is more associated with their food. Smells nice… dinner time! That’s the concept that we had in mind.”

The insecticide they used, fipronil, is also used to control ant infestations. It can be toxic to aquatic insects and pollinators if it gets into the environment. In this case it is injected into the wood, so chances of off-target effects are low. 

Choe’s laboratory generally studies the chemical communication systems of urban insect pests to develop strategies like this one for western drywood termites. 

“Our study shows that if you understand insect behavior better, it’s interesting by itself,” Choe said. “Then there are also important implications for more effective pest management, so we can use fewer chemicals without compromising efficiency.” 

Western drywood termites are attracted to pinene, a chemical found released by forest trees. 

CREDIT

Dong-Hwan Choe/UCR

 

An unlikely hero in evolution: worms



JOHNS HOPKINS UNIVERSITY





One of Earth’s most consequential bursts of biodiversity—a 30-million-year period of explosive evolutionary changes spawning innumerable new species—may have the most modest of creatures to thank for the vital stage in life’s history: worms. 

The digging and burrowing of prehistoric worms and other invertebrates along ocean bottoms sparked a chain of events that released oxygen into the ocean and atmosphere and helped kick-start what is known as the Great Ordovician Biodiversification Event, roughly 480 million years ago, according to new findings Johns Hopkins University researchers published in the journal Geochimica et Cosmochimica Acta.

“It’s really incredible to think how such small animals, ones that don’t even exist today, could alter the course of evolutionary history in such a profound way,” said senior author Maya Gomes, an assistant professor in the Department of Earth and Planetary Sciences. “With this work, we’ll be able to examine the chemistry of early oceans and reinterpret parts of the geological record.”

To better understand how changes in oxygen levels influenced large-scale evolutionary events, Gomes and her research team updated models that detail the timing and pace of increasing oxygen over hundreds of millions of years. 

They examined the relationship between the mixing of sediment caused, in part, by digging worms with a mineral called pyrite, which plays a key role in oxygen buildup. The more pyrite that forms and becomes buried under the mud, silt, or sand, the more oxygen levels rise. 

Researchers measured pyrite from nine sites along a Maryland shoreline of the Chesapeake Bay that serves as a proxy for early ocean conditions. Sites with even just a few centimeters of sediment mixing held substantially more pyrite than those without mixing and those with deep mixing.

The findings challenge previous assumptions that the relationship between pyrite and sediment mixing remained the same across habitats and through time, Gomes said. 

Conventional wisdom held that as animals churned up sediments by burrowing in the ocean floor, newly unearthed pyrite would have been exposed to and destroyed by oxygen in the water, a process that would ultimately prevent oxygen from accumulating in the atmosphere and ocean. Mixed sediments have been viewed as evidence that oxygen levels were holding steady. 

The new data suggests that a small amount of sediment mixing in water with very low levels of oxygen would have exposed buried pyrite, sulfur, and organic carbon to just enough oxygen to kick-start the formation of more pyrite.

“It’s kind of like Goldilocks. The conditions have to be just right. You have to have a little bit of mixing to bring the oxygen into the sediment, but not so much that the oxygen destroys all the pyrite and there’s no net buildup,” said Kalev Hantsoo, a doctoral candidate at Johns Hopkins and first author on the article. 

When the researchers applied this new relationship between pyrite and the depth of sediment mixing to existing models, they found oxygen levels stayed relatively flat for millions of years and then rose during the Paleozoic era, with a steep rise occurring during the Ordovician period.

The extra oxygen likely contributed to the Great Ordovician Biodiversification Event, when new species rapidly flourished, the researchers said. 

“There’s always been this question of how oxygen levels relate to the moments in history where evolutionary forces are ramped up and you see a greater diversity of life on the planet,” Gomes said. “The Cambrian period also had a massive speciation event, but the new models allow us to rule out oxygen and focus on other things that may have driven evolution during that time.”

 

Syracuse University biologist calls for protection and more studies of natural time capsules of climate change



Ancient rodent nests—or middens—offer critical ecological and evolutionary archives of the last 50,000 years



SYRACUSE UNIVERSITY

Neotoma rodents (woodrats) in a nest 

IMAGE: 

NEOTOMA RODENTS (WOODRATS) IN A NEST, ALSO KNOWN AS A MIDDEN, AT CITY OF ROCKS NATIONAL RESERVE IN IDAHO. PICTURED ARE BOTH A MODERN AND ANCIENT MIDDEN.

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CREDIT: SYRACUSE UNIVERSITY






Packrats, also known as woodrats, are the original hoarders, collecting materials from their environment to make their nests, called middens. In deserts throughout western North America, for instance, packrat middens can preserve plants, insects, bones and other specimens for more than 50,000 years, offering scientists a snapshot into the past. Packrats and numerous other rodent species in dry environments around the world gather plants, insects, bones and other items into their nests from a radius of about 50 feet and urinate over them. The urine dries and crystallizes, hardening the fossils into rock-like masses and preserving the items inside.

Ancient rodent middens have allowed scientists to reconstruct the ecology and climate of semi-arid ecosystems in the Americas, Australia, Africa and the Arabian Peninsula. These natural time capsules are unparalleled archives for observing how plant, animal and microbial species and assemblages have responded over millennia as environmental conditions have changed. Researchers have learned how populations of plants and animals were impacted by climate change in the past, which can provide clues about how populations might respond to future rapid climate disruption.

Today, with advanced molecular technology, scientists can learn more than ever about the ancient organisms that once inhabited the area in and around these middens.

Now, scientists are calling for improved preservation of middens, new research in existing archives and a revival of field studies, according to a prospectus paper recently published online in Trends in Ecology & Evolution. The paper is the result of a multi-year effort involving collaborators from 10 different institutions in the United States, France and Chile, according to Katie Becklin, lead author and assistant professor of biology in Syracuse University’s College of Arts and Sciences.

“New technology in DNA and chemical analysis also allows us to get more information from smaller and smaller amounts of materials,” says Becklin. “We can start to understand what traits are important for predicting which species could do well in the future as climate change continues to impact natural systems.”

But most midden collections are stored at individual institutions where they could be lost or discarded as researchers retire. Midden fossils in the wild meanwhile are vulnerable to destruction by human development and ongoing climate change.

The authors recommend establishing regional depositories for midden materials, which could provide long-term access for researchers. Additional middens must be collected and preserved to stem accelerating losses from land-use conversion, mineral resource extraction, increased wildfire frequency and climate change.

“This is an invitation to the next generation of scientists to take advantage of these resources, to build on the legacy of midden research so far,” says Becklin. “We need to protect these records and make them accessible to the global scientific community and bring in new ideas and people to continue this work.”

Researcher Francisca Diaz, a co-author on the study, sampling middens in the Atacama Desert in South America.


Syracuse biology professor Katie Becklin, lead author of the study.

CREDIT

Syracuse University

 

Misleading COVID-19 headlines from mainstream sources did more harm on Facebook than fake news



New MIT Sloan research shows that unflagged but misleading content on Facebook was less persuasive, but much more widely seen, and thus generated more COVID-19 vaccine skepticism than flagged misinformation.




MIT SLOAN SCHOOL OF MANAGEMENT



CAMBRIDGE, Mass., May 30, 2024 – Since the rollout of the COVID-19 vaccine in 2021, fake news on social media has been widely blamed for low vaccine uptake in the United States — but research by MIT Sloan School of Management PhD candidate Jennifer Allen and Professor David Rand finds that the blame lies elsewhere. 

In a new paper published in Science and co-authored by Duncan J. Watts of the University of Pennsylvania, the researchers introduce a new methodology for measuring social media content’s causal impact at scale. They show that misleading content from mainstream news sources — rather than outright misinformation or “fake news” — was the primary driver of vaccine hesitancy on Facebook. 

A new approach to estimating impact

“Misinformation has been correlated with many societal challenges, but there’s not a lot of research showing that exposure to misinformation actually causes harm,” explained Allen. 

During the COVID-19 pandemic, for example, the spread of misinformation related to the virus and vaccine received significant public attention. However, existing research has, for the most part, only established correlations between vaccine refusal and factors such as sharing misinformation online — and largely overlooked the role of “vaccine-skeptical” content, which was potentially misleading but not flagged as misinformation by Facebook fact-checkers. 

To address that gap, the researchers first asked a key question: What would be necessary for misinformation or any other type of content to have far-reaching impacts? 

“To change behavior at scale, content has to not only be persuasive enough to convince people not to get the vaccine, but also widely seen,” Allen said. “Potential harm results from the combination of persuasion and exposure.”

To quantify content’s persuasive ability, the researchers conducted randomized experiments in which they showed thousands of survey participants the headlines from 130 vaccine-related stories — including both mainstream content and known misinformation — and tested how those headlines impacted their intentions to get vaccinated against COVID-19. Researchers also asked a separate group of respondents to rate the headlines across various attributes, including plausibility and political leaning. One factor reliably predicted impacts on vaccination intentions: the extent to which a headline suggested that the vaccine was harmful to a person’s health. 

Using the “wisdom of crowds” and natural language processing AI tools, Allen and her co-authors extrapolated those survey results to predict the persuasive power of all 13,206 vaccine-related URLs that were widely viewed on Facebook in the first three months of the vaccine rollout. By combining these predictions with data from Facebook showing the number of users who viewed each URL, the researchers could predict each headline’s overall impact — the number of people it might have persuaded not to get the vaccine. The results were surprising. 

The underestimated power of exposure

Contrary to popular perceptions, the researchers estimated that vaccine-skeptical content reduced vaccination intentions 46 times more than misinformation flagged by fact-checkers. 

The reason? Even though flagged misinformation was more harmful when seen, it had relatively low reach. In total, the vaccine-related headlines in the Facebook data set received 2.7 billion views — but content flagged as misinformation received just 0.3% of those views, and content from domains rated as low-credibility received 5.1%. 

“Even though the outright false content reduced vaccination intentions the most when viewed, comparatively few people saw it,” explained Rand. “Essentially, that means there’s this class of gray-area content that is less harmful per exposure but is seen far more often —and thus more impactful overall — that has been largely overlooked by both academics and social media companies.”

Notably, several of the most impactful URLs within the data set were articles from mainstream sources that cast doubt on the vaccine’s safety. For instance, the most-viewed was an article — from a well-regarded mainstream news source — suggesting that a medical doctor died two weeks after receiving the COVID-19 vaccine. This single headline received 54.9 million views — more than six times the combined views of all flagged misinformation. 

While the body of this article did acknowledge the uncertainty of the doctor’s cause of death, its “clickbait” headline was highly suggestive and implied that the vaccine was likely responsible. That’s significant since the vast majority of viewers on social media likely never click out to read past the headline. 

How journalists and social media platforms can help

According to Rand, one implication of this work is that media outlets need to take more care with their headlines, even if that means they aren’t as attention-grabbing. 

“When you are writing a headline, you should not just be asking yourself if it’s false or not,” he said. “You should be asking yourself if the headline is likely to cause inaccurate perceptions.” 

For platforms, added Allen, the research also points to the need for more nuanced moderation — across all subjects, not just public health. 

“Content moderation focuses on identifying the most egregiously false information — but that may not be an effective way of identifying the most overall harmful content,” she says. “Platforms  should also prioritize reviewing content from the people or organizations with the largest numbers of followers while balancing freedom of expression. We need to invest in more research and creative solutions in this space – for example, crowdsourced moderation tools like X’s Community Notes.”

“Content moderation decisions can be really difficult because of the inherent tension between wanting to mitigate harm and allowing people to express themselves,” Rand said. “Our paper introduces a framework to help balance that trade-off by allowing tech companies to actually quantify potential harm.”

And the trade-offs could be large. An exploratory analysis by the authors found that if Facebook users hadn’t been exposed to this vaccine-skeptical content, as many as 3 million more Americans could have been vaccinated. 

“We can’t just ignore this gray area-content,” Allen concluded. “Lives could have been saved.”

 

Cuckoos evolve to look like their hosts - and form new species in the process



Peer-Reviewed Publication

UNIVERSITY OF CAMBRIDGE

Host bird pulls a cuckoo chick out of its nest 

VIDEO: 

A LARGE-BILLED GERYGONE HOST PULLS A LITTLE BRONZE-CUCKOO CHICK OUT OF ITS NEST

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CREDIT: HEE-JIN NOH





The theory of coevolution says that when closely interacting species drive evolutionary changes in each other this can lead to speciation - the evolution of new species. But until now, real-world evidence for this has been scarce.

Now a team of researchers has found evidence that coevolution is linked to speciation by studying the evolutionary arms race between cuckoos and the host birds they exploit.

Bronze-cuckoos lay their eggs in the nests of small songbirds. Soon after the cuckoo chick hatches, it pushes the host’s eggs out of the nest. The host not only loses all its own eggs, but spends several weeks rearing the cuckoo, which takes up valuable time when it could be breeding itself.

 Each species of bronze-cuckoo closely matches the appearance of their host’s chicks, fooling the host parents into accepting the cuckoo.

The study shows how these interactions can cause new species to arise when a cuckoo species exploits several different hosts. If chicks of each host species have a distinct appearance, and hosts reject odd-looking nestlings, then the cuckoo species diverges into separate genetic lineages, each mimicking the chicks of its favoured host. These new lineages are the first sign of new species emerging.

“This exciting new finding could potentially apply to any pairs of species that are in battle each other. Just as we’ve seen with the cuckoo, the coevolutionary arms race could cause new species to emerge - and increase biodiversity on our planet,” said Professor Kilner in the University of Cambridge’s Department of Zoology, a co-author of the report.

The striking differences between the chicks of different bronze-cuckoo lineages correspond to subtle differences in the plumage and calls of the adults, which help males and females that specialise on the same host to recognise and pair with each other.

“Cuckoos are very costly to their hosts, so hosts have evolved the ability to recognise and eject cuckoo chicks from their nests,’’ said Professor Naomi Langmore at the Australian National University, Canberra, lead author of the study. 

She added: “Only the cuckoos that most resemble the host’s own chicks have any chance of escaping detection, so over many generations the cuckoo chicks have evolved to mimic the host chicks.”

The study revealed that coevolution is most likely to drive speciation when the cuckoos are very costly to their hosts, leading to a ‘coevolutionary arms race’ between host defences and cuckoo counter-adaptations.

A broad scale analysis across all cuckoo species found that those lineages that are most costly to their hosts have higher speciation rates than less costly cuckoo species and their non-parasitic relatives.

“This finding is significant in evolutionary biology, showing that coevolution between interacting species increases biodiversity by driving speciation,” said Dr Clare Holleley at the Australian National Wildlife Collection within CSIRO, Canberra, senior author of the report.

The study was made possible by the team’s breakthrough in extracting DNA from eggshells in historical collections, and sequencing it for genetic studies.

The researchers were then able to combine two decades of behavioural fieldwork with DNA analysis of specimens of eggs and birds held in museums and collections.

The paper is published today in the journal Science.

The study involved an international team of researchers at the University of Cambridge, Australian National University, CSIRO (Australia’s national science agency), and the University of Melbourne. It was funded by the Australian Research Council.

A male superb fairy-wren brings food to a Horsfield’s bronze-cuckoo fledgling. 

Only cuckoos that most resemble the host’s own chicks have any chance of escaping detection. Over many generations the cuckoo chicks have evolved to mimic the host chicks.

CREDIT

Mark Lethlean

Cuckoo nestlings mimic the nestlings of their host bird 

Subspecies of cuckoo mimic the chicks of their host in appearance