Tuesday, July 09, 2024

 

UCF biologist continues unraveling mystery of magnetic bacteria



UNIVERSITY OF CENTRAL FLORIDA

Robert Fitak 

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UCF DEPARTMENT OF BIOLOGY ASSISTANT PROFESSOR ROBERT FITAK HAS BEEN STUDYING MAGNETIC BACTERIA AND THE ROLE THEY MAY PLAY IN THE ANIMALS THEY RESIDE IN.

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CREDIT: PHOTO BY ANTOINE HART





VIDEO: https://www.youtube.com/watch?v=hEdDH9opd2k


The remarkable ability of migratory animals to navigate and recall routes may be attributed to a sensitivity to not just Earth’s magnetic fields, but perhaps an interaction with magnetic bacteria living inside them.

The relationship between these magnetic bacteria and the animals they reside in is not yet fully understood, but UCF Department of Biology Assistant Professor Robert Fitak recently compiled a database of animal DNA that houses hundreds of millions of sequences showing the presence of various types of magnetic bacteria to use as a tool in his pursuit to learn more.

The database signals a step forward in his research and builds off previous hypotheses and analyses published in 2020 in collaboration with colleagues in the United Kingdom and Israel.

In 2021, Fitak continued poring through databases to categorize which animals may host magnetic bacteria and if there are prevalent patterns.

“The first study we did was look at existing datasets and summarize where we found this bacteria in different animals,” he says. “We searched about 50,000 previous scientific studies. Now, we actually expanded that to studying a worldwide database of genetic information and we’ve been able to summarize where these bacteria are located based on trillions of genetic sequences.”

The database was published earlier this year in Data in Brief, and it borrows information from the publicly available Sequence Read Archive from the National Center for Biotechnology Information.

Fitak focused on organizing DNA sequences originating from across animal species that match known magnetic bacteria to assist he and other researchers to narrow their efforts in examination of both environmental and ecological roles of magnetic bacteria or to identify potential host animals.

An Internal Compass?

Fitak and his colleagues are using the refined data to identify potential host organisms for the magnetic bacteria and to provide greater context for examining the roles they may play in animals – such as for navigation.

“Ultimately, if we have a better understanding of how animals navigate, it’ll be useful for conserving endangered or protected species,” Fitak says. “If we know where they’re going to move and how, it can help us make more accurate management decisions.”

He is interested in seeing if the magnetic bacteria reside in regions within an animal so they may sense them, such as parts of the nervous system. Fitak thinks they could serve as a navigational aid for animals or provide an additional boost for creatures like birds or sea turtles already using the Earth’s magnetic field to navigate long distances.

“It’s almost like a microbial compass and we’re studying how that could work,” Fitak says. “We think the animals already use the Earth’s magnetic field like a compass.”

He also says another potential benefit is that scientists may study how animals sense the magnetic fields and potentially mimic how they’re used in a variety of applications such as drug delivery.

However, there is no conclusive evidence that these animals are using the magnetic bacteria to navigate or not, Fitak says.

“The big summary we have so far from our research is that we don’t yet know that these bacteria are sensing the bacteria for the animal, but we do have evidence that they are living in these animals,” he says. “But what we’ve learned is we can use genetic tags that are signatures for bacteria that makes magnets, and we’ve identified these genetic signatures of these bacteria inside various animals – including humans.”

These kinds of bacteria often live in sediments or muds where there isn’t a lot of oxygen, Fitak says. They assemble microscopic and magnetized iron “chains” to assist in their movement, he says.

It is uncertain how organisms end up with these bacteria inside of them, but it is theorized perhaps through absorption or consumption, Fitak says.

“To date, our results across projects show that these magnetic bacteria seem to be a regular component of many species microbiomes,” he says. “Hopefully our future work will show whether they are just incidentally gathered from the environment, a functional component of magnetic sensing for a host animal, or for some other unknown reason.”

Focusing on Sea Turtles

Fitak and his team of student researchers are focused on examining samples from green and loggerhead sea turtles to further study magnetic bacteria.

“Sea turtles are kind of a model of animal navigation,” he says. “We’ve been testing our hypotheses in sea turtles since they travel to very specific places very accurately.”

Focusing on sea turtles was a natural next step since they are known to possess magnetic bacteria and they rely on the Earth’s magnetic field to migrate, Fitak says. UCF’s Marine Turtle Research Group has also been instrumental in obtaining samples of turtles, he says.

Julianna Martin, a Ph.D. student working with Fitak, has helped analyze and collect the nearly 150 sea turtle samples.

“I work in the lab to extract the DNA from the samples and use genomics to identify what bacteria are in the samples and which are the magnet making ones we’re looking for,” she says. “I couldn’t collect the samples without the help of the UCF Marine Turtle Research Group. It’s been a team effort.”

Martin and scientists with UCF’s Marine Turtle Research Group gently collect tear samples with soft swabs from nesting females – who enter an almost trance-like state when laying eggs – and juveniles in the Indian River lagoon.

The turtles produce large goopy tears when they are on land to keep their eyes moist, and collecting them takes around 30 seconds, Martin says.

“We started with the tear ducts because they're associated with nerves that are associated potentially with animals’ magnetic sense,” she says. “It makes sense biologically to look there and it’s easy to collect sea turtle tears.”

Martin says she is pleased with their progress thus far but is hoping their momentum propels their research toward more definitive conclusions.

“This research has been really exciting,” she says. “No one had been looking for them specifically in sea turtles. I’m interested in knowing where they came from and what species of magnet-making bacteria each sea turtle species has. It’s a long way away but for now we’re working on describing, ‘are they there?’ and ‘where do they come from?’”

The potential to share the unique discovery of magnetic bacteria aiding animals in navigation is truly wondrous, Fitak says.

“What’s been exciting is just being able to tell people that there are bacteria that exist in this world that make magnets,” he says. “People are awestruck, and it would be incredible if animals were indeed using these magnetic bacteria to navigate.”

Fitak encourages researchers interested in studying magnetic bacteria to explore the data he compiled.

Researcher’s Credentials

Fitak is an assistant professor in UCF’s Department of Biology in the College of Sciences. He received his doctorate in genetics from the University of Arizona and his bachelor’s in molecular genetics from The Ohio State University. Before joining UCF in 2019, he worked as a postdoctoral researcher at the Institute for Population Genetics in Vienna, Austria, and at Duke University. He is a member of UCF’s Genomics and Bioinformatics research cluster.

Martin is a UCF biology Ph.D. student who aspires to continue her genetic research at the university. She earned her bachelor’s degree at St. Mary’s College of Maryland and worked at the American Genome Center at the Uniformed Services University.

 

AMERIKA

Patient out-of-pocket costs for type 2 diabetes medications when aging into Medicare



JAMA Network Open





About The Study: In this cohort study of individuals with type 2 diabetes (T2D), the increase in spending upon reaching age 65 (when most people enroll in Medicare) was associated with patient coinsurance in the coverage gap and catastrophic coverage phases of Medicare Part D. The increased patient cost burden at age 65 and a modest reduction in overall T2D drug utilization suggest that as people with T2D age into Medicare, there is potentially an increase in nonadherence and diabetes complications. 

Corresponding Author: To contact the corresponding author, Douglas Barthold, Ph.D., email barthold@uw.edu.

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

(doi:10.1001/jamanetworkopen.2024.20724

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.

#  #  #

Embed this link to provide your readers free access to the full-text article This link will be live at the embargo time http://jamanetwork.com/journals/jamanetworkopen/fullarticle/10.1001/jamanetworkopen.2024.20724?utm_source=For_The_Media&utm_medium=referral&utm_campaign=ftm_links&utm_term=0709          24

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. 

 

Whale remains tracked to highlight sustainable disposal benefits




GRIFFITH UNIVERSITY

Whale remains 

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WHALE REMAINS BEING CONSUMED BY TIGER SHARKS ON THE SEABED.

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CREDIT: LAURA GOURGAS




A string of whale strandings on the East Australian Coastline and questions around the appropriate disposal methods for the remains has prompted a new study that highlights a sustainable, cultural and ecosystem beneficial offshore removal or decomposition. 

Dr Olaf Meynecke, from Griffith University’s Whales and Climate Research Program, led the case study, in which a 14m female humpback whale was found floating deceased – likely to due to ship strike – in the coastal waters off Queensland’s Noosa Heads in July 2023. 

The remains were intercepted before washing up on the shoreline, then repositioned 30km offshore and fitted with a satellite tag that tracked its position as it drifted with the wind and currents for 6 days before falling to the seabed. 

While Dr Meynecke said it was always unfortunate to see these gentle giants deceased, the remains provided a first-ever scientific opportunity to test and develop a prediction method for the whale drift trajectory, allowing the whales’ nutrients to stay in the marine ecosystem and assisted authorities with decision making.  

"As we’ve seen more and more whales stranding on Australian beaches in past years, the effective, safe and culturally sensitive removal of whale remains near or on public beaches has become a major issue,” he said. 

“Our study shows that forecasting of where whale remains might end up when floating at sea is possible with surprisingly high accuracy.” 

There are seven known methods to remove the remains of washed-up whales from our beaches, the most common of all in Australia being to have them transferred to landfill.  

Other methods include transporting to a rendering facility for by-products, composting, burials, natural decomposition on the beach, sinking the remains and using explosives to break the remains down – all of which can be costly, technically logistical and can pose public health risks. 

Towing whale remains out to deeper waters, as in this pilot study led by Dr Meynecke, has also been used in Australia and internationally previously, but not all these disposal methods were successful due to the remains drifting back to shore or interrupting shipping lanes.  

Dr Meynecke said these findings now provided an initial forecasting tool to predict where whale remains would drift, and would offer the additional benefit of retaining the nutrients from decomposition within the marine ecosystem. Scavengers such as tiger sharks also play a crucial role in breaking down whale remains quickly. 

“Perished whales provide a substantial nutrient source for marine ecosystems, and strategically placing whale remains offshore can enhance nutrient cycling and foster biodiversity, contribute to carbon removal and marine floor enrichment for up to seven years,” Dr Meynecke said. 

“Their gradual decomposition sustains scavengers and detritivores, and support microbial communities and deep-sea organisms. 

“The best strategy for handling whale remains depends on multiple factors and should be decided on a case-by-case basis. Offshore disposal can be an ethical, cost-effective, and safe option if managed appropriately.  

“By integrating scientific research and practical management strategies presented in our study, we can enhance our ability to predict and effectively manage the drift of whale remains, ensuring that ecological benefits are maximised while minimising adverse impacts.” 

The study ‘Dead on the beach? Predicting the drift of whale remains improves management for offshore disposal’ has been published in the Journal of Marine Science and Engineering. 

Research Spotlight: Researchers find that adverse drug events are frequent and many are preventable in the outpatient setting



MASS GENERAL BRIGHAM


Rachel L. Wasserman, PharmD, of the Department of General Internal Medicine at Brigham and Women’s Hospital, is the lead author and David W. Bates, MD, medical director of Clinical and Quality Analysis for Mass General Brigham and Co-Director of the Center for Artificial Intelligence and BioInformatics for Mass General Brigham, is the senior author of a new study published in BMJ Quality & Safety, “Frequency and preventability of adverse drug events in the outpatient setting.”

How would you summarize your study for a lay audience?

Many studies have analyzed adverse drug events (ADEs) in the inpatient setting, but limited data exist regarding ADEs in the outpatient setting. This study is the largest recent study regarding outpatient ADEs; patients included a large population treated at multiple sites including primary care, specialty care and emergency departments, over a one-year period .

What was the goal of your study?

The aim of this study was to determine the incidence, severity, and preventability of ADEs in the outpatient setting and identify potential prevention strategies.

What methods or approach did you use?

We conducted an analysis of ADEs identified in a retrospective electronic health records review of outpatient encounters in 2018 of 13 outpatient sites in Massachusetts that included 13,416 outpatient encounters in 3,323 patients. Triggers were identified in the medical record including medications, consultations, laboratory results, and others. If a trigger was detected, a further in-depth review was conducted by nurses and adjudicated by physicians to examine the relevant information in the medical record.

What did you find?

In all, 5% of patients or one in 20 experienced an ADE over the one-year period. We identified 198 ADEs among 170 patients, who had a mean age of 60. Most patients experienced one ADE (87%), 10% experienced two ADEs, and 3% experienced three or more ADEs. The most frequent drug classes resulting in ADEs were cardiovascular (25%), central nervous system (14%), and anti-infective agents (14%). Severity was ranked as significant in 85%, 14% were serious, 1% was life-threatening, and there were no fatal ADEs. Of the ADEs, 22% were classified as preventable and 78% were not preventable. We identified 246 potential prevention strategies, and 23% of ADEs had more than one prevention strategy possibility.

What are the implications?

Despite efforts to prioritize patient safety, medication-related harms are still frequent. These results underscore the need for further improvement in medication safety in the outpatient setting.

What are the next steps?

We assessed the preventability of ADEs and found that about 22% were preventable given what is known today; for both these and the remainder, we identified potential prevention strategies. The most desirable appeared to be AI-related future prevention possibilities. Additional studies are needed to develop new prevention approaches and then assess their impact.

Authorship:

In addition to Rachel L. Wasserman, PharmD and David W. Bates, MD, MSc additional authors include Heba H. Edrees, PharmD, Mary G. Amato, PharmD, MPH, Diane L. Seger, RPh, Michelle L. Frits, BA, Andrew Y. Hwang, PharmD, and Christine Iannaccone, MPH.

Paper cited:

Wasserman RL et al. “Frequency and preventability of adverse drug events in the outpatient setting.” BMJ Quality and Safety. DOI: 10. 1136/bmjqs- 2024-017098.

Funding:

 

Disclosures:

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. Dr. Bates reports grants and personal fees from EarlySense, personal fees from CDI Negev, equity from ValeraHealth, equity from Clew, equity from MDClone, personal fees and equity from AESOP, personal fees and equity from Feelbetter, equity from Guided Clinical Solutions, and grants from IBM Watson Health, outside the submitted work.  Dr. Bates has a patent pending (PHC-028564 US PCT), on intraoperative clinical decision support. 

 

Researchers capture never-before-seen view of gene transcription



ROCKEFELLER UNIVERSITY
RNA polymerase 

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ONE OF THE FIRST-EVER IMAGES OF THE INTERMEDIATE COMPLEXES THAT FORM WHEN RNA POLYMERASE ENCOUNTERS DNA.

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CREDIT: LABORATORY OF MOLECULAR BIOPHYSICS AT THE ROCKEFELLER UNIVERSITY




Every living cell transcribes DNA into RNA. This process begins when an enzyme called RNA polymerase (RNAP) clamps onto DNA. Within a few hundred milliseconds, the DNA double helix unwinds to form a node known as the transcription bubble, so that one exposed DNA strand can be copied into a complementary RNA strand.

How RNAP accomplishes this feat is largely unknown. A snapshot of RNAP in the act of opening that bubble would provide a wealth of information, but the process happens too quickly for current technology to easily capture visualizations of these structures. Now, a new study in Nature Structural & Molecular Biology describes E. coli RNAP in the act of opening the transcription bubble.

The findings, captured within 500 milliseconds of RNAP mixing with DNA, shed light on fundamental mechanisms of transcription, and answer long-standing questions about the initiation mechanism and the importance of its various steps. “This is the first time anybody has been able to capture transient transcription complexes as they form in real time,” says first author Ruth Saecker, a research specialist in Seth Darst‘s laboratory at Rockefeller. “Understanding this process is crucial, as it is a major regulatory step in gene expression.”

An unprecedented view

Darst was the first to describe the structure of bacterial RNAP, and teasing out its finer points has remained a major focus of his lab. While decades of work have established that RNAP binding to a specific sequence of DNA triggers a series of steps that open the bubble, how RNAP separates the strands and positions one strand in its active site remains hotly debated.

Early work in the field suggested that bubble opening acts as a critical slowdown in the process, dictating how quickly RNAP can move onto RNA synthesis. Later results in the field challenged that view, and multiple theories emerged about the nature of this rate-limiting step. “We knew from other biological techniques that, when RNAP first encounters DNA, it makes a bunch of intermediate complexes that are highly regulated,” says coauthor Andreas Mueller, a postdoctoral fellow in the lab. “But this part of the process can happen in less than a second, and we were unable to capture structures on such a short timescale.”

To better understand these intermediate complexes, the team collaborated with colleagues at the New York Structural Biology Center, who developed a robotic, inkjet-based system that could rapidly prepare biological samples for cryo-electron microscopy analysis. Through this partnership, the team captured complexes forming in the first 100 to 500 milliseconds of RNAP meeting DNA, yielding images of four distinct intermediate complexes in enough detail to enable analysis.

For the first time, a clear picture of the structural changes and intermediates that form during the initial stages of RNA polymerase binding to DNA snapped into focus. “The technology was extremely important to this experiment,” Saecker says. “Without the ability to mix DNA and RNAP quickly and capture an image of it in real-time, these results don’t exist.”

Getting into position

Upon examining these images, the team managed to outline a sequence of events showing how RNAP interacts with the DNA strands as they separate, at previously unseen levels of detail. As the DNA unwinds, RNAP gradually grips one of the DNA strands to prevent the double helix from coming back together. Each new interaction causes RNAP to change shape, enabling more protein-DNA connections to form. This includes pushing out one part of a protein that blocks DNA from entering RNAP’s active site. A stable transcription bubble is thus formed.

The team proposes that the rate-limiting step in transcription may be the positioning of the DNA template strand within the active site of the RNAP enzyme. This step involves overcoming significant energy barriers and rearranging several components. Future research will aim to confirm this new hypothesis and explore other steps in transcription.

“We only looked at the very earliest steps in this study,” Mueller says. “Next, we’re hoping to look at other complexes, later time points, and additional steps in the transcription cycle.”

Beyond resolving conflicting theories about how DNA strands are captured, these results highlight the value of the new method, which can capture molecular events happening within milliseconds in real-time. This technology will enable many more studies of this kind, helping scientists visualize dynamic interactions in biological systems.

“If we want to understand one of the most fundamental processes in life, something that all cells do, we need to understand how its progress and speed are regulated,” says Darst. “Once we know that, we’ll have a much clearer picture of how transcription begins.”

 

Groundbreaking study reveals oceanic seabirds chase tropical cyclones




WOODS HOLE OCEANOGRAPHIC INSTITUTION

Oceanic seabirds chase tropical cyclones 

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A NEW STUDY FROM THE WOODS HOLE OCEANOGRAPHIC INSTITUTION AND PARTNERS REVEALS THAT THE PELAGIC SEABIRD DESERTAS PETREL EXHIBIT UNIQUE FORAGING BEHAVIORS DURING HURRICANE SEASON. CONTRARY TO OTHER PELAGIC SEABIRDS, THESE PETRELS DO NOT AVOID INTENSE TROPICAL CYCLONES BUT INSTEAD EXPLOIT THE DYNAMIC CONDITIONS FOR THEIR BENEFIT, PROVIDING NEW INSIGHTS INTO THE IMPACT OF CYCLONES ON OPEN OCEAN MARINE LIFE.

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CREDIT: © KIRK ZUFELT



A new study published today in Current Biology, "Oceanic Seabirds Chase Tropical Cyclones," reveals that the rare Desertas Petrels (Pterodroma deserta), a wide-ranging seabird in the North Atlantic, exhibit unique foraging behaviors during hurricane season. Contrary to other pelagic seabirds, these petrels do not avoid intense tropical cyclones but instead exploit the dynamic conditions for their benefit, providing new insights into the impact of cyclones on open ocean marine life.

"Initial studies suggested that seabirds either circumnavigate cyclones or seek refuge in the calm eye of the storm. However, the Desertas Petrels we tracked did neither; instead, one-third of them followed the cyclone for days, covering thousands of kilometers,” stated Francesco Ventura, lead author and a Postdoc Investigator in Biology at the Woods Hole Oceanographic Institution (WHOI). “When we saw the data, we nearly fell off our chairs. This is the first time we have observed this behavior.”

“It’s striking how well the birds know how to exploit the large-scale wind conditions over the North Atlantic for their travels,” said Caroline Ummenhofer, Associate Scientist, Physical Oceanography, at WHOI. “When you overlay the petrels’ foraging trips on top of average winds, it’s a very close match.”

The Desertas Petrels nest on the Bugio Island in Portugal, located off the western coast of North Africa. This island hosts the only known nesting colony of these pigeon-sized seabirds in the world, with fewer than 200 pairs residing on a plateau surrounded by steep cliffs. During their six-month breeding season, Desertas Petrels embark on extraordinary foraging journeys, often spending weeks at sea and flying roundtrips up to 7,500 miles across the Atlantic in search of food. They belong to the genus Pterodroma, which means "wings on the run."

“We correlated the birds' locations with intensifying storm conditions, including waves up to 8 meters high and wind speeds of 100 kilometers per hour,” said Ventura. “Upon encountering strong winds, the birds reduced ground speed, likely by spending less time in flight to avoid injury to their wings. In addition, the wakes of the storms provided predictably favorable wind conditions with higher tailwind support than alternative routes. Impressively, none of the birds we tracked were harmed by the storms and there was no incidence of nest desertion.”

The petrels pursue small fish, squid, and crustaceans that typically dwell at depths of 600 to 3,000 feet. Since they cannot dive to such depths, these seabirds have to wait until nightfall when their prey ascends closer to the surface.

“As we’ve now discovered, Desertas Petrels follow hurricanes where prey have accumulated closer to the surface in the wakes of the storms,” said Ummenhofer.

The study shows that cyclone wakes provided enhanced foraging conditions, with sharp drops in sea surface temperature and striking increases in surface chlorophyll. These changes suggest enhanced ocean mixing and productivity, which presumably increase prey abundance and accessibility for surface-feeding petrels.

“One of the interesting aspects of the interaction of a tropical cyclone and the ocean is the intense vertical mixing in the upper ocean layers caused by very strong winds and huge breaking seas,” said Philip Richardson, Emeritus, Physical Oceanography at WHOI and a co-author on the paper. “The cyclonic winds can cause a divergence in the upper layer that moves cooler, deeper water toward the surface.”

“The cyclones present a highly valuable foraging opportunity for Desertas Petrels because the storms churn up mesopelagic prey from deep within the vertical column, giving the seabirds an easy meal at the surface,” explained Ventura. “While storms are typically seen as destructive, particularly in coastal areas, our research reveals that functional perturbance driven by storms can create new opportunities. We’re advancing our understanding of how petrels navigate the open ocean to find food.”

“We now have a fresh perspective on hurricanes' impact on marine ecosystems through the eyes of an apex predator,” said Ummenhofer. “This study provides valuable insights into the resilience and foraging strategies of pelagic seabirds in the face of extreme weather events.”

While cyclones are known to dramatically affect oceanic and coastal ecosystems, their impacts on pelagic marine life are poorly understood. This research reveals how higher predators like Desertas Petrels adapt their foraging strategies in the dynamic ocean environment and utilize cyclone-induced oceanographic changes to their advantage.

 

This research was made possible by the WHOI Postdoctoral Scholar Program with funding from the John E. Sawyer Fund and the John H. Steele Endowment and The Andrew W. Mellon Foundation Endowed Fund for Innovative Research at WHOI.

 

 

###

Authors:

Francesco Ventura, Biology Department, Woods Hole Oceanographic Institution, Woods Hole, MA, USA

Neele Sander, Department of Physical Oceanography, Woods Hole Oceanographic Institution, Woods Hole, MA, USA, and Christian-Albrechts-Universität zu Kiel, Geomar Helmholtz-Center for Ocean Research, Kiel, Germany

Paulo Catry, Marine and Environmental Sciences Centre (MARE), Aquatic Research Network (ARNET), and Ispa Instituto Universitário, Lisbon, Portugal

Ewan Wakefield, Department of Geography, Durham University, Durham, UK

Federico De Pascalis, Area Avifauna Migratrice, Istituto Superiore per la Protezione e la Ricerca Ambientale (ISPRA), Ozzano dell’Emilia, Italy

Philip L. Richardson, Department of Physical Oceanography, Woods Hole Oceanographic Institution, Woods Hole, MA, USA

José Pedro Granadeiro, Centre for Environmental and Marine Studies (CESAM), Departmento de Biologia Animal, Universidade de Lisboa, Lisbon, Portugal

Mónica C. Silva, Centre for Ecology, Evolution and Environmental Changes (cE3c), Departmento de Biologia Animal, Universidade de Lisboa, Lisbon, Portugal

Caroline C. Ummenhofer,  Department of Physical Oceanography, Woods Hole Oceanographic Institution, Woods Hole, MA, USA

About Woods Hole Oceanographic Institution

The Woods Hole Oceanographic Institution (WHOI) is a private, non-profit organization on Cape Cod, Massachusetts, dedicated to marine research, engineering, and higher education. Established in 1930, its primary mission is to understand the ocean and its interaction with the Earth as a whole, and to communicate an understanding of the ocean’s role in the changing global environment. WHOI’s pioneering discoveries stem from an ideal combination of science and engineering—one that has made it one of the most trusted and technically advanced leaders in basic and applied ocean research and exploration anywhere. WHOI is known for its multidisciplinary approach, superior ship operations, and unparalleled deep-sea robotics capabilities. We play a leading role in ocean observation and operate the most extensive suite of data-gathering platforms in the world. Top scientists, engineers, and students collaborate on more than 800 concurrent projects worldwide—both above and below the waves—pushing the boundaries of knowledge and possibility. For more information, please visit www.whoi.edu

 

 

Study examines tree adaptability to climate change



UNIVERSITY OF WYOMING
Tree adaptability 

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BOTANIC GARDENS GROW TREE SPECIES FROM ALL AROUND THE WORLD. THIS PHOTO OF THE SERENE JAPANESE GARDEN AT THE DENVER BOTANIC GARDENS INCLUDES SEVERAL SPECIES OF PINE, SPRUCE AND FIR TREES. ARBORETA, SUCH AS BOTANIC GARDENS, WERE USED IN RESEARCH LED BY DANIEL LAUGHLIN, A PROFESSOR IN THE UW DEPARTMENT OF BOTANY, TO UNDERSTAND THE RANGE OF TEMPERATURES THAT TREES CAN TOLERATE.

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CREDIT: DANIEL LAUGHLIN





During his recent yearlong sabbatical, Daniel Laughlin led a study that found trees can sustain life in temperatures higher or lower than where they are currently growing.

While tree species appear to prefer distinct climatic conditions, the true nature of these preferences is obscured by species interactions and dispersal, which limit tree species’ ranges.

“We were amazed. The result was crystal clear, and that doesn’t always happen in ecology,” says Laughlin, a professor in the University of Wyoming Department of Botany. “We found that tree species could grow and survive at one common moderate temperature, even though many species are only found in either cold or warm environments. In fact, many trees could expand their ranges by more than 25 percent based on their potential temperature tolerances.”

Laughlin is lead author of a paper titled “Trees have overlapping potential niches that extend beyond their realized niches” that was published today (July 5) in Science, a weekly peer-reviewed academic journal of the American Association for the Advancement of Science that publishes important original scientific research.

Brian McGill, a professor in the School of Biology and Ecology at the University of Maine, is the paper’s co-author. Laughlin and McGill share a mutual interest in understanding how species will respond to rapid changes in climate. To make progress on this pressing problem, they studied occurrences of North American tree species in arboreta around the world to quantify their tolerance of extreme cold and heat.

The two researchers quantified realized and potential thermal niches of 188 North American tree species to conduct a continental-scale test of the architecture of niches, according to the study. The study included 23 tree species native to Wyoming, including Engelmann spruce, subalpine fir, limber pine, lodgepole pine, ponderosa pine, aspen, Rocky Mountain juniper and plains cottonwood.

The realized niche of a tree species is where you find it in nature, while the potential niche is where you could but don’t because it was outcompeted by other tree species or it could not disperse there, Laughlin says.

“For example, the realized niche of the Wyoming native tree Engelmann spruce includes high-elevation subalpine forests,” Laughlin explains. “However, the potential niche also includes warmer locations, such as along streambanks at lower elevations, where the trees could survive. But they are not found there because they get outcompeted by faster-growing cottonwoods.”

The two researchers found strong and consistent evidence that tree species occurring at thermal extremes occupy less than 75 percent of their potential niches, and species’ potential niches overlap at a mean annual temperature of 12 degrees Celsius, or roughly 55 degrees Fahrenheit.

“When we walk in the woods, we see with our own eyes that tree species occur in distinct places. This is a core tenet of ecology,” Laughlin says. “However, where species are actually found in nature is a fraction of their potential distribution because competition with other species and dispersal limitation constrain where they actually occur.”

The new results break a core assumption of most current methods for predicting species distributions, suggesting that ecologists need to get serious about quantifying the full range of environments that are tolerable to plants, Laughlin says.

“This is a critical missing piece of information for predicting how they respond to a warming world,” Laughlin says.

The results also suggest that tree species will have different fates. Cold-tolerant trees, such as Engelmann spruce and subalpine fir, may not need to move to stay within their climatic tolerances. However, warm-tolerant species, such as live oak and longleaf pine, will need to migrate.

“North American tree species have been navigating changing climatic conditions for millions of years. We know that, over long time spans, trees have moved across the continent to track suitable climate conditions, but we don’t know how this will play out over the next few decades and centuries,” Laughlin says. “For example, the climate in Laramie may soon be suitable for trees from the Southwest that are adapted to warmer conditions, but we are uncertain about which species will arrive first. Understanding the fundamental temperature tolerances of trees is an important first step to improving our predictions of how tree species’ ranges will shift over time.”

Laughlin’s sabbatical, which took place during the 2023-24 academic year, was supported by a UW Flittie Sabbatical Augmentation Award and a UW College of Agriculture, Life Sciences and Natural Resources Global Perspectives grant.

SEXIST & CHAUVINIST MEDICINE

Survey finds most women with uterine fibroids are offered hysterectomies over minimally invasive treatments



Data shed light on risks and lack of awareness for common condition that affects most women


THE REIS GROUP





FAIRFAX, Va. (July 9, 2024)— Among women who have personally been diagnosed with uterine fibroids, more than half (53%) were presented with a hysterectomy, while fewer than 1 in 5 (20%) were presented with other less invasive options such as over-the-counter NSAIDs (19%), uterine fibroid embolization (17%), oral contraceptives (17%), and endometrial ablation (17%), according to new survey data by The Harris Poll on behalf of the Society of Interventional Radiology. Moreover, some women (17%) mistakenly think a hysterectomy, or complete removal of the uterus, is the only treatment option, including over 1 in 4 women aged 18–34 (27%).

The survey also demonstrates a lack of awareness among women regarding uterine fibroids. For instance, nearly three-fourths of women (72%) do not know they are at risk for developing uterine fibroids, yet up to 77% of adult women will develop fibroids at some point in their life. Fibroids also disproportionately affect women of color with Black women having the highest incidence.

“The survey findings, coupled with the low number of women who were offered a minimally invasive treatment like UFE, indicate that women are not being given all of the information they need to make their own healthcare decisions,” said John C. Lipman, M.D., FSIR, founder and medical director of the Atlanta Fibroid Center and adviser for the report. “Not offering minimally invasive treatments like UFE in addition to the surgical treatment options is a significant oversight. Women need to be informed about the complete range of options available for treating their uterine fibroids; not just the surgical options as is most commonly done by gynecologists.”

The survey was conducted online within the United States by The Harris Poll on behalf of SIR among more than 1,000 U.S. women, including women who have personally been diagnosed with uterine fibroids. The data is a part of the report, The fibroid fix: What women need to know, which serves as a resource to inform women about minimally invasive treatment options for uterine fibroids, like uterine fibroid embolization (UFE).

UFE is a minimally invasive, image-guided, non-surgical, outpatient treatment that is performed by an interventional radiologist. It is less painful and has a shorter recovery period than surgical options. The treatment is often just as effective as other uterine fibroid treatments and doesn’t require the complete removal of the uterus. Even though several studies have noted the long-term efficacy of UFE, this survey shows that women are not learning about UFE from their doctors. Among women who have heard of or are familiar with UFE, only 2 in 5 (40%) first heard or learned about it from a healthcare provider.

The survey also found:

  • More than half of women ages 18–34 (56%) and women ages 35–44 (51%) say they are not familiar with or never heard of uterine fibroids.
  • 50% of Hispanic women say they’ve never heard of or aren’t familiar with uterine fibroids, compared to nearly 2 in 5 Black women (37%).
  • 36% of Black women and 22% of Hispanic women mistakenly think they are not at risk for developing fibroids, yet uterine fibroids are three times more common in Black women and two times more common in Hispanic women.
  • If women were looking for or choosing a treatment for uterine fibroids, the most important aspects would be that it cures the fibroids so they don’t recur (48%), and proven effectiveness (46%).

“The survey noted deep disparities in awareness and access regarding fibroids and fibroid treatments among Black and Hispanic women, who have a higher risk factor for developing uterine fibroids,” said Robert J. Lewandowski, M.D., president of the Society of Interventional Radiology, and professor at Northwestern Medicine Feinberg School of Medicine. “The data serve as a guiding light for improving physician and patient educational efforts on various treatments to ensure all women, regardless of background, are informed about their risks and the full range of treatment options available.”

UFE is performed by inserting a thin catheter into an artery at the groin or wrist. The doctor guides the catheter to the fibroid’s blood supply where small particles, about the size of grains of sand, are released to block the blood vessels feeding the fibroid, depriving it of nutrients. As a result, the fibroid shrinks and dies. After treatment, women generally can leave the hospital the same day and be back to their normal activity in about one week. Studies show that a vast majority, nearly nine out of 10 patients who undergo uterine fibroid embolization, experience significant or complete resolution of their symptoms.

“Women suffering from fibroids are often given only one treatment option by their gynecologist, hysterectomy, without being informed of less invasive treatments, like UFE,” said Lipman. “Many patients don’t want a hysterectomy and they’re left to suffer in silence, even though their lives could be transformed back to normal if they only knew about UFE.”

Methodology

This survey was conducted online within the United States by The Harris Poll on behalf of SIR (the Society of Interventional Radiology) from May 30–June 3, 2024, among 1,122 U.S. women ages 18+, including 167 who have personally been diagnosed with uterine fibroids. The sampling precision of Harris online polls is measured by using a Bayesian credible interval. For this study, the full sample data is accurate to within +/- 3.2 percentage points using a 95% confidence level. For complete survey methodology, including weighting variables and subgroup sample sizes, please contact Kathleen Petty, kpetty@thereisgroup.com/Matt Porter, mporter@thereisgroup.com.

To learn more and to read the full report, visit sirweb.org/fibroidfix.

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About the Society of Interventional Radiology

The Society of Interventional Radiology is a nonprofit, professional medical society representing more than 8,000 practicing interventional radiology physicians, trainees, students, scientists and clinical associates, dedicated to improving patient care through the limitless potential of image-guided therapies. SIR’s members work in a variety of settings and at different professional levels—from medical students and residents to university faculty and private practice physicians. Visit sirweb.org.