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Violence alters human genomes for generations, researchers discover
In February of 1982, the Syrian government besieged the city of Hama, killing tens of thousands of its own citizens in sectarian violence. Four decades later, rebels used the memory of the massacre to help inspire the toppling of the Assad family that had overseen the operation. But there is another lasting effect of the attack, hidden deep in the genes of Syrian families. The grandchildren of women who were pregnant during the siege — grandchildren who never experienced such violence themselves — nonetheless bear marks of it in their genomes. Passed down through their mothers, this genetic imprint offers the first human evidence of a phenomenon previously documented only in animal models. The genetic transmission of stress across multiple generations. “The idea that trauma and violence can have repercussions into future generations should help people be more empathetic, help policymakers pay more attention to the problem of violence,” said Connie Mulligan, Ph.D., a professor of Anthropology and the Genetics Institute at the University of Florida and co-senior author of the new study. “It could even help explain some of the seemingly unbreakable intergenerational cycles of abuse and poverty and trauma that we see around the world, including in the U.S.” While our genes are not changed by life experiences, they can be tuned through a system known as epigenetics. In response to stress or other events, our cells can add small chemical flags to genes that may quiet them down or alter their behavior. These changes may help us adapt to stressful environments, although the effects aren’t well understood. It is these tell-tale chemical flags that Mulligan and her team were looking for in the genes of Syrian families. While lab experiments have shown that animals can pass along epigenetic signatures of stress to future generations, proving the same in people has been nearly impossible. “Resilience and perseverance is quite possibly a uniquely human trait.” —Connie Mulligan Mulligan worked with Rana Dajani, Ph.D., a molecular biologist at Hashemite University in Jordan and co-senior author, as well as anthropologist Catherine Panter-Brick, Ph.D., of Yale University, to conduct the unique study. Dajani envisioned the research project; because of her intimate knowledge of the Syrian population and its tragic history, she designed the study to cover three generations of Syrian refugees to Jordan. Some families had lived through the Hama attack before fleeing to Jordan. Other families avoided Hama, but lived through the recent civil war against the Assad regime. The team collected samples from grandmothers and mothers who were pregnant during the two conflicts, as well as from their children. This study design meant there were grandmothers, mothers and children who had each experienced violence at different stages of development. A third group of families had immigrated to Jordan before 1980, avoiding the decades of violence in Syria. These early immigrants served as a crucial control to compare to the families who had experienced the stress of civil war. Study coauthor Dima Hamadmad, a Syrian researcher and the daughter of refugees, led the search for families that met the study criteria and collected cheek swabs from 138 people across 48 families. "The participants took part in the research out of love for their children and concern for future generations,” she said. “But more than that, they wanted their stories of trauma to be heard and acknowledged.” Back in Florida, Mulligan’s lab scanned the DNA for epigenetic modifications and looked for any relationship with the families’ experience of violence. In the grandchildren of Hama survivors, the researchers discovered 14 areas in the genome that had been modified in response to the violence their grandmothers experienced. These 14 modifications demonstrate that stress-induced epigenetic changes may indeed appear in future generations in humans, just as they can in animals. The study also uncovered 21 epigenetic sites in the genomes of people who had directly experienced violence in Syria. In a third finding, the researchers reported that people exposed to violence while in their mothers’ wombs showed evidence of accelerated epigenetic aging, a type of biological aging that may be associated with susceptibility to age-related diseases. Most of these epigenetic changes showed the same pattern after exposure to violence, suggesting a kind of common epigenetic response to stress – one that can not only affect people directly exposed to stress, but also future generations. “We think our work is relevant to many forms of violence, not just refugees. Domestic violence, sexual violence, gun violence: all the different kinds of violence we have in the U.S,” said Mulligan. “We should study the effects of violence. We should take it more seriously.” It’s not clear what, if any, effect these epigenetic changes have in the lives of people carrying them inside their genomes. But some studies have found a link between stress-induced epigenetic changes and diseases like diabetes. One famous study of Dutch survivors of famine during World War II suggested that their offspring carried epigenetic changes that increased their odds of being overweight later in life. While many of these modifications likely have no effect, It’s possible that some have functional effects that can affect our health, Mulligan said. The researchers published their findings, which were supported by the National Science Foundation, Feb. 27 in the journal Scientific Reports. While carefully searching for evidence of the lasting effects of war and trauma stamped into our genomes, Mulligan and her collaborators were also struck by the perseverance of the families they worked with. Their story was much bigger than merely surviving war, Mulligan said. “In the midst of all this violence we can still celebrate their extraordinary resilience. They have persevered,” Mulligan said. “That resilience and perseverance is quite possibly a uniquely human trait.”
Giving with Purpose This Holiday Season
As the season of giving draws near, many people are searching for meaningful ways to support the causes that matter most. From local food banks to global humanitarian organizations, charitable giving offers an opportunity to make a genuine difference – for the organization and for the donor. Two Baylor University experts in consumer behavior and philanthropy – James A. Roberts, Ph.D., The Ben H. Williams Professor of Marketing in the Hankamer School of Business, and Andrew P. Hogue, Ph.D., associate dean in the Office of Engaged Learning and founder of Philanthropy and the Public Good program – share five practical strategies to help donors give with intention and impact. Five ways to give more thoughtfully and effectively 1. Choose a cause that resonates with you Begin by considering the issues that matter most –education, hunger, health care, the environment or another area close to your heart. Once you identify your passion, take time to research organizations working in that space. Look for transparency, measurable results and a strong record of directing funds to mission-focused programs. “A helpful shortcut is to see whether a nonprofit receives repeat grants from charitable foundations,” Hogue said. “Those grants typically follow a rigorous evaluation process.” 2. Decide what you can comfortably give Giving should feel fulfilling, not stressful. Roberts and Hogue recommend reviewing your household budget and determining an amount that fits comfortably. Even small donations can accumulate into meaningful support over time. 3. Consider how often you want to give Think about whether a single contribution or ongoing support works best for you. Regular giving helps nonprofits plan ahead and maintain steady programming. “Consistent donations allow charities to allocate resources more effectively throughout the year,” Hogue said. 4. Automate your contributions Setting up recurring gifts through your bank or directly with a nonprofit keeps your generosity on track with minimal effort. Automatic withdrawals ensure reliability for the organization and ease for the donor. “It’s a simple way to make sure you don’t forget to give,” Roberts said, “and it provides charities with predictable support.” 5. Offer your time and talent if money is tight Financial support is just one form of generosity. Time, skills and personal networks can be equally valuable. “Donating your time and skills can be just as impactful,” Roberts said. “Whether you’re mentoring, sorting donations or helping at events, your presence matters.” Hogue added that giving enriches both the recipient and the giver: “Charitable giving is about making a difference in others’ lives while adding purpose and connection to your own.” His advice: start small, stay consistent and simply take the first step. “Giving is deeply rewarding,” Hogue said. “And as you grow in your generosity, keep a beginner’s mindset – there is always room to improve how we steward the resources entrusted to us.” Looking to know more or arrange an interview? Simply click on the expert's icon below or contact: Shelby Cefaratti-Bertin today.
Nandi A. Marshall, DrPH, professor and associate dean for Georgia Southern University’s Jiann-Ping Hsu College of Public Health, has been named president of the American Public Health Association (APHA), the nation’s oldest and largest organization of public health professionals. Marshall began her presidential term on Nov. 5, following a year as president-elect. She will serve a three-year term on APHA’s executive board, including her current presidential year and a subsequent year as immediate past president. With more than two decades of experience in community-engaged public health, Marshall is widely recognized for her leadership in advancing maternal and child health equity, and for her dedication to preparing the next generation of the public health workforce. She holds a bachelor’s in religious studies from Spelman College, a master’s in public health from East Stroudsburg University and a Doctor of Public Health from Georgia Southern. “Dr. Marshall’s appointment to lead APHA is a tremendous national recognition of her contribution to public health — and a reflection of Georgia Southern’s growing impact on the global public health landscape,” said Avinandan Mukherjee, Ph.D., provost and executive vice president for Academic Affairs. “Her commitment to community partnership, workforce development and health equity exemplifies the values we strive to instill in every graduate of our distinctive public health college.” Marshall’s work has centered on bridging lived experience and scientific research to drive equitable health outcomes. “I’m deeply honored to serve as APHA president,” Marshall said. “Public health calls us to listen to communities, honor their wisdom and work together to build the equitable systems that recognize health as a human right. Equity is not an outcome — it’s a commitment. And I’m grateful to continue this work with purpose, courage and love alongside partners across the country.” Founded in 1872, APHA represents more than 25,000 members nationwide, serving as a convener, catalyst and advocate for equitable health and well-being for all. The association connects practitioners, researchers, educators and policymakers to advance evidence-based public health initiatives. Looking to know more about Georgia Southern University or connect with Dr. Marshall — simply contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
One AI-based advancement at a time, UF leaders are transforming the sports industry
As emerging technologies like AI reshape sport industries and professional demands evolve, it is essential for students to graduate with the expertise to thrive in their future careers. To ensure that these students are set up for success, the UF College of Health & Human Performance has launched a new sports analytics program. Led by Scott Nestler, Ph.D., CAP, PStat, a professor of practice in the Department of Sport Management and a national analytics and data science expert, the program ties back to the UF & Sport Collaborative – a five-part project intended to elevate UF’s presence on the global stage in sports performance, healthcare and communication. “Tools and insights that previously were only available to professional sports teams are now coming to the college level, and it makes sense for universities to begin using these data, technologies and new analytic methods,” Nestler said. The sports analytics program fosters collaboration between academic units, such as the Warrington College of Business and the University Athletic Association, helping bridge the gap between sport research and innovation and empowering students to address real-world challenges through data and AI. For example, the program offers opportunities to leverage technology and analytics for strategic decision making in player acquisition, team formation and in-game decisions. Beyond performance metrics, the program also explores marketing strategies and revenue analytics, providing a well-rounded understanding of the field. “When you have enough data and a large enough sample of individuals, AI can help make predictions that otherwise would take prohibitively longer for a human to accomplish with traditional methods,” said Garrett Beatty, Ph.D., the assistant dean for innovation and entrepreneurship and an instructional associate professor in the College of Health & Human Performance’s Department of Applied Physiology and Kinesiology. “Because those data volumes are getting so large, AI models, machine learning, deep learning and other strategies can be leveraged to make sense and glean insights from sport and human performance data in ways that have never been done before.” The program seeks to offer several educational opportunities, such as individual courses, certificate programs and potentially a full degree program. In the long term, Nestler envisions the program evolving into a center or institute, beginning with establishing a research lab in the spring. Additionally, the program will leverage the university’s supercomputer, HiPerGator, to analyze larger data sets and use newer predictive modeling machine learning algorithms. “As faculty and staff move from working with box score and play-by-play data to using tracking data, which contains coordinates of all players and the ball on the field or court tens of times per second, the size of data files in sports analytics has grown tremendously,” Nestler said. “HiPerGator, with its large storage capacity and multiple central processing units/graphic processing units, is ideal for using in sports analytics work in 2025.” Nestler also aims to increase student involvement by enhancing UF’s Sport Analytics Club and hiring research assistants to work on projects for the University Athletic Association. “We need to take a broader view of what AI is and realize that it incorporates a lot of what we’ve been calling data science and analytics in the form of machine learning models, which came more out of statistics and computer science. Those are types of AI and those that I think will largely continue to be used in the coming years within the sports space,” Nestler said. “Also, we’re continuing to see growth in the number of people interested in working in this space, and I don’t foresee that changing. Fortunately, we are also seeing the number of opportunities available to those with the appropriate skills increase as well.”
Proteins, often called the building blocks of life, play a central role in drug development. When scientists develop new treatments, they must understand how drugs interact with proteins involved in disease mechanisms and with proteins in the human body that influence drug response. Scientists commonly use cryo-electron microscopy (cryo-EM) 3D imaging data to study proteins. While recent advances have enabled higher-resolution images that are easier to analyze, medium-resolution images—which are more difficult to interpret—are still the most common for larger protein complexes. Salim Sazzed, Ph.D., an assistant professor in the computer science department of Georgia Southern University’s Allen E. Paulson College of Engineering and Computing, has been awarded a two-year National Science Foundation grant of about $175,000 to lead a groundbreaking project to develop novel Artificial Intelligence (AI) techniques for determining protein secondary structures from medium-resolution cryo-electron microscopy (cryo-EM) images. Improved modeling from medium-resolution images will help researchers study more proteins efficiently, giving new insights into diseases and potentially guiding the development of new treatments and future drugs. At its core, this research will combine biology and machine learning to study protein structures. The multidisciplinary approach and potential impacts on public health are what most excite Sazzed. “The impetus behind this research is the positive impact on public health and possibly contributing to the biomedical workforce,” he said. “Seeing biology and computer science combine for that kind of impact is incredibly moving.” As the Principal Investigator (PI) for the project, Sazzed will use his expertise in deep learning computer models to focus on a major challenge in structural biology: identifying the two main secondary structures of proteins—the alpha helix and the beta sheet. These structures are critical for a protein’s overall shape and function, but in medium-resolution cryo-EM images they often appear indistinct or lack clear detail, making them particularly difficult to analyze. Sazzed’s research will focus on two main goals. First, he will quantify the variability of alpha helices and beta sheets in medium-resolution images, comparing them to idealized structures. Second, by integrating this structural variability with the image data in a deep learning model, he will aim to generate more precise and accurate representations of protein secondary structures. “When we feed this information into a deep learning model along with the image data, the model should be able to determine protein secondary structures more precisely,” Sazzed elaborated. Sazzed believes students will greatly benefit from this multi-disciplinary approach. In addition to a Ph.D. student, several undergraduate students will be directly engaged in the research. A full-day workshop will also be organized, allowing Georgia Southern students from diverse disciplines to participate. This initiative will build on Georgia Southern’s strong tradition of involving undergraduates in research and will support the University’s recent focus on biomedical and health sciences. “There are many different knowledge areas coming together in this work,” Sazzed said. “It involves computer science, biology, chemistry, and even public health. I look forward to students following the research and exploring these different fields themselves.” Allen E. Paulson College of Engineering & Computing Interim Associate Dean of Research, Masoud Davari, Ph.D., echoes this sentiment and emphasizes its importance to the University’s research profile. “Sazzed’s interdisciplinary research, which bridges the gap between biology and computer science, will foster multidisciplinary research in our college—as it is cutting-edge and potentially groundbreaking in drug development to impact people’s lives nationally and globally,” Davari said. “It’s also well aligned with the college’s strategic research plan—as we make the move to R1 status to be aligned with ‘Soaring to R1,’ which is among the transformational initiatives for the University.” Looking to know more about Georgia Southern University or connect with Salim Sazzed — simply contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
The University of Florida’s ‘AI Queen’ is using AI technology to help prevent dementia
To help the 50 million people globally who live with dementia, the National Institute on Aging is finding researchers to develop tech-based breakthroughs that target the disease — researchers like the University of Florida’s “AI Queen.” It’s a fitting nickname for Aprinda Indahlastari Queen, Ph.D., who is applying artificial intelligence technology to study transcranial direct current stimulation, or tDCS — a technique that involves placing electrodes on the scalp to deliver a weak electrical current to the brain — as a possible way to prevent dementia. The assistant professor in the UF College of Public Health and Health Professions’ Department of Clinical and Health Psychology is using UF’s supercomputer, HiPerGator, to perform neuroimaging and machine learning analyses to study how anatomical differences may affect tDCS outcomes. “Investigating working memory in patients with mild cognitive impairment offers an opportunity to understand how cognitive processes are disrupted in the early stages of Alzheimer’s disease,” said Queen, whose study — funded by a National Institute on Aging research career development grant — integrates neuroimaging with information on brain structure that is unique to older adults and those with mild cognitive impairment. Refining the treatment with AI Using neuroimaging, Queen captures real-time changes during tDCS to the parts of the brain associated with working memory, which is the type of memory that allows humans to temporarily keep track of small amounts of information. Think of this as a mental “scratchpad.” Her study includes older adults with mild cognitive impairment as well as individuals who are cognitively healthy. In tDCS, a safe, weak electrical current passes through electrodes placed on a person’s head. The stimulation is being used in research and clinical settings for a variety of conditions and has shown partial success as a nonpharmaceutical intervention that can improve cognitive and mental health in older adults. But tDCS results can vary across individuals, and the suspected cause is both simple and complex: Everyone’s head is different. “One potential reason tDCS may not work for some individuals is the variation in head tissue anatomy, including differences in brain structure,” Queen said. “Since electrical stimulation must travel through multiple layers of tissue to reach the brain, and every individual’s anatomy is unique, these differences likely affect outcomes.” To address this further, Queen is using AI. “Artificial intelligence will play a major role in the modeling pipeline, including constructing individualized head models, conducting predictive analyses to identify which participants will respond to the stimulation, and disentangling multiple individual factors that may contribute to these outcomes,” Queen said. An estimated 10 to 20% of adults over age 65 have memory or thinking problems characterized as mild cognitive impairment. Their symptoms are not as severe as Alzheimer’s disease and other dementias, but they may be at increased risk for developing dementia. “The fact that not all individuals with mild cognitive impairment progress to Alzheimer’s disease emphasizes the need to identify effective interventions that can slow the progression to dementia,” Queen said. “This project presents an opportunity to differentiate between multiple types of mild cognitive impairment and investigate how tDCS affects the brain across these subtypes.” An AI visionary Queen, who joined the UF faculty under the university’s AI hiring initiative, is an instructor in the College of Public Health and Health Professions’ undergraduate certificate program in AI and public health and health care, and the co-chair of the college’s AI Workgroup. She is also the assistant director for computing and informatics at the UF Center for Cognitive Aging and Memory Clinical Translational Research and a member of UF’s McKnight Brain Institute. Queen received her Ph.D. training in engineering with a focus on building and running computational models to investigate medical devices. She experienced a career “a-ha” moment as a postdoc, when she was a co-investigator on a large clinical trial that paired brain stimulation with cognitive training to enhance cognition in older adults. “This experience was transformative for me. I had the chance to interact directly with participants, which was both fulfilling and eye-opening. These interactions allowed me to see the immediate, real-world implications of my work and sparked a passion for pursuing aging research,” Queen said. “I realized that, through this type of research, I could have a more direct impact on addressing age-related challenges, which prompted a shift in my career plans.” The new grant will help Queen further improve her understanding of the neurobiology and progression of Alzheimer’s disease and other dementias. “These experiences will ultimately prepare me to become a well-rounded aging investigator, capable of making meaningful contributions to the field of aging research,” Queen said. She also credits her mentors and collaborators — Ronald Cohen, Ph.D.; Adam Woods, Ph.D.; Steven DeKosky, M.D.; Ruogu Fang, Ph.D.; Joseph Gullett, Ph.D.; and Glenn Smith, Ph.D. — with supporting her as an early career scientist. “It really takes a village to get here!” Queen said.
Holiday Anxiety Is Real — Here’s How People Can Actually Stay Sane This Season
The holidays promise joy, warmth, and “quality time,” but for many people they also deliver a cocktail of stress, expectations, forced cheer, family politics, and receipts longer than a CVS bill. Between travel chaos, financial pressure, social burnout, and attempting to assemble toys designed by engineers who clearly hate humans, holiday anxiety is soaring. The good news: experts who study mental health, behaviour, and stress management say there are ways to keep your nerves intact — and maybe even enjoy yourself along the way. Why the Holidays Stress People Out (Science Says It’s Not Just You) Adults report higher levels of stress in November and December than almost any other time of year. Common triggers include: Financial expectations: gifts, gatherings, travel, meals, and the sudden belief that every present needs to be “meaningful.” Time pressure: too much to do, too few days on the calendar. Social overload: introverts, extroverts, and “I’m-just-here-for-the-food-verts” all feel it. Family dynamics: every family has at least one person who always “starts something.” Nostalgia vs. reality: the pressure to create a “perfect holiday,” despite the fact that perfect holidays only exist in movies and greeting cards. Experts note that people often skip their routines (sleep, exercise, healthy meals) and then wonder why their stress spikes. The season demands more of people while simultaneously removing their coping mechanisms. Practical Ways to Reduce Holiday Anxiety — Backed by Psychology (and Common Sense) 1. Lower the Bar: “Good Enough” Is a Holiday Gift to Yourself Researchers consistently find that perfectionism fuels anxiety. A store-bought pie, a slightly messy house, or wrapping gifts in whatever paper you can find at 11 p.m. will not derail the season. 2. Set Boundaries (Even With the Loud Relatives) Experts often emphasize that saying “no” is one of the most effective stress-management tools. Fewer events, fewer obligations, fewer emotional landmines. 3. Budget Before You Shop Financial therapists note that anxiety drops when people pre-set limits and stick to them. You don’t need a MasterCard bill that arrives in January carrying the emotional weight of a Greek tragedy. 4. Protect Your Recharge Time A short walk, fresh air, or 10 minutes of solitude is not selfish — it’s psychological maintenance. Mental-health researchers recommend intentionally scheduling downtime before the calendar fills itself. 5. Keep Expectations Realistic Not every moment will be magical. Not every conversation will be smooth. Not every plan will unfold as imagined. Experts say acceptance, not forced positivity, lowers stress significantly. 6. Focus on Meaning, Not Perfection Studies show that people feel calmer when they shift their focus toward connection, gratitude, and small moments rather than elaborate performances of holiday cheer. Holiday Angles for Journalists The psychology behind holiday anxiety — what triggers it and why it’s so universal How family systems and old patterns surface at holiday gatherings The economics of holiday stress — debt, spending pressure, and emotional spending How introverts (and extroverts) navigate holiday overload differently Why holiday nostalgia makes people emotionally sensitive Healthy boundary-setting during family events How immigrant, multicultural, and blended families are reshaping holiday expectations Let's get you connected to an expert. The holiday season is increasingly fast-paced, commercialized, and socially demanding. Many people feel pressure to present a perfect life at a time when burnout, financial strain, and mental-health challenges are higher than ever. Helping audiences understand holiday stress — and giving them practical, research-grounded strategies — can make a measurable difference in their emotional well-being. For journalists covering mental health, family dynamics, holiday culture, or stress-management trends, ExpertFile’s roster of psychologists, counsellors, behavioural scientists, and wellness experts can offer insights, interviews, and real-world advice to support your reporting. Find your expert here: www.expertfile.com
“Lake Health Under the Microscope: RPI Researcher Offers First Real-World Look at Herbicide Impact”
In a recent Rensselaer Polytechnic Institute news release “RPI Collaborates on First-of-its-Kind Research Study to Keep New York Lakes Healthy,” Dr. Kevin Rose is featured as the essential expert behind an unprecedented field study of the aquatic herbicide florpyrauxifen-benzyl (FPB / ProcellaCOR) in New York lakes. As Director of the Darrin Fresh Water Institute (DFWI) at RPI, Rose helped lead the research team that examined long-term, real-world behaviour of the herbicide—discovering that while it disappears rapidly from open water, it lingers in lake-bed sediments for over a year and even spreads beyond original treatment zones. Rose’s involvement highlights his role in translating cutting-edge freshwater science into actionable insights for lake managers, regulators and communities. “New products are occasionally introduced into ecosystems as we work to prevent harm from threats like invasive species,” says Rose. “Many of these tools can bring tangible benefits, but it’s essential to understand their long-term impacts and potential unintended consequences.” Dr. Rose’s leadership brings clarity to an issue that can easily be oversimplified in public debate. By grounding the study in real-world field data rather than controlled laboratory assumptions, he provides a more accurate picture of how aquatic herbicides travel, transform, and linger in lake systems. His work highlights why science-based lake management — informed by long-term monitoring — is critical for maintaining the health, resilience and recreational value of New York’s freshwater ecosystems. For journalists covering invasive species, lake health, climate resilience, herbicide use or the future of freshwater ecosystems, Dr. Kevin Rose is an essential source. He brings both scientific authority and real-world relevance to a topic that affects communities, policy decisions and environmental outcomes across the state. Click on his icon now to arrange an interview today.
How UF researchers are helping Floridians to build resilience
When Hurricane Idalia hit the Big Bend region of Florida in 2023, Jeff Carney and his team were watching. A coalition of architects, planners, and landscape architects led by Carney worked closely with the tiny Gulf island of Cedar Key, which is particularly vulnerable to hurricanes, to prepare for this moment. The researchers had modeled for city officials how a major storm would flood the city’s core services. “Idalia caused flooding exactly where the maps said it would, including city hall, the historic downtown, older homes, and many streets,” Carney said. After the storm, Cedar Key moved city hall to higher ground, as outlined in the plan. And just in time. Barely a year later, Cedar Key was hit even harder by Hurricane Helene. Between the storms, Carney’s group had worked with the city to refine their storm preparation. The new plan focused more on resilience-boosting projects, like improving drainage around the city. Cedar Key finalized their plans just weeks before Helene. “A lot of the projects we put forward in this plan are in the process of seeking additional funding after Helene,” Carney said. A professor of architecture at the University of Florida, Carney directs the Florida Institute for Built Environment Resilience, or FIBER. A research institute in UF’s College of Design, Construction and Planning, FIBER engages with communities to understand how the designs of buildings and cities expose Floridians to risks — not just storms, but also excessive heat, poor air quality, even a lack of health care. FIBER faculty then work with cities to mitigate these hazards. By preparing for emergencies, upgrading buildings, and providing targeted services, communities across Florida are bolstering the resilience of their residents, all with expert help from UF researchers. Preparing to weather big storms That kind of resilience is especially important for some of Florida’s most vulnerable residents. Older and poorer Floridians face higher-than-average risks from natural disasters and other environmental hazards. That vulnerability was apparent in Cedar Key as it weathered the last two hurricane seasons. Centered around aquaculture and tourism, Cedar Key seems in many ways to be thriving. Yet, with the feel of a small fishing village, roughly 13% of its nearly 1,000 full-time residents are considered to be financially disadvantaged, according to U.S. Census data. Poorer residents may also have a harder time walking away from coastal communities devastated by storms. With savings invested into damaged homes and jobs tied to the local area, less-wealthy residents often have no choice but to stay and rebuild. Carney’s team helps people see the opportunities for rebuilding with a clearer vision of a future where rising sea levels are a reality. “You capture people’s attention and excitement when you can offer them options that are not doomsday,” said Carney, who has been working in Pine Island and Matlacha in Southwest Florida’s Lee County to help residents affected by recent storms prepare for the future. “There’s a lot of opportunity for rebuilding as long as you don’t try to have it be business as usual. We help people see how redevelopment can provide a community asset for the future,” he added. “We try to paint the picture of all the possible scenarios so people can find their own comfort level. It puts them in the driver’s seat.” Aging with fewer choices While that kind of agency is empowering, it can be harder to come by as people retire and find themselves facing tough decisions on fixed incomes. That’s a common experience in Florida, which has a larger proportion of seniors than any other state, due in part to its popularity as a retirement destination. More than 10% of Americans over the age of 65 live below the federal poverty line. This population often finds themselves moving to less safe places as they age. “Older people with more social vulnerability — such as low income or poor health — have a tendency to move to worse places,” said Yan Wang, Ph.D., a professor of urban and regional planning in the UF College of Design, Construction and Planning. “They are more likely to move to places with less economic stability, with less access to health care, and with more exposure to extreme weather.” Wang and postdoctoral researcher Shangde Gao, Ph.D., recently published a study that uncovered the risks low-income seniors face when moving. Compared to their peers with higher incomes, poorer seniors were more likely to end up in neighborhoods lacking access to health care facilities. To address these kinds of disparities, UF Health has launched mobile health units that can reach people who have trouble traveling to health centers, including low-income seniors. The Mobile Outreach Clinic provides primary care and referrals for specialists. And the newly launched cancer screening vehicle, which serves all of North Central Florida, can help catch the disease in the early stages when it is easiest to treat. It’s not just finding health care that’s a struggle. Older adults from minority racial groups were also more likely to increase their exposure to poor air quality and to natural disasters like flooding and hurricanes when they moved, Wang and Gao discovered. “If we understand the trend and causes of these income disparities better, we could better prepare some places with more health care resources or better hurricane preparation for these older populations,” Wang said. Building safer, healthier homes That preparation is happening right now in Jacksonville, not just for big storms but for the everyday nuisances and hazards — even the ones people are exposed to in their own homes — that threaten people’s lives and health. The Jacksonville Restore and Repair for Resiliency research initiative was founded to address these kinds of risks while improving energy efficiency. The R3 initiative, as it’s known, is a home remodeling program organized by a slew of community partners and supported by FIBER research on the impact of housing quality on health. The project aims to keep longtime residents of the Historic Eastside in their homes while addressing the home hazards that put people at risk for medical complications like asthma attacks and emergency room visits. “The designs of buildings impact human health and well-being,” said Lisa Platt, Ph.D., the lead researcher with the Jacksonville program and an assistant professor of interior design with FIBER. “Our research is helping the team prioritize the home improvements that will benefit residents’ health the most.” Jacksonville’s Eastside faces a lot of challenges. The population is older than the city as a whole. Roughly three-quarters of residents are over the age of 60, and the poverty rate is over 40%. Yet more than a third of residents own their own homes. Often passed down from previous generations, some of the houses are now over a century old and struggle to keep the intense Florida heat and humidity out. Platt’s research has modeled how things like high heat days — only growing more common in a warming world —are associated with increased emergency room use and poor perceived physical and mental health. That science helps guide the community partners to prioritize providing air conditioning and better insulation to protect Historic Eastside residents. To date, the Jacksonville program is targeting up to 70 homes for renovation. Builders have fixed holes in roofs, replaced drafty windows, and hooked up air conditioning for the first time, keeping the heat and humidity at bay and protecting residents’ health. Now the R3 initiative is applying for federal grants to expand the program. “I think the best way to approach this kind of community action research is with humility and outreach. Community members have amazing expertise. I always say, ‘I can build models to analyze the problem, but you are the ones that are the experts,’” Platt said. “That’s where UF can be most useful, is coming in from a perspective of service.”
Taking the Reins of Holiday Stress
Ho-ho-ho and a bottle of Tums? From feeding a crowd to juggling travel and schedules and managing finances during a challenging economic time, the holidays can feel like a pressure cooker. But University of Rochester psychologist Jeremy Jamieson, one of the country’s leading researchers on stress, says the pressures of the season of giving (and giving and giving and giving some more) can be mitigated by mentally reframing the stress we feel. In other words, what matters is how we interpret our stress. Jamieson’s Social Stress Lab studies a technique called "stress reappraisal": the practice of reframing stress responses as helpful rather than harmful. According to researchers, people can learn to treat their signs of stress — the racing heart, the sweaty palms, the mental sense of urgency — as tools that prepare them to meet a challenge rather than a sign that they’re falling apart. “Stress reappraisal isn’t about calming down or shutting stress off,” Jamieson says. “It’s about changing the meaning of your stress response. If you view the demands as something you can handle, your body shifts into a challenge state, which is a more adaptive, productive kind of stress.” The research behind this approach has grown considerably. In one of Jamieson’s studies, published in Journal of Experimental Psychology: General, the Social Stress Lab trained community college students to reinterpret stress as a resource. The results were striking: students experienced less anxiety, performed better on exams, procrastinated less, were more likely to stay enrolled, and approached academic challenges with healthier physiological responses. Newer findings from the lab also suggest that stress reframing can support people facing workplace pressures, caregiving responsibilities, and major life transitions. In short, stress isn’t the enemy of our well-being during the holidays. The real culprit is believing stress is dangerous. Jamieson is available for interviews and can explain how people can use stress reappraisal strategies to navigate holiday pressures — and other high-demand moments — with more confidence, better health, and better outcomes. Click on his profile to connect with him.
