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From Saver to Spender: Navigating the Retirement Mindset Shift
Let’s start with a familiar—and slightly ridiculous—scene: a retired couple with $750,000 safely tucked away in investments, quietly nibbling no-name tuna on toast while muttering, “We just can’t afford steak anymore.” Sound absurd? Sadly, it’s not fiction. Despite having ample savings, many retirees live with perpetual financial anxiety, clinging to their nest egg as if it were their last roll of toilet paper during a pandemic. Meanwhile, they try to survive solely on government pensions, making life unnecessarily stressful and, let’s face it, a bit joyless. I've wrestled with this as someone who entered retirement earlier than expected. Years in finance taught me how to budget, invest, and plan, but transitioning from saving to spending required a whole new mindset. I learned quickly that being financially “prepared” doesn’t mean you’re emotionally or psychologically ready to spend. So, what’s going on here? The Hypothesis: Individuals Prefer Spending Income Rather Than Saving Retirees prefer spending income (pensions or annuities) rather than withdrawing from savings or investment accounts. This isn’t just a quirky behavioural trend—it’s a deeply ingrained bias, and neuroscience supports it. Research by Michael S. Finke, a professor at The American College and noted researcher in retirement economics, revealed that retirees tend to spend most of their guaranteed income but only withdraw about half of their savings. In his words: “Retirees spend lifetime income, not savings.” The implication is clear: it’s not about how much money you have but how it feels to use it. This is partly due to what behavioral economists call “mental accounting.” We categorize our money into imaginary buckets: income is for spending, and savings are for safekeeping. Unfortunately, this can lead to financially irrational and highly risk-averse behaviors, such as eating cat food while having six figures in a TFSA. The Neuroscience of Spending Fear Add a little neuroscience, and the story deepens. As we age, changes in the brain, particularly in the prefrontal cortex, can affect how we assess risk and manage uncertainty. This can lead to: • Increased loss aversion: We more acutely feel the pain of spending or loss. • Decision paralysis: We delay or avoid withdrawals, even when reasonable. • Heightened anxiety about the future: We fear running out more than we enjoy spending in the present. This Fear of Running Out (FORO), which I’ve written about in a previous post, keeps many retirees in a defensive crouch, emotionally hoarding their savings rather than using them to enrich the years they worked so hard to reach. It’s no wonder money stress impacts us so deeply—our brains are wired that way. From an evolutionary perspective, our minds are designed to fear scarcity because running out of resources once posed a real danger. When we perceive that threat today, whether it’s a dip in our investments or rising grocery bills, our brain shifts into fight-or-flight mode and begins releasing cortisol—the stress hormone that heightens our anxiety. Then our amygdala, that little alarm system in our brain designed to protect us from danger, can’t differentiate between a financial crisis and a sabre-toothed tiger. So, it reacts similarly, nudging us toward quick, often irrational decisions. Sometimes that means freezing and doing nothing; other times, it leads to panicking and regretful choices. Understanding how our brains function under financial stress allows us to step back, breathe, and make better, calmer decisions—ones that serve us, not scare us. Retirement can be wonderfully freeing—no more commutes, no more meetings—but let’s be honest: it also comes with a significant shift in financial responsibility. Without that steady paycheck, it’s completely normal to feel uneasy about how you'll manage your money, especially when unexpected expenses arise. Sure, there are mindset tools and mental prep strategies that can help ease that existential “What now?” feeling before retirement. But let’s be specific—here are the real, concrete financial stressors that keep many retirees awake at night: • Not Enough Income: One of the biggest fears? Your savings won’t stretch far enough to support the life you want—or handle surprises. • Healthcare Costs: As we age, medical expenses climb. It’s not just the big stuff, either. Even prescriptions and dental bills can blow a hole in your budget. • Market Ups and Downs: A stock market dip can uniquely affect retirees. Observing your investments fluctuate can cause genuine anxiety regarding your income, especially in today’s “trade war” environment. • Inflation: We all feel it. The gradual rise of higher prices erodes your purchasing power, making that carefully saved nest egg feel less secure. • Living Longer Than Planned: It's both a blessing and a challenge. If you're healthy and living well into your 90s (and many do), the big question becomes: will your money last as long as you do? Here’s the good news: when you acknowledge these risks and build a plan around them, you exchange fear for control. And with power comes clarity, confidence, and significantly less stress. That’s when you can truly enjoy retirement—on your terms. How to Flip the Script: Make Savings Feel Like Income So, how can retirees overcome this psychological hurdle? Here are 3 powerful strategies: 1. Create Artificial Income Streams Turn a portion of your savings into predictable, automatic income. This could mean: • Setting up regular monthly withdrawals from an RRIF • Purchasing an annuity • Utilizing a bucket strategy, in which one portion of savings is maintained in a cash-like account to replicate a paycheck When money shows up like a salary, you’re more likely to feel permission to spend it. 2. Use Home Equity as a Back-Up Income Source A secured line of credit (HELOC) or a reverse mortgage can serve as a “Plan B” or income buffer. Knowing that the funds are available can alleviate anxiety, whether you use them or not. 3. Involve Family in Income Planning Sometimes, the best way to reframe a spending decision is through conversation. Adult children or trusted advisors can help develop a spending strategy that feels both secure and reasonable. Families can be invaluable in helping you design: • Emergency funding plans for unexpected expenses like healthcare • Gifting strategies (Want to help the kids or grandkids? Do it while you’re alive to see the joy!) • Income simulations replacing a regular paycheck Open conversations can also help uncover mismatched expectations. For instance, some older adults worry that spending their savings will leave less of an inheritance for their children, which might cause disappointment. But in many cases, their children would much rather see their parents use that money to care for themselves and enjoy their retirement years. The great irony of retirement? The hardest part isn’t building wealth; it’s allowing yourself to enjoy it. So, let’s retire the notion that frugality is forever. Replace the guilt of spending with the confidence of an income strategy. And if you're facing your savings with trepidation, remember: cat food may be a pantry staple for your pet, but it’s no reward for 40 years of hard work. Retirement isn't merely a financial phase—it’s a shift in mindset. That shift begins when we stop hoarding and start living.
Lingam, Mirsayar, van Woesik Recognized as ‘Top Scholars’ by ScholarGPS
Florida Tech faculty members Manasvi Lingam, Mirmilad Mirsayar and Robert van Woesik were named “Top Scholars” by ScholarGPS for their contributions to academia over the last five years. Lingam, who studies astrobiology in the Department of Aerospace, Physics and Space Sciences, was ranked No. 9,562 in the world across all disciplines and nearly 15 million ranked scholars, placing him in the top 0.06% of the platform’s scholars globally. He faired strongly in other areas, including: No. 1,919 (0.1%) among 1.9 million scholars in physical sciences and mathematics No. 491 (0.09%) among 545,000 scholars in physics No. 42 (0.31%) among 13,590 scholars in the specialty area planets ScholarGPS cited Lingam’s strong publication record, the impact of his work and the notable quality of his scholarly contributions. He’s published 50 times since 2020, exploring the possible origins, evolution and future of life in the universe. Mirsayar, who studies aerospace engineering, was ranked No. 35,155 across all disciplines and nearly 15 million ranked scholars, placing him in the top 0.24% of scholars globally. He’s published 11 times between 2020-2023, covering topics such as fracture mechanics and solid mechanics. Other highlights include: No. 6 (0.06%) among 8,601 scholars in fracture mechanics No. 49 (1.7%) among 2,879 scholars in solid mechanics No. 315 (1.8%) among 16,847 scholars in reinforced concrete Van Woesik, who studies coral reef ecology, was ranked No. 58,081 across disciplines, putting him in the top 0.39% of nearly 15 million scholars globally. He’s had 22 publications since 2020, covering topics such as coral bleaching, thermal stress and climate change. Van Woesik, who studies coral reef ecology, was ranked No. 58,081 across disciplines, putting him in the top 0.39% of nearly 15 million scholars globally. He’s had 22 publications since 2020, covering topics such as coral bleaching, thermal stress and climate change. Other highlights include: No. 5,282 (0.32%) among 1.7 million scholars in life sciences No. 336 (0.38%) among 88,930 scholars of ecology and evolutionary biology No. 191 (0.95%) among 19,998 scholars of global change. ScholarGPS uses artificial intelligence and data mining technologies to rank individuals, academic institutions and programs. Scholars are ranked by their number of publications, their citations, their h-index and their ScholarGPS® Ranks, which includes all three metrics. If you're interested in connecting with Manasvi Lingam, Robert van Woesik and Mirmilad Mirsayar- simply contact Adam Lowenstein, Director of Media Communications at Florida Institute of Technology at adam@fit.edu to arrange an interview today.
New study shows alarming rate of potential species extinction due to climate change
A recent study authored by the University of Connecticut's Mark Urban found that close to one third of species across the globe would be at risk of extinction by the end of the century if greenhouse gases continue to increase at current levels. His study, published in the journal Science, looked at more than three decades of biodiversity and climate change research. The findings are alarming. The study found that if global temperatures rise to 2.7 degrees Fahrenheit (1.5 degrees Celsius) above the pre-industrial average temperature, exceeding the target of the Paris Agreement, extinctions would rapidly accelerate — especially for amphibians; species in mountain, island and freshwater ecosystems; and species in South America, Australia and New Zealand. Earth has already warmed about 1.8 F (1 C) since the Industrial Revolution. Climate change causes shifts in temperatures and precipitation patterns, altering habitats and species interactions. For instance, warmer temperatures have caused monarch butterfly migration to mismatch with the blooming of plants they pollinate. Many animal and plant species are shifting their ranges to higher latitudes or elevations to follow more favorable temperatures. While some species might adapt or migrate in response to changing environmental conditions, some can't survive the drastic environmental changes, resulting in population declines and sometimes extinction. Global assessments have predicted rising extinction risks for over a million species, but scientists have not clearly understood how exactly this growing risk is linked to climate change. The new study, published Thursday (Dec. 5) in the journal Science, analyzed over 30 years of biodiversity and climate change research, encompassing over 450 studies of most known species. If greenhouse gas emissions are managed in accordance with the Paris Agreement, nearly 1 in 50 species worldwide — an estimated 180,000 species — will be at risk of extinction by 2100. When the climate model's temperature is increased to a 4.9 F (2.7 C) rise, which is predicted under current international emissions commitments, 1 in 20 species around the world would be at risk of extinction. Hypothetical warming beyond this point makes the number of species at risk rise sharply: 14.9% of species were at risk of extinction under a 7.7 F (4.3 C) warming scenario, which assumes high greenhouse gas emissions. And 29.7% of all species would be at risk of extinction under a 9.7 F (5.4 C) warming scenario, a high estimate, but one that is possible given current emissions trends. The increase in the number of species at risk increases steeply beyond the 1.5 C warming target, study author Mark Urban, a biologist at the University of Connecticut told Live Science. "If we keep global warming to below 1.5 C, in accordance with the Paris Agreement, then the [extinction] risk from today to 1.5 C is not a large increase," Urban said. But at a 2.7 C rise, the trajectory accelerates. Species in South America, Australia and New Zealand face the greatest threats. Amphibians are the most threatened because amphibians' life cycles depend heavily on weather, and are highly sensitive to shifting rainfall patterns and drought, Urban said. Mountain, island and freshwater ecosystems have the most at-risk species, likely because these isolated environments are surrounded by inhospitable habitats for their species, making it difficult or impossible for them to migrate and seek more favorable climates, he added. Limiting greenhouse gas emissions can slow warming and halt these growing extinction risks, but understanding which species and ecosystems are most affected by climate change can also help target conservation efforts where they're needed most. Urban hopes the results have an impact on policymakers. "The main message for policymakers is that this relationship is much more certain," Urban said. "There's no longer the excuse to do nothing because these impacts are uncertain." December 5, 2024 - Live Science This is an important topic, and if you're a journalist looking to learn more, we can help. Mark Urban is an international award-winning scientist; a professor of ecology and evolutionary biology and the Arden Chair Ecology & Evolutionary Biology at UConn; and a global expert on climate change impacts on nature. He is available to speak with media - simply click on his icon now to arrange an interview today.
Trillions of Cicadas are emerging ... let our experts explain what's happening.
It's an epic emergence ... and it's got everyone's attention. This year, we're seeing a historic double emergence of the 13-year and 17-year cicadas and i's why we've compiled a Spotlight to help if you're covering or just curious about all the 'buzz' happening across parts of America. The periodic emergence of cicadas is a natural phenomenon that captures public imagination and scientific interest alike. This event matters to the public not only because of its rarity and the sheer scale of cicada populations but also due to its significant ecological impact and cultural fascination. The emergence of cicadas offers numerous captivating story angles for journalists to explore, appealing to a broad audience: The biological and ecological significance of cicadas in their ecosystems The science behind the cicadas' unique life cycle and emergence patterns The impact of cicada emergence on local agriculture and ecosystems Cultural and historical perspectives on cicadas in folklore and tradition How climate change and environmental factors influence cicada populations Tips and advice for the public on managing cicada interactions and enjoying the spectacle As we witness the emergence of cicadas, journalists have an opportunity to delve into these multifaceted narratives, uncovering the wonders of this natural event and its broader implications for science, culture, and the environment. Connect with an Expert about the Cicada Emergence: John R. Cooley, MBA, Ph.D. Associate Professor in Residence · University of Connecticut David Rothenberg Distinguished Professor · New Jersey Institute of Technology Howard Russell Entomologist · Michigan State University Gary Parsons Academic Specialist · Michigan State University Keith Clay Professor and chair of the Department of Ecology and Evolutionary Biology · Tulane University To search our full list of experts visit www.expertfile.com Photo Credit: Bill Nino
• Has potential to help geneticists investigate vital issues such as antibacterial resistance • Will untangle the genetic components shared due to common ancestry from the ones shared due to evolution • The work is result of a four-year international collaboration. Aston University has worked with international partners to develop a software package to help scientists answer key questions about genetic factors associated with shared characteristics among different species. Called CALANGO (comparative analysis with annotation-based genomic components), it has the potential to help geneticists investigate vital issues such as antibacterial resistance and improvement of agricultural crops. This work CALANGO: a phylogeny-aware comparative genomics tool for discovering quantitative genotype-phenotype associations across species has been published in the journal Patterns. It is the result of a four year collaboration between Aston University, the Federal University of Minas Gerais in Brazil and other partners in Brazil, Norway and the US. Similarities between species may arise either from shared ancestry (homology) or from shared evolutionary pressures (convergent evolution). For example, ravens, pigeons and bats can all fly, but the first two are birds whereas bats are mammals. This means that the biology of flight in ravens and pigeons is likely to share genetic aspects due to their common ancestry. Both species are able to fly nowadays because their last common ancestor – an ancestor bird - was also a flying organism. In contrast, bats have the ability to fly via potentially different genes than the ones in birds, since the last common ancestor of birds and mammals was not a flying animal. Untangling the genetic components shared due to common ancestry from the ones shared due to common evolutionary pressures requires sophisticated statistical models that take common ancestry into account. So far, this has been an obstacle for scientists who want to understand the emergence of complex traits across different species, mainly due to the lack of proper frameworks to investigate these associations. The new software has been designed to effectively incorporate vast amounts of genomic, evolutionary and functional annotation data to explore the genetic mechanisms which underly similar characteristics between different species sharing common ancestors. Although the statistical models used in the tool are not new, it is the first time they have been combined to extract novel biological insights from genomic data. The technique has the potential to be applied to many different areas of research, allowing scientists to analyse massive amounts of open-source genetic data belonging to thousands of organisms in more depth. Dr Felipe Campelo from the Department of Computer Science in the College of Engineering and Physical Sciences at Aston University, said: “There are many exciting examples of how this tool can be applied to solve major problems facing us today. These include exploring the co-evolution of bacteria and bacteriophages and unveiling factors associated with plant size, with direct implications for both agriculture and ecology.” “Further potential applications include supporting the investigation of bacterial resistance to antibiotics, and of the yield of plant and animal species of economic importance.” The corresponding author of the study, Dr Francisco Pereira Lobo from the Department of Genetics, Ecology and Evolution at the Federal University of Minas Gerais in Brazil, said: “Most genetic and phenotypic variations occur between different species, rather than within them. Our newly developed tool allows the generation of testable hypotheses about genotype-phenotype associations across multiple species that enable the prioritisation of targets for later experimental characterization.” For more details about studying computer since at Aston University visit https://www.aston.ac.uk/eps/informatics-and-digital-engineering/computer-science
Public lecture: how can we have a good future with artificial intelligence?
Public lecture: how can we have a good future with artificial intelligence?AI expert and educator Professor Anikó Ekárt to discuss one of today’s most provocative topics Lecture will take place on 28 February at Aston University Talk to explore artificial intelligence’s capabilities, benefits and pitfalls. The potential impact of artificial intelligence (AI) on our daily lives will be explored in a public lecture at Aston University. The University is inviting the public onto its campus on Tuesday 28 February to hear Professor Anikó Ekárt discuss one of today’s most provocative topics. Research into AI began in the1950s and since then it has played an increasing role in daily lives, such as chatbots and digital assistants. As an AI researcher and educator, Professor Ekárt will take a pragmatic view of the technology, arguing that society will benefit from it – but only if it is used responsibly. She said: “Digital assistants based on speech recognition are now broadly accepted and successfully embedded in many business services. “However, the most recent release of a chatbot with amazing writing capabilities has divided the world; some are relieved that their job may now become substantially easier, but others have questioned the impact of this on education. “In the lecture, I’ll suggest three key directions; responsible use of AI, exploring many AI techniques rather than focusing on just one, and educating the public about AI’s capabilities, benefits and pitfalls.” She will illustrate the success and further potential of less well-known AI techniques, such as evolutionary computation, genetic programming and symbolic regression, based on her 25 years of research. Anikó who is a professor of artificial intelligence, joined Aston University in 2006 as a lecturer. She leads the artificial intelligence research theme within the School of Informatics and Digital Engineering. Her research interests are centred around AI methods and their application, focusing on evolutionary algorithms and genetic programming. She has successfully contributed to applications of AI techniques to health, engineering, transport, and art. In 2022 she was the winner of the Evo* Award for Outstanding Contribution to Evolutionary Computation in Europe. The free event will be taking place on 28 February from 6 pm to 8 pm and will be followed by a drinks reception. To sign up for a place visit https://www.eventbrite.co.uk/e/an-inaugural-lecture-by-professor-aniko-ekart-tickets-516518760517
Aston University computer scientist joins first UK-wide Young Academy
The new UK Young Academy is a network of early career researchers and professionals It has been established to tackle local and global issues Dr Alina Patelli is a senior lecturer in computer science at Aston University. Aston University is delighted to announce that Dr Alina Patelli, a senior lecturer in computer science in the College of Engineering and Physical Sciences, is among the first members of the new UK Young Academy – a network of early career researchers and professionals established to help tackle local and global issues and promote meaningful change. Dr Patelli specialises in evolutionary computation, specifically, genetic programming and its applications in smart cities, with a focus on traffic modelling and prediction. Her interests also include autonomic, knowledge-based systems, as well as self-adaptation and self-organisation in computing. As part of the first cohort of 67 members, announced on 10 January by UK and Ireland National Academies, Dr Patelli will have the opportunity to help shape the strategy and focus of this new organisation, based on areas that matter to them. Along with their fellow members from across academia, charity organisations and the private sector, they will have the chance to inform local and global policy discussions, galvanising their skills, knowledge, and experience to find innovative solutions to the challenges facing societies now and in the future. The UK Young Academy has been established as an interdisciplinary collaboration with prestigious national academies: the Academy of Medical Sciences, British Academy, Learned Society of Wales, Royal Academy of Engineering, Royal Irish Academy, Royal Society of Edinburgh, and the Royal Society. It joins the global initiative of Young Academies, with the UK Young Academy becoming the 50th to join the Young Academy movement. Dr Alina Patelli said: “I am anticipating the start of my service as a member of the UK Young Academy with great enthusiasm. I highly value the opportunity to collaborate with colleagues from across the spectrum of science and governance in order to make a significant impact on the UK’s approach to tackling national and international challenges. “The UK Young Academy is perfectly placed to substantively improve the life of human communities everywhere and I am honoured to contribute towards the achievement of that goal.” Professor Stephen Garrett, executive dean of the College of Engineering and Physical Sciences at Aston University, said: “I would like to congratulate Alina on being selected as one of the first members of the UK Young Academy. It is a fantastic achievement to have been selected to join this talented and diverse cohort. “I wish her every success and look forward to seeing the fruits of her work with the Young Academy.” The successful applicants officially took up their posts on 1 January 2023, and membership runs for five years. It is expected that the next call for applications will open in 2023.
Why pollen season arrives earlier each year: Q&A with Georgia Southern biology professor Alan Harvey
As a seasonal allergy sufferer, Alan Harvey, Ph.D., biology professor in Georgia Southern University's College of Science and Mathematics, was curious what types of pollen were causing his sniffles and sneezes. As a scholar and educator, Harvey did what any curious mind would do — he began exploring the types of pollen in the region while trying to narrow down the culprit of his symptoms. What he didn’t expect to find was an interesting narrative that led to a collaborative art-science project and soon a full exhibit on pollen at the Georgia Southern Museum. Read on to learn more about Harvey’s research on pollen, upcoming exhibit, “Pollen Nation,” and why pollen season begins earlier each year. Q: Tell us about yourself — Who are you? What do you teach? How long have you been a professor here? A: I’m a professor and faculty member at Georgia Southern. This is my 23rd year here and I teach a variety of biology courses including field biology, invasive species and evolutionary ecology. Q: How long have you studied pollen and what interested you in studying this? A: I’ve not actually studied pollen for that long. I really wanted to figure out how to deal with my own severe allergies to it. Q: What is the most common pollen in our region? A: The most common pollen depends on the time of year. Any plant that produces flowers will produce pollen. But if you’re looking at a plant with nice, pretty flowers, that pollen is not going to be what you’d normally encounter or notice causing your allergies because that pollen is being transmitted by insects or other pollinators who are specifically being attracted by the pretty flowers. The kind of pollen that you do encounter is from plants that you wouldn’t even notice have flowers like pine, oak, maple and birch trees. Those are all wind-pollinated, so they don’t need pretty flowers. They’re not trying to attract anybody, they just have to produce a lot of pollen for the wind to blow around. This time of year, pine and oak are going to be the two common pollens. Q: When does pollen season usually begin in our region? A: It starts in the early spring and ends in late fall. And again, it’s different plants blooming during the course of that year. So this time of year, as I mentioned, is going to be pines and oaks. In the middle of the year, it will be more grasses, and toward the end of the year, it’s going to be things like ragweed. What scientists have discovered is that every year the pollen season starts earlier and lasts longer. Q: Why will it begin early this year? A: This is where we get into a sort of controversial subject, but basically, climate change issues are the main culprit in a couple of ways. First of all, plant growth is tied to temperature. So the earlier temperatures get warmer, the earlier in the year the plant is going to start actively growing and producing pollen. So, warmer temperatures are leading to earlier seasonal starts. Temperatures are warmer than they were at this time a few decades or 100 years ago. Q: Why is pollen important? A: It’s an essential component of sexual reproduction in plants, so in the absence of pollen, we would lose many, if not virtually all of the plants around us that we depend upon. It’s fundamentally important to life on Earth that those plants are able to continue to reproduce. In terms of its impact on known pollinators, when a bee visits a flower, it is, of course, looking for nectar that the plants produce, but they also are looking for pollen. So it’s a food source for a lot of animals as well. Q: What is an interesting fact or little-known fact about pollen? A: Pollen plays a role in some various religious ceremonies of other cultures. The one I’m most familiar with is in the Navajo Nation. In particular, corn pollen is at the core of a great many, if not virtually all, of the Navajo religious ceremonies. It’s also been used to solve crimes and there is a whole field of forensic pollen analysis. It’s also an important tool for paleontologists, anthropologists and archaeologists who are trying to understand past civilizations. Because pollen is incredibly resilient, it may be small, but it is darn near indestructible. You would need a pretty powerful microscope to see any of these, but with that tool, you can study pollen grains that are hundreds of millions of years old. They will last that long. They’re so, so tough. Q: Tell us about the new mural in the Biological Sciences Building — What inspired it? Who helped work on it? A: A number of years ago, a colleague in the Betty Foy Sanders Department of Art, Jeff Shmucki, and his wife Wendy Deschene and I came together and started collaborating on art-science projects because we realized we both are observers of the natural world, we just approach it from somewhat different ways. One of those projects was creating a mural of ecologically or environmentally important organisms surrounding students that they may not be aware of. For the first mural, we looked at salamanders of Georgia. We got a bunch of photographs of the salamanders and we cut them away from the background, blew them up and installed the murals. It was a big community project and students got involved in all phases of it. So I thought, ‘Well, that was really successful.’ What can we do next? And because I was in the middle of allergy attacks, I thought, ‘Well, what about pollen?’ Q: Tell us how the mural inspired your upcoming exhibit, “Pollen Nation,” at the Georgia Southern Museum. A: There are a lot of interesting layers to this basic idea of pollen that can’t really be shown in a mural, and the Georgia Southern Museum is a perfect place to explore those kinds of ideas in one common theme. Q: What can people expect to see at the “Pollen Nation” exhibit? A: There’ll be a lot of big, spectacular images of pollen and the plants that produce them. It’s going to be a mix of striking imagery and some interactive sort of game-like activities. You’ll also have the opportunity to look at some of the pollen in a microscope. Interested in learning more? Let us help. Allan Harvey, Ph.D., is available to answer your questions - simply reach out to Georgia Southern Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
UCI scientists study the effects of an oil spill on Orange County's coastline
Joana Tavares and Melissa Brock, a Ph.D student in ecology and evolutionary biology, are spearheading the newly formed Southern California Oil Spill Project at UCI. They are analyzing the composition and health of the phytoplankton and bacterial communities in the ocean and inland waterways, using samples collected before, during, and ultimately after the oil spill situation has played out. Also, the cleanup of the oil spill off the coast of Huntington Beach earlier this month is essentially complete, but responsibility for the spill has yet to be assigned. In the coming months, and possibly years, it will be the legal system that determines liability — and damages. Michael Robinson-Dorn, a clinical professor of law, co-associate dean for experiential education at the law school and director of UCI’s Environmental Law Clinic, joins the UCI Podcast to discuss how this spill compares to past ones, why simply shutting down offshore drilling is more challenging than it may seem and how society’s values will shape the future of oil drilling in California. For more information or to contact the researchers, email Brian Bell at bpbell@uci.edu.
It’s as if there’s an all-out war on the world’s insects – and experts from across the country are all buzzing with some very bad news. Recently, University of Connecticut’s Professor of Ecology and Evolutionary Behavior, David Wagner was featured on CBS National News in an in-depth story about the potential apocalypse the world’s insect kingdom faces. “The world's vital insect kingdom is undergoing "death by a thousand cuts," the world's top bug experts said. Climate change, insecticides, herbicides, light pollution, invasive species and changes in agriculture and land use are causing Earth to lose probably 1% to 2% of its insects each year, said University of Connecticut entomologist David Wagner, lead author in the special package of 12 studies in Monday's Proceedings of the National Academies of Sciences written by 56 scientists from around the globe. The problem, sometimes called the insect apocalypse, is like a jigsaw puzzle. And scientists say they still don't have all the pieces, so they have trouble grasping its enormity and complexity and getting the world to notice and do something. Wagner said scientists need to figure out if the rate of the insect loss is bigger than with other species. "There is some reason to worry more," he added, "because they are the target of attack" with insecticides, herbicides and light pollution… Insects "are absolutely the fabric by which Mother Nature and the tree of life are built," Wagner said. January 12 - CBS News The story is attached above – and must-read material for anyone concerned about insects and the vital role they play in just about every aspect of our world. If you’re a journalist looking to know more about this topic and would like to contact Dr. Wagner – simply click on his icon now to arrange an interview today.
