Oxybenzone in sunscreens is disrupting coral reefs, leading to international bans. Scientists are now exploring eco-friendly alternatives like mycosporine-like amino acids (MAAs) found in ocean organisms that offer potent UV-absorbing shields, antioxidants, and anti-inflammatory properties. However, regulatory hurdles and environmental concerns remain. Discover the latest research and innovations in the search for safer and more effective sunscreens.

Do you find the microscopic world fascinating? Are you interested in exploring the hidden world of microorganisms? If so, a career in microbiology might be just what you're looking for! Microbiology is the study of living organisms that are too small to be seen with the naked eye, such as bacteria, viruses, fungi, and parasites. As a microbiologist, you'll have the opportunity to explore the fascinating world of microorganisms and make important contributions to fields like medicine, agriculture, and environmental science. One of the most appealing aspects of a career in microbiology is the potential to make a real difference in the world. For example, microbiologists play a critical role in developing vaccines and treatments for infectious diseases like COVID-19. They also work to develop new agricultural techniques that can improve crop yields and reduce the use of harmful pesticides. As a microbiologist, your duties might include conducting research, analyzing data, and developing new techniques for studying microorganisms. You might also specialize in a particular area of microbiology, such as medical microbiology, environmental microbiology, or industrial microbiology. To become a microbiologist, you'll typically need a bachelor's degree in microbiology, biology, or a related field. Some popular undergraduate programs and majors include microbiology, biochemistry, and molecular biology. In addition to a strong academic background, there are several personal attributes that can be helpful in a career in microbiology. These include a strong attention to detail, excellent problem-solving skills, and the ability to work well in a team. Job prospects for microbiologists are generally strong, with opportunities available in both the public and private sectors. Some notable potential employers include the Centers for Disease Control and Prevention (CDC), the National Institutes of Health (NIH), and pharmaceutical companies like Pfizer and Johnson & Johnson. So if you're interested in exploring the fascinating world of microorganisms and making a real difference in the world, a career in microbiology might be the perfect fit for you!

Fungi are more than just pizza toppings or irritants like athlete's foot. They are a distinct life-form that plays a vital role in the health of our planet. Fungi can absorb oil spills, control insects' brains, and produce life-saving medicines like penicillin. They are also eco-warriors, essential to healthy soil and trapping CO2, potentially solving global warming on their own. Fungi are neither plant nor animal, but are genetically closer to animals than plants. They form dense fungal networks called mycelium, which plants use to communicate with each other. Fungi can also employ other organisms, like leaf-cutter ants, to do their work for them. Fungi are fascinating and adaptable, and there is still much we have yet to learn about them. By exploring the world of fungi, you can become a real fun-guy at parties and gain a deeper understanding of the world around you.

Half a million barrels of DDT waste dumped in the ocean in the 1940s and '50s remain in startlingly high concentrations, spread across a wide swath of seafloor larger than the city of San Francisco. Recent studies have linked the presence of this once-popular pesticide to an aggressive cancer in sea lions, and significant amounts of DDT-related compounds continue to accumulate in California condors and local dolphin populations. With a $5.6-million research boost from Congress, scientists and environmental nonprofits are racing to figure out the extent of the contamination lurking 3,000 feet underwater.

Silphion, a golden-flowered plant once prized by the Greeks and Romans for its medicinal and culinary uses, disappeared from the ancient world. But a professor in Turkey may have rediscovered the last holdouts of the plant, which was once valued as highly as gold. Ferula drudeana, a plant with similar characteristics, may be the modern-day version of silphion, with potential for medical breakthroughs. Explore the fascinating story of a plant that was the first recorded extinction and the search for its rediscovery.

Are you passionate about the environment and the natural world? Do you want to make a difference in the world and help preserve our planet for future generations? If so, a career in ecology might be just the thing for you! Ecologists are scientists who study the relationships between living organisms and their environment. They examine the complex systems that make up our planet, from individual species to entire ecosystems, and work to understand how they function and how they can be conserved and protected. As an ecologist, you could work in a variety of settings, from research labs to fieldwork in remote and exotic locations. You might study the migration patterns of birds, the behavior of marine mammals, or the impact of climate change on plant communities. You might work for government agencies, non-profit organizations, or private companies, helping to develop policies and strategies to protect our natural resources. Typical duties of an ecologist might include conducting field surveys and experiments, analyzing data, writing reports and scientific papers, and presenting findings to colleagues and the public. You might specialize in a particular area of ecology, such as conservation biology, wildlife management, or environmental policy. To become an ecologist, you will typically need at least a bachelor's degree in a relevant field such as biology, ecology, or environmental science. Many employers also prefer candidates with a master's degree or PhD. Popular undergraduate programs and majors include ecology, biology, environmental science, and wildlife management. Helpful personal attributes for a career in ecology include a passion for the natural world, strong analytical and problem-solving skills, and the ability to work independently and as part of a team. You should also have excellent communication skills, both written and verbal. Job prospects for ecologists are strong, with growing demand for professionals who can help address the many environmental challenges facing our planet. Potential employers include government agencies such as the US Environmental Protection Agency, non-profit organizations such as the World Wildlife Fund, and private companies such as environmental consulting firms and renewable energy companies. So if you want to make a difference in the world and help protect our planet, consider a career in ecology. With your passion and dedication, you can help ensure a brighter future for all living things on Earth.

Have you ever wandered through a forest and wondered about the secrets that lie within? The Hidden Life of Trees by Peter Wohlleben is a fascinating exploration of the communication and community that exists within forests. Wohlleben shares his love for the woods and explains the incredible processes of life, death, and regeneration that take place in the woodland. Through groundbreaking discoveries, he reveals the previously unknown life of trees and their communication abilities. Discover how trees live together with their children, share nutrients, and create an ecosystem that benefits the whole group. Recommended for environmentalists, biologists, ecologists, and anyone interested in the natural world. The Hidden Life of Trees provides a unique perspective on the life and communication of trees, revealing the intricate processes of the forest ecosystem. It offers insights into the importance of community and the impact of solitary life on trees, which can also be applied to human society. This book is relevant to those interested in environmental sustainability and the impact of eco-friendly practices on the health of our planet. It is also a fascinating read for those who simply appreciate the beauty and complexity of the natural world.

From toxic leaks to microplastic pollution, scientists are exploring how pollutants affect human health. Exposomics is a new field that aims to understand our exposure to chemicals and their impact. Carmen Marsit, a molecular epidemiologist, is leading the charge to measure our exposure to chemicals and their breakdown products in blood. Learn how scientists are using gas chromatography, liquid chromatography, and mass spectrometry to identify the chemicals we are exposed to and the potential health risks associated with chronic exposure.

Did you know that bioreactor technology is revolutionizing the way we grow nutritious plants? Bioreactors are closed systems that use microorganisms, plant cells, or animal cells to produce a wide range of products, including food, drugs, and biofuels. With bioreactors, we can grow plants in a controlled environment, without the use of pesticides or fertilizers, and harvest them year-round. One of the most exciting applications of bioreactor technology is the cultivation of superfoods. These are foods that are nutrient-dense and have a host of health benefits, such as kale, spinach, and broccoli. By growing these plants in bioreactors, we can increase their nutritional content and make them more widely available. One example of this is how researchers at Flinders University's Centre for Marine Bioproducts Development are using bioreactors to cultivate marine microalgae, which can be turned via advanced cultivation strategies into various proteins. Cultivating microalgae is more eco-friendly than rearing animals, and may be a way to reduce the need for meat proteins, thus helping to save the environment. Another example is the use of plant cell cultures in bioreactors to produce plant-based meat alternatives. Mark Post, a pharmacologist and professor at Maastricht University in the Netherlands, has developed a process for growing "cultured meat", where animal cells are cultivated in vitro. This technology could revolutionize the meat industry, reducing the environmental impact of animal agriculture and improving animal welfare. But bioreactor technology isn't just for growing food. It's also being used to produce drugs, such as insulin, and to clean up pollution. In fact, another crucial form of bioreactor technology is bioremediation, which is the use of microorganisms to break down environmental contaminants. The future of bioreactor technology is exciting! Aside from its current uses, ongoing research probes at the possibility of bioreactors being used in cell therapy - growing healthy cells to replace diseased or damaged ones in patients. The possibilities are vast, so let's go ahead and dive into the exciting world of bioreactor technology!

Have you ever wondered how we can protect our planet's biodiversity? Do you want to make a difference in the world and work towards preserving our natural resources? If so, a career in Conservation Biology might be perfect for you! Conservation Biology is the study of the natural world and how we can protect and conserve it. Conservation Biologists work to preserve ecosystems, protect endangered species, and promote sustainable development. They use scientific methods to understand the impacts of human activity on the environment and develop strategies to mitigate those impacts. As a Conservation Biologist, you could work in a variety of settings, from government agencies to non-profit organizations to private companies. You might work in the field, collecting data and studying wildlife, or in a lab, analyzing samples and conducting experiments. Some Conservation Biologists focus on specific areas, such as marine biology, forestry, or wildlife management. To become a Conservation Biologist, you typically need a bachelor's degree in biology, ecology, or a related field. Many universities offer undergraduate programs and majors specifically tailored to Conservation Biology. Some popular programs include the Environmental Science and Policy program at the University of Maryland, the Conservation Biology program at the University of California Santa Cruz, and the Wildlife Ecology and Conservation program at the University of Florida. In addition to a strong academic background, helpful personal attributes for a career in Conservation Biology include a passion for the natural world, strong problem-solving skills, and the ability to work well in a team. Conservation Biologists must also be able to communicate effectively, as they often work with a variety of stakeholders, from scientists to policymakers to the general public. Job prospects for Conservation Biologists are strong, with a projected growth rate of 8% over the next decade. There are many potential employers in both the public and private sectors, including government agencies like the U.S. Fish and Wildlife Service and the National Park Service, non-profit organizations like the World Wildlife Fund and the Nature Conservancy, and private companies like Patagonia and The North Face. So if you're passionate about protecting the natural world and want to make a difference in the world, a career in Conservation Biology might be just what you're looking for!

Did you know that air pollution can impair our sense of smell and cause anosmia? Studies have shown that exposure to small airborne pollution particles, largely from the combustion of fuels in vehicles, power stations and our homes, can lead to olfactory dysfunction, causing a gradual erosion of our sense of smell over time. This can have significant effects on our overall wellbeing, from reducing our ability to taste and enjoy food, to potentially being an early warning sign of dementia. Researchers from Johns Hopkins School of Medicine and Karolinska Institute have found a strong correlation between higher pollution levels and poorer smelling ability, suggesting that we need to take air pollution more seriously to protect our health.

Singapore's national flower, Papilionanthe Miss Joaquim, has had its entire genetic blueprint decoded, revealing natural products with antioxidant properties and distinctive colors. The study, published in Communications Biology, could lead to future research in gene and metabolite engineering, as well as the discovery of bioactive compounds for healthcare purposes. The collaboration between A\*STAR's Genome Institute of Singapore and SingHealth Duke-NUS Institute of Biodiversity Medicine showcases the power of genetic sequencing technology in preserving and studying Singapore's plant biodiversity.

Did you know that ponds are packed full of bizarre and mysterious sounds made by aquatic insects, booming fish, and popping plants? Scientists have only just started to understand the diverse underwater orchestra of ponds, and this research is the first to provide a detailed description of pond soundscapes in the UK. Using acoustic monitoring, we can learn more about the daily cycles of freshwater life and prevent irreversible species loss due to climate change and habitat loss.

Have you ever caught fireflies on a summer night? Did you know that these magical insects are not just fun to watch, but also important for our ecosystem? In a recent article from Smithsonian Magazine, we learn about Christopher Heckscher, an ornithologist who has been studying fireflies for almost 20 years and is now working with an international panel of firefly experts to determine which firefly species are closest to extinction. The article takes us on a journey through the New Jersey wetlands, where Heckscher searches for fireflies and sheds light on the importance of their conservation efforts. Don't miss out on this fascinating read!

Are you fascinated by the natural world and want to explore the mysteries of the universe? Then the study of Natural Sciences might be the perfect fit for you! Natural Sciences is a broad field of study that encompasses a wide range of scientific disciplines, including biology, chemistry, physics, geology, and astronomy. It is an interdisciplinary field that seeks to understand the natural world and the laws that govern it. One of the most appealing aspects of studying Natural Sciences is the opportunity to make groundbreaking discoveries that can change the world. From the discovery of penicillin by Alexander Fleming to the development of the theory of relativity by Albert Einstein, Natural Sciences has produced some of the most significant innovations in human history. And with new technologies and research methods emerging every day, the possibilities for future discoveries are endless. At the undergraduate level, students can choose from a variety of majors and modules that allow them to specialize in a particular area of Natural Sciences. For example, a biology major might focus on genetics or ecology, while a physics major might specialize in astrophysics or quantum mechanics. And for those who want to take their studies even further, graduate programs in Natural Sciences offer a wide range of research opportunities and specialized areas of study. But what can you do with a degree in Natural Sciences? The answer is almost anything! Graduates of Natural Sciences are highly sought after in a variety of industries, including healthcare, technology, energy, and environmental science. Some of the most notable employers in these industries include NASA, Tesla, and the World Health Organization. To succeed in Natural Sciences, you need to have a curious mind, a passion for discovery, and a strong foundation in math and science. You should also be comfortable with experimentation and problem-solving, as these are the skills that will help you make groundbreaking discoveries and contribute to the advancement of human knowledge. So if you're ready to explore the mysteries of the universe and make a difference in the world, consider studying Natural Sciences. It's a field that offers endless possibilities for discovery and innovation, and it's sure to be a rewarding and fulfilling career path.

Have you ever wondered what goes into creating a beautiful garden or a lush forest? Do you have a fascination for the natural world and a passion for plants? If so, a career in Botany might be the perfect fit for you! Botanists are scientists who study plants and their relationship with the environment. They explore the biology, ecology, and evolution of plants, including their structure, function, and distribution. Botanists play a crucial role in understanding and preserving the natural world, as well as developing new medicines, crops, and other products. As a Botanist, you could work in a variety of settings, from research labs and botanical gardens to national parks and conservation organizations. You might specialize in areas such as plant genetics, ecology, or biotechnology, or focus on specific types of plants, such as trees, flowers, or algae. Typical duties of a Botanist might include conducting field research, analyzing data, writing reports and articles, teaching and mentoring students, and collaborating with other scientists and professionals. You might also work on projects related to climate change, biodiversity, or sustainable agriculture, among other topics. To become a Botanist, you'll typically need a bachelor's degree in Botany, Biology, or a related field. Popular undergraduate programs and majors include Plant Science, Horticulture, Environmental Science, and Biochemistry. You may also choose to pursue a graduate degree for advanced research or teaching opportunities. Helpful personal attributes for a career in Botany include curiosity, creativity, attention to detail, and a passion for learning. You should also have strong analytical and communication skills, as well as the ability to work independently and as part of a team. Job prospects for Botanists are generally good, with opportunities in both the public and private sectors. Some notable potential employers include the United States Department of Agriculture, the National Park Service, the Smithsonian Institution, and private biotechnology companies. So if you're interested in a career that combines your love of plants with scientific inquiry and environmental stewardship, consider becoming a Botanist. Your work could make a real difference in the world and inspire others to appreciate the beauty and complexity of the natural world.

Are you interested in learning about the impact of invasive carp on American waterways and ecosystems? Check out this fascinating article from Smithsonian Magazine that explores the history of carp introduction to the US, their rapid spread, and the devastating consequences of their invasion. Discover how scientists, activists, and inventors are fighting back with innovative methods, including renaming the carp and encouraging people to eat them. Don't miss this eye-opening read that sheds light on an important environmental issue.

Connecting with nature is essential for our wellbeing, yet we are becoming increasingly disconnected from the natural world. A 2016 study found that we remember pictures of animals better than images of plants. This disconnection has led to a nature deficit disorder, where we no longer recognize plants beyond their use for consumption. However, connecting with nature has numerous benefits, from enhancing wellbeing to decreasing stress levels. It is essential to recognize that plants and fungi are the foundation on which humans and animals depend. They are not just a green background, but significant in our survival as a species and as a planet. By finding something that makes us feel wonder and awe, we can continue our lines of curiosity and appreciate the underdogs that keep us alive.

If you're curious about the natural world and how living organisms function, studying Life Sciences at university might just be the perfect fit for you. This interdisciplinary field covers a wide range of topics, from ecology and genetics to physiology and microbiology, and offers countless opportunities for meaningful and rewarding careers. At its core, Life Sciences is all about understanding the complex systems that make up the living world. This can mean everything from studying the intricate relationships between different species in an ecosystem, to analyzing the molecular mechanisms behind genetic diseases. It's a field that's both fascinating and incredibly important, as our understanding of life sciences is critical for solving some of the world's most pressing challenges, from climate change to global health pandemics. One of the most exciting aspects of Life Sciences is the incredible diversity of research and innovation happening in the field. From the development of cutting-edge gene therapies to the study of the microbiome, there's always something new and exciting to discover. At the same time, many of the world's greatest scientific minds have contributed to the field of Life Sciences, including names like Charles Darwin, Rosalind Franklin, and Jane Goodall, who have all made groundbreaking contributions to our understanding of the living world. At the undergraduate level, Life Sciences majors can expect to take a range of foundational courses in areas like biology, chemistry, and statistics. As they progress, they may have the opportunity to specialize in areas like genetics, neuroscience, or environmental science, and pursue research opportunities to deepen their understanding of the field. For those considering a career in Life Sciences, the potential job opportunities are vast and varied. Graduates may find themselves working in research labs, healthcare settings, or government agencies, depending on their interests and experience. Some potential employers in the field include well-known organizations like the World Health Organization, the National Institutes of Health, and the Centers for Disease Control and Prevention, as well as private companies like Pfizer and Roche. So what does it take to succeed in Life Sciences? Students who are curious, analytical, and detail-oriented will likely find themselves well-suited to the field. A strong foundation in math and science is also important, as is a willingness to collaborate and work in teams to solve complex problems.

Ancient Egyptian tombs reveal pots of honey, thousands of years old and still preserved. What makes honey such a special food? The answer lies in its chemical makeup and the alchemy of bees. Honey's longevity and acidic properties lend it medicinal qualities, making it a natural bandage and a barrier against infection for wounds. Discover the magic of honey and its perfect balance of hygroscopic and antimicrobial properties.