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 been fascinated by the mysteries of prehistoric life? Do you find yourself daydreaming about the creatures that roamed the earth millions of years ago? If so, then a career in paleontology might be the perfect fit for you! Paleontology is the study of ancient life, including the fossils of plants, animals, and other organisms that have been preserved in rocks and sediment over millions of years. Paleontologists use their knowledge of geology, biology, and other sciences to reconstruct the history of life on earth and to understand how organisms have evolved over time. As a paleontologist, you'll spend your days exploring the great outdoors, digging up fossils, and analyzing them in the lab. You might specialize in a particular area of paleontology, such as vertebrate paleontology (the study of ancient animals with backbones), invertebrate paleontology (the study of ancient animals without backbones), or paleobotany (the study of ancient plants). To become a paleontologist, you'll typically need a degree in geology, biology, or a related field, with a focus on paleontology. Popular undergraduate programs and majors include geology, biology, earth science, and environmental science. A graduate degree in paleontology or a related field can also be helpful for advancing your career. In addition to a strong background in science, paleontologists need to have a few key personal attributes. Attention to detail, strong analytical skills, and patience are all essential for success in this field. You'll also need to be comfortable working in remote locations, often in harsh weather conditions. Job prospects for paleontologists are generally good, with opportunities available in both the public and private sectors. Notable employers include museums, universities, and government agencies such as the National Park Service and the U.S. Geological Survey. Paleontologists can also work in the oil and gas industry, helping to identify potential fossil fuel reserves. Long-term outlook for paleontology is promising as well. As new technologies continue to emerge, such as high-resolution imaging and 3D printing, paleontologists will have even more tools at their disposal for studying ancient life. And with ongoing concerns about climate change and the impact of human activity on the planet, the work of paleontologists is more important than ever before. So if you're ready to embark on a thrilling journey through time, consider a career in paleontology. Who knows what ancient wonders you might uncover!

Did you know that the ocean has its own pollinators? Marine worms and crustaceans have been found to play a role in ocean pollination, similar to bees and butterflies on land. This discovery has changed how scientists think about the evolution of algae, plants, insects, and crustaceans, highlighting the complexity of these mutually beneficial relationships. Learn more about this fascinating topic and the research that led to its discovery.

Do you have a passion for the great outdoors, a love of animals, and a desire to make a positive impact on the world? If so, studying Wildlife Conservation at university may be the perfect fit for you! Wildlife Conservation is a field of study that focuses on the protection and preservation of endangered species and their habitats. It is a fascinating and rewarding field that combines biology, ecology, and environmental science, and offers a wide range of exciting career opportunities. One of the most appealing aspects of Wildlife Conservation is the opportunity to work with some of the world's most incredible animals. From majestic elephants in Africa to playful dolphins in the Caribbean, there is no shortage of fascinating creatures to study and protect. And the work you do can have a direct impact on their survival and well-being. In recent years, there have been many exciting developments in the field of Wildlife Conservation. Researchers are using cutting-edge technology to track animal populations and monitor their behavior, while conservationists are working to create new protected areas and restore damaged ecosystems. Some of the most inspiring academic figures in this field include Jane Goodall, who revolutionized our understanding of chimpanzee behavior, and E.O. Wilson, who has been a leading voice in the fight to protect biodiversity. At the undergraduate level, students studying Wildlife Conservation can expect to take courses in ecology, animal behavior, and conservation biology. They will also have the opportunity to gain hands-on experience through fieldwork and internships. And for those who want to specialize further, there are many exciting areas of focus to choose from, such as marine conservation or wildlife rehabilitation. So what kind of careers can you pursue with a degree in Wildlife Conservation? There are many options, from working as a park ranger or wildlife biologist to becoming a conservation advocate or environmental educator. Some of the most notable employers in this field include the World Wildlife Fund, the Nature Conservancy, and the National Park Service. To succeed in Wildlife Conservation, it is helpful to have a strong background in biology and ecology, as well as a passion for the natural world. You should also be comfortable working outdoors and have strong communication and problem-solving skills. In short, studying Wildlife Conservation is an exciting and rewarding way to make a difference in the world. If you're passionate about animals and the environment, this may be the perfect field for you!

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.

Are you a fan of J.R.R. Tolkien's Lord of the Rings trilogy? If so, you'll love this article from Smithsonian Magazine about a new genus of butterflies inspired by the series. Researchers have discovered nine new groups of butterflies, including one with fiery orange and jet black eyespots that reminded them of the all-seeing Eye of Sauron. The team documented two new species in this genus, named Saurona triangula and Saurona aurigera, which live in the lowland rainforests of the southwestern Amazon. Read on to learn more about these beautiful insects and their important role in conservation efforts.

Have you ever been captivated by the mysterious depths of the ocean? Do you have a passion for marine life and the environment? If so, then Marine Biology might just be the perfect field of study for you! Marine Biology is a fascinating and dynamic field that explores the diversity of life in the ocean and the complex interactions between marine organisms and their environment. It is a field that is constantly evolving, with new discoveries and innovations being made all the time. One of the most appealing aspects of Marine Biology is the opportunity to work with a wide variety of marine organisms, from tiny plankton to massive whales. Marine Biologists are involved in a range of exciting research projects, from studying the behavior of dolphins and sharks, to investigating the impacts of climate change on coral reefs. Some of the most inspiring academic discourse in Marine Biology includes the groundbreaking research on marine ecosystems, such as the discovery of deep-sea hydrothermal vents and the unique organisms that inhabit them. Notable academic figures in this field include Sylvia Earle, who has dedicated her life to ocean conservation, and Rachel Carson, who wrote the influential book "The Sea Around Us". At the undergraduate level, students typically study a range of majors and modules, including marine ecology, marine conservation, and marine biotechnology. There are also opportunities for further specialization, such as studying the genetics of marine organisms or the impacts of pollution on marine ecosystems. Real-life examples of exciting research in these areas include the development of new drugs from marine organisms, and the use of DNA sequencing to track the movements of marine animals. There are a wide range of potential future jobs and roles for graduates of Marine Biology, including marine conservationists, fisheries biologists, and marine park managers. Other popular careers that may be relevant include environmental consultants, science communicators, and policy advisors. Key industries for prospective future employment include government agencies, research institutions, and conservation organizations. Some notable and attractive potential employers include the National Oceanic and Atmospheric Administration (NOAA) in the US, the Australian Institute of Marine Science, and the Marine Biological Association in the UK. To succeed in Marine Biology, it is helpful to have a strong interest in marine life and the environment, as well as a passion for scientific inquiry. Other key attributes and skills include analytical thinking, attention to detail, and effective communication. With dedication and hard work, a degree in Marine Biology can lead to a rewarding and fulfilling career in a field that is both challenging and endlessly fascinating.

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.

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.

Temperature influences how pesticides affect bees, with uncertain impacts under climate change. Researchers from Imperial College London have found that future extreme temperature events could increase the impact of pesticides on bee populations and their pollination services. Flight distance is key for pollination, and the study shows that it is most strongly affected by pesticides at the highest temperature, suggesting a 'tipping point' has been reached in the bees' ability to tolerate the combined temperature and pesticide exposure. The study highlights the need to inform the right concentrations and application times of pesticides across different climatic regions of the world to help safeguard pollinators, such as bees.

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!

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.

Maria Sibylla Merian was a naturalist and illustrator who defied convention and made significant contributions to the study of entomology, the study of insects. She was one of the first to describe the metamorphosis of insects in detail and portrayed insects surrounded by the plants they relied on, revealing their relationship to the wider ecosystem. Merian's groundbreaking work, 'The Metamorphosis of the Insects of Suriname', published in 1705, documented many species in Suriname's jungle, and its stunning illustrations depicted stages of development of Suriname's veracious caterpillars and vibrant butterflies. Merian's legacy has endured, and her work on the biodiversity of Suriname is still valued by scientists and could show us how some species may adapt to climate change. Learning about Merian's work can inspire students to explore and appreciate the natural world, understand the importance of biodiversity, and encourage them to pursue their passions despite challenges and societal expectations.

Are you ready to learn about an unconventional solution to a devastating parasitic disease? In a recent article from Stanford Magazine, ecologist Giulio De Leo and his team explore the use of African river prawns to control schistosomiasis in Senegal. Schisto is a poverty-related disease that infects over 200 million people worldwide, with 90% of cases found in sub-Saharan Africa. De Leo's team found that by introducing snail-eating prawns to contaminated water, they could remove a key part of the parasites' life cycle and prevent infections. Read on to discover how this discovery could lead to better, faster solutions for controlling the disease.

Did you know that almost everything around you is being eaten by tiny organisms called microbes? These hordes of bacteria, archaea, and fungi have evolved to break down tough organic material into digestible nutrients. However, there is one material that almost no microbes can biodegrade: plastics. This is because most plastics have only been around since the 1950s, so most microbes haven't had time to evolve enzymes to digest them. As a result, plastics just turn into countless, tiny, indigestible pieces that pollute the environment. However, researchers have discovered microbes that may be able to take a bite out of this growing problem, creating super-enzymes that could break down plastics faster. By exploring the science behind microbes and biodegradability, you can learn how to become part of the solution to this global issue. Not only will you expand your knowledge, but you will also contribute to creating a cleaner, healthier planet.

Calcium carbonate may sound like just another chemical compound, but it’s actually the building block for some of the most exquisite and diverse structures found in the ocean, from pearls to shells to coral. Creatures like mollusks use calcium carbonate to carefully construct their shells, controlling their composition at the molecular level to achieve stunning colors and patterns. Learning about the artful ways in which these creatures use calcium carbonate to create their protective structures not only expands our understanding of the natural world but also teaches us about the importance of adaptation and resilience. By exploring this topic further, you can develop a deeper appreciation for the intricacies of the natural world and the ways in which organisms have evolved to survive and thrive in their environments.

Understanding the science behind the changing colors of leaves in the fall is not only fascinating but also important for our understanding of the natural world around us. The process is triggered by less daylight, causing the old chlorophyll to disappear and yellow and orange pigments to become visible. The intensity of the colors is connected to temperature, and the drier autumn weather triggers a hormone telling the tree to drop its leaves. Evergreens have a waxy coating and contain a chemical like anti-freeze to survive the winter. By learning about these concepts, students can gain a deeper appreciation for the natural world and develop critical thinking skills. Additionally, understanding the science behind fall leaves can inspire students to explore other scientific topics and engage in self-directed projects.

A team of undergraduate students from Colgate University developed SealNet, a seal facial recognition system that uses deep learning and a convolutional neural network to identify harbor seals. SealNet could be a useful, noninvasive tool for researchers to shed more light on seal behavior, including site fidelity and movements. The software shows promise and could be paired with another photo identification method to identify seals by distinctive markings on their pelage. In the future, an app based on SealNet could allow citizen scientists to contribute to logging seal faces.

Are you fascinated by the mysteries that lie beneath the ocean's surface? Are you passionate about marine life and conservation? If so, a career in Marine Biology could be the perfect fit for you! Marine Biology is the study of life in the ocean and other saltwater environments. It is a fascinating and important field that encompasses a wide range of research areas, including ecology, biodiversity, oceanography, conservation, and the impact of human activity on the marine environment. As a Marine Biologist, you may work in a variety of settings, from research institutions and universities to government agencies and conservation organizations. You could be responsible for conducting research on marine life, developing conservation plans, or even exploring uncharted areas of the ocean. Some of the most meaningful and inspiring aspects of a career in Marine Biology include the ability to make a real difference in the world by studying and preserving marine ecosystems, as well as the opportunity to work with a diverse range of marine species, from whales and dolphins to sea turtles and tiny plankton. One real-life example of the impact of Marine Biology is the work of Dr. Sylvia Earle, a renowned oceanographer and explorer who has spent her career advocating for the protection of the world's oceans. Dr. Earle's research and advocacy have led to the establishment of numerous marine protected areas around the world, helping to ensure the survival of countless marine species. As a Marine Biologist, your typical duties might include conducting research on marine organisms and ecosystems, collecting and analyzing data, developing and implementing conservation plans, and educating the public about the importance of protecting the marine environment. You may also specialize in a particular area of Marine Biology, such as marine mammalogy, coral reef ecology, or marine biotechnology. To become a Marine Biologist, you will typically need a bachelor's degree in Marine Biology or a related field, such as biology, oceanography, or environmental science. Some popular undergraduate programs and majors include the Marine Biology program at the University of Miami, the Biology program with a concentration in Marine Science at the College of Charleston, and the Marine Science program at the University of South Carolina. In addition to formal education, there are several helpful personal attributes that can make you a successful Marine Biologist, including a strong curiosity and passion for the marine environment, excellent problem-solving and analytical skills, and the ability to work well both independently and as part of a team. The job prospects for Marine Biologists are generally good, with a variety of opportunities available in both the public and private sectors. Some potential employers include government agencies such as the National Oceanic and Atmospheric Administration (NOAA) and the Environmental Protection Agency (EPA), as well as private research institutions like the Monterey Bay Aquarium Research Institute and the Scripps Institution of Oceanography. In the longer term, the outlook for Marine Biology is bright, with continued demand for research and conservation efforts to protect the marine environment. There are also many exciting and innovative technologies being developed, such as underwater drones and advanced genetic tools, that are opening up new avenues for research and exploration in the field.

Geneticists have discovered that tiny fragments of DNA in the air can be used to detect different species, providing a non-invasive approach for detecting rare, invasive and hard-to-find animals. Two independent research groups in Denmark and the UK/Canada conducted simultaneous proof-of-concept studies using filters to collect airborne environmental DNA (eDNA) from different zoo enclosures. The results were surprising and successful, with DNA from more than two dozen different species of animals identified, including tigers, lemurs, dingoes, water voles, and red squirrels. The discovery offers new possibilities for studying and protecting wildlife.