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.

Plastic is a synthetic polymer that has completely changed our world. It is lightweight, durable, and can be molded into almost any shape. Unfortunately, plastic has saturated our environment, invaded the animals we eat, and is finding its way into our bodies. Plastic takes between 500 and 1,000 years to break down, yet we use it for things meant to be thrown away. 40% of plastics are used for packaging, and since its invention, we have produced about 8.3 billion metric tons of plastic. 79% of it is still sticking around, and a lot ends up in the ocean, where it outweighs all the fish. Microplastics, pieces smaller than 5 millimeters, have been found in honey, sea salt, beer, tap water, and in the household dust around us. While there is little science about the health risks associated with microplastics, it is safe to say that we have lost control over plastic to a certain extent, which is kind of scary. By learning more about plastic, we can take steps to reduce its impact on our environment and our health.

A new study reveals that coral reefs have declined by 50% since the 1950s due to climate change, overfishing, and pollution. The loss of these biodiversity hotspots not only affects marine life but also puts communities and livelihoods at risk. Learn more about the rapid pace of global coral collapse and its implications for indigenous communities and local ecosystems.

Do you feel a deep connection with the sea and its inhabitants? Do you find yourself daydreaming about what lies beneath the ocean's surface? If so, a career in oceanography might be perfect for you! As an oceanographer, you'll be studying the ocean, its physical and biological properties, and how it interacts with the planet. You'll work to understand everything from the temperature and salinity of the water, to the movement of currents, the behavior of marine life, and how humans impact the ocean. One of the most appealing aspects of a career in oceanography is the opportunity to work on important environmental issues. For example, you could study how climate change is impacting the ocean and marine life, work to protect endangered species, or research ways to develop sustainable fishing practices. There are also countless fascinating and inspiring examples of real-life oceanographers making a difference. For instance, Sylvia Earle is a marine biologist and explorer who has led more than 100 deep sea expeditions and been instrumental in the creation of marine protected areas. Jacques Cousteau, an oceanographer and explorer, was a pioneer in underwater filmmaking and worked to raise awareness about ocean conservation. As an oceanographer, you'll typically be conducting research and collecting data, analyzing samples in a laboratory setting, and communicating your findings to colleagues, stakeholders, and the public. You could choose to specialize in one of several areas, including biological oceanography, chemical oceanography, physical oceanography, or marine geology. There are also related fields like marine biology, marine ecology, and ocean engineering. To become an oceanographer, you'll typically need at least a bachelor's degree in a relevant field, such as marine biology, oceanography, or environmental science. Many universities offer specialized programs, such as the Marine Science program at the University of Miami or the Oceanography program at the University of Washington. Additionally, internships and field experience can be highly beneficial for gaining practical skills and connections in the field. Helpful personal attributes for an oceanographer include a passion for the ocean and its inhabitants, strong analytical skills, and a willingness to work in a team environment. Additionally, it's important to have good communication skills, as you'll be communicating complex scientific concepts to a variety of audiences. The job prospects for oceanographers are good, with an expected job growth of 7% from 2020 to 2030. There are many potential employers in both the public and private sectors, including government agencies like NOAA (the National Oceanic and Atmospheric Administration) and private companies like Shell or ExxonMobil. You could also work for non-profits like the Ocean Conservancy or research institutions like Woods Hole Oceanographic Institution.

Imagine a world without humans - what would happen next? This thought experiment highlights the interconnectedness of our world and the impact humans have on it. Without our intervention, nature would take over and endangered species would have a chance to thrive. However, the world would never forget us as we would leave our mark. Learning about the environment and the impact humans have on it is not only intellectually stimulating, but it also has practical benefits. By understanding our impact on the planet, we can make informed decisions and take action to ensure a sustainable future. So, let's explore and discover the fascinating world of environmental science and make a positive impact on the world we live in.

Over 171 trillion pieces of plastic now pollute our oceans, killing marine life and posing a threat to human health. Without action, this number could triple by 2040. Learn about the causes and solutions to this crisis, and how you can make a difference.

How do you predict tropical cyclones in a data-scarce region? Olivier Bousquet turned to an unlikely source: sea turtles. Tagged with sensors, these hardy creatures provide ocean data that can predict storm intensity and path. The project, known as STORM, has already produced exciting results, attracting the attention of scientists worldwide. Discover how sea turtles are helping us better understand the ocean and prepare for devastating tropical cyclones.

The ocean covers over 70% of our planet, yet we know very little about it. With new technology, such as submarine robots, this hidden realm is starting to reveal its secrets. The ocean is home to extraordinary, otherworldly creatures, and boasts some of the highest peaks, deepest canyons, and longest river channels on the planet. However, our impact on the ocean is already being keenly felt, with plastic and pollution causing damage to marine life. By learning more about the ocean, we can better protect and preserve this vital life source. The ocean is key to almost all life on the planet, regulating our climate and providing half the oxygen we breathe. Learning about the ocean's secrets can also help solve urgent problems such as antibiotic resistance. Exploring the ocean can be a fascinating and rewarding journey, with new discoveries waiting to be made.

Are you curious about the hidden waterways that run beneath London's busy streets? Did you know that many of London's neighborhoods are named after these waterways? Discover the fascinating story of London's "secret" rivers, their historical significance, and how they are being restored to improve the environment and the lives of millions of people in this inspiring article from BBC. Follow the journey of volunteer groups who are revitalizing these waterways, creating habitats for wildlife, and reducing flood risks across the city.

Dive into the mysteries of the natural world with How To Read Water by Tristan Gooley. This must-have book is perfect for anyone who loves spending time outdoors, from walkers and sailors to anglers and swimmers. With over 700 clues, signs, and patterns, Gooley shares his tips and observations to help you discover the magic of the outdoors and learn how to navigate your surroundings. Join him on his pioneering journeys from Sussex to Oman and the Arctic as he reveals the secrets of ponds, puddles, rivers, oceans, and more. Recommended for nature enthusiasts, adventurers, and anyone interested in exploring the outdoors, How To Read Water by Tristan Gooley is an essential guide to understanding the natural world around us. From walkers to sailors, swimmers to anglers, this book provides valuable knowledge, skills, and tips for anyone who loves spending time outside. It's also a great resource for those interested in fields such as geography, environmental science, and biology. Whether you're exploring the icy mysteries of the Arctic or wild swimming in Sussex, Gooley's insights will help you read and navigate the water around you.

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.

Did you know that wetlands are vital sources of water purification, groundwater recharge, and carbon storage? A new Stanford-led study published in Nature finds that global losses of wetlands have likely been overestimated, enabling more informed plans to protect or restore ecosystems crucial for human health and livelihoods. While wetlands remain threatened in many parts of the world, the researchers combed through thousands of records of wetland drainage and land-use changes in 154 countries, mapping the distribution of drained and converted wetlands onto maps of present-day wetlands to get a picture of what the original wetland area might have looked like in 1700.

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.

As high school students, we often think of ourselves as separate from the Earth, but are we really? We are all made of the same molecules as everything else on our planet and are part of an interconnected ecosystem that keeps us all alive. Throughout human history, many cultures have viewed their relationship to the Earth in other ways, such as animism and Taoism, and placed the spirit of the Earth at the center of their worldview. However, under colonization, the Earth became a place to be conquered, dominated, farmed, fished, plundered and mined, on a vast scale. Today, we are still trying to bend the planet's environment, processes, and biodiversity to our will, but can anything fundamentally change while we still see ourselves as somehow separate from Earth? By understanding that there is no Earth and us, but that we are one, we can find ways to truly reconnect to all life on the planet and make a positive impact on our environment. Learning about these concepts can not only benefit us intellectually but also practically in helping us to become better stewards of our planet.

The Weather Makers by Tim Flannery paints a bleak picture of the future of our planet as we approach a global climatic tipping point. With vivid descriptions of the most powerful natural disasters in recent history, Flannery provides a riveting history of climate change and its impending impact on our world. But it's not all doom and gloom - Flannery offers specific suggestions for action that individuals and lawmakers can take to prevent a cataclysmic future. This urgent warning and call to arms is a must-read for anyone interested in the future of our planet. Recommended for environmentalists, policymakers, and anyone interested in the future of our planet, The Weather Makers by Tim Flannery offers a comprehensive history of climate change and its impact on our world. With specific suggestions for action, Flannery's urgent warning and call to arms is relevant to anyone concerned about reducing greenhouse gas emissions and investing in renewable energy sources like wind, solar, and geothermal energy. The book is also valuable for those studying environmental science, meteorology, and related fields, as it offers a detailed analysis of the science behind climate change and its effects on our planet.

Have you ever wondered about the ground beneath your feet? Do you have a passion for the environment and a desire to understand how it works? If so, then the study of Soil Science may be the perfect fit for you! Soil Science is a fascinating field that encompasses the study of soil properties, functions, and processes. It explores the intricate relationships between soil, water, air, and living organisms, and how they interact to support life on earth. Did you know that soil is a complex and diverse ecosystem that contains billions of microorganisms? These tiny creatures play a vital role in maintaining soil health and fertility, and they are the focus of much research in Soil Science. In recent years, Soil Science has seen many exciting innovations and academic disclosures. For example, researchers have discovered that certain types of fungi can help plants to absorb nutrients more efficiently, leading to higher crop yields and more sustainable agriculture. At the undergraduate level, typical majors and modules in Soil Science include soil chemistry, soil biology, soil physics, and environmental soil science. These modules provide a solid foundation in the fundamentals of soil science, and they can lead to further specializations such as soil conservation, land management, and soil microbiology. Soil Science graduates are in high demand in a range of industries, including agriculture, environmental consulting, and natural resource management. Some notable employers in this field include the United States Department of Agriculture, the Environmental Protection Agency, and the Natural Resources Conservation Service. To succeed in Soil Science, you will need to have a strong background in biology, chemistry, and physics. You should also be curious and passionate about the natural world, and have a desire to make a positive impact on the environment. If you're looking for a rewarding and exciting career that combines science, nature, and sustainability, then Soil Science may be the perfect field for you!

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.

Are you passionate about the environment and conservation? Do you want to make a difference in the world by preserving our natural resources? Then the field of Natural Resource Management may be just for you! Natural Resource Management is an interdisciplinary field that focuses on the sustainable use and conservation of natural resources such as forests, water, wildlife, and minerals. This field of study aims to balance the needs of humans with the needs of the environment. One of the most interesting aspects of Natural Resource Management is its real-life impact. For example, conservationists use their knowledge to protect endangered species and preserve habitats for future generations. Forest managers ensure that timber is harvested in a sustainable way, while also protecting the biodiversity of the forest. Innovations in Natural Resource Management are constantly being made. Researchers are using cutting-edge technology to track animal populations, monitor deforestation, and study climate change. Academic figures such as Jane Goodall and David Attenborough have made significant contributions to the field through their research and advocacy work. At the undergraduate level, students can expect to take courses in ecology, environmental policy, and natural resource economics. Majors may include Forestry, Wildlife Management, and Environmental Science. There are also opportunities for further specialization, such as in fisheries management or renewable energy. Upon graduation, there are a variety of career paths available. Natural Resource Management graduates can work for government agencies, non-profit organizations, or private companies. Popular careers include park ranger, environmental consultant, and wildlife biologist. Notable employers include the United States Forest Service, National Parks Service, and The Nature Conservancy. To succeed in this field, it is important to have a passion for the environment and a desire to make a difference. Strong communication skills and an ability to work collaboratively are also essential. If you are ready to make a positive impact on the world, consider studying Natural Resource Management.

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.

Climate change is putting numerous European seabirds at risk. A new conservation guide, led by ZSL and University of Cambridge, offers hope for the future of these important marine birds by assessing their specific needs and actions needed for preservation. Don't let iconic species like the Atlantic puffin disappear from our shores!