Are you concerned about the impact of plastic pollution on our planet? A recent article in Smithsonian Magazine explores how scientists are turning to microscopic bacteria and fungi to tackle the world's mounting plastics problem. These microbes can digest plastics without the need for excess heat, which could improve plastic recycling. The article shares fascinating insights into the research and its potential impact on reducing plastic waste. Read the full article to learn more about this innovative approach to tackling plastic pollution.

The Silent Spring of Rachel Carson is a captivating and inspiring story about one of the most important heroines of the 20th century. Written by Paul Portugés, this book is a celebration of the human spirit struggling against ignorance and injustice. It tells the story of Rachel Carson, who fought against the use of pesticides and inspired a movement that changed the world. The book features endorsements from renowned producers, actors, and screenwriters who praise Portugés' masterful storytelling and the importance of this story. This book is a must-read for those interested in environmental activism and inspiring stories of courage and perseverance. Recommended for environmentalists, activists, and anyone interested in inspiring stories of courage and perseverance, The Silent Spring of Rachel Carson by Paul Portugés tells the story of one of the most important heroines of the 20th century. This book is a celebration of the human spirit struggling against ignorance and injustice, and it highlights the importance of environmental activism. Endorsed by renowned producers, actors, and screenwriters, this book is a must-read for those interested in the power of storytelling to inspire change. The book is also relevant to those interested in screenwriting and filmmaking, as it features endorsements from industry professionals who praise Portugés' storytelling mastery.

Are you curious about how forests help to fight climate change? Boston University's biogeochemist and ecologist Lucy Hutyra has been investigating the effects of forest fragmentation on the planet's "lungs" for over a decade. Her research team has discovered that soil and trees in temperate forest edges in the Northeast United States are acting differently than those farther away from people, which challenges current ideas about conservation and the value of urban forests. Find out more in the reference article from Boston University.

The ocean is much more than just a beautiful and mysterious body of water that covers over 70% of our planet. It plays a critical role in regulating the Earth's climate and weather patterns, making it an essential aspect of the global ecosystem. In recent years, the impact of human activities, such as increased greenhouse gas emissions and plastic pollution, has had a profound effect on the ocean and its life. Understanding the relationship between the ocean and climate change is crucial to preserving our planet for future generations. One of the most significant ways in which the ocean affects climate change is through its ability to store and release heat. The ocean acts as a "heat sink," absorbing over 90% of the excess heat caused by climate change, helping to regulate the planet's temperature. This process also affects the ocean's currents, which play a crucial role in the global climate system by transporting heat and nutrients around the world. Another critical aspect of the ocean's role in climate change is its ability to absorb carbon dioxide from the atmosphere. The ocean is a natural carbon sink, but as the levels of carbon dioxide in the atmosphere increase, the ocean becomes more acidic, which can have severe consequences for marine life. This process, known as ocean acidification, is a significant concern for scientists and policymakers because it can disrupt the delicate balance of the ocean's ecosystem and cause harm to species that rely on a stable environment to survive. Leading academics in the field, such as Dr. Sylvia Earle and Dr. Jane Lubchenco, have made significant contributions to our understanding of the ocean's role in climate change. Through their research and advocacy, they have helped to raise awareness of the importance of the ocean and its life and the need to protect it for future generations. The ocean is an integral part of our planet's ecosystem, and understanding its role in climate change is essential for preserving our planet and its life for future generations. Get inspired, get informed, and dive into the deep blue!

Dive into the mysterious and awe-inspiring world of the ocean with Rachel Carson's The Sea Around Us. This classic work, published in 1951, remains as fresh today as when it first appeared, capturing the allure of the ocean with a compelling blend of imagination and expertise. Carson's rare ability to combine scientific insight with moving, poetic prose catapulted her book to first place on The New York Times best-seller list, where it enjoyed wide attention for thirty-one consecutive weeks. Reintroduced with a new chapter by a leading expert in marine ecology, this illuminating volume provides a timely reminder of both the fragility and the importance of the ocean and the life that abounds within it. Recommended for nature enthusiasts, marine biologists, environmentalists, and anyone interested in exploring the mysteries and wonders of the ocean. This book is a must-read for those concerned about our natural environment and the impact of human activities on the oceans. It offers a comprehensive view of the ocean's history, geology, and ecology, as well as its importance to our planet's ecosystem. The Sea Around Us is relevant to a range of fields of studies, professions, interests, and causes, including marine science, oceanography, environmental studies, conservation, and sustainability. It is a timeless masterpiece that inspires readers to appreciate the beauty and complexity of the natural world.

Are you interested in learning about the age of microplastics found in the ocean and how they affect the environment? Researchers from Kyushu University and Asahi Kasei Corporation have developed a new method to estimate the age of microplastics found in the upper oceans. By analyzing plastic oxidation levels with environmental factors such as UV exposure and ambient temperature, they found that microplastics in nearshore regions ranged from 0 to 5 years old, whereas microplastics from offshore regions ranged from 1 to 3 years old. Their findings were published in the journal, Marine Pollution Bulletin.

Are you passionate about the environment and want to make a positive impact on the world? Then Environmental Science could be the perfect field of study for you. Environmental Science is a broad, interdisciplinary field that focuses on the natural world, how it works, and how we interact with it. It incorporates biology, chemistry, physics, geology, and ecology to understand the complexity of the environment and the challenges it faces. One of the most appealing aspects of studying Environmental Science is the opportunity to make a real difference in the world. Whether it's developing sustainable energy solutions, protecting endangered species, or managing natural resources, Environmental Science graduates are at the forefront of tackling some of the world's most pressing environmental problems. Innovations and research in the field of Environmental Science are diverse and exciting. For example, scientists are developing new technologies to generate clean energy from renewable sources, such as wind and solar power. They are also exploring ways to protect our oceans and forests from pollution and deforestation. Environmental scientists are even working to restore damaged ecosystems and reverse the effects of climate change. Some well-known figures in the field of Environmental Science include Jane Goodall, who is known for her pioneering work on primates and conservation, and David Attenborough, who has dedicated his life to raising awareness of the natural world through his documentaries. At the undergraduate level, typical majors in Environmental Science include Environmental Science, Environmental Studies, and Environmental Policy. Modules often include topics such as Climate Change, Biodiversity, Pollution, and Conservation. Students also have the opportunity to specialize in areas such as renewable energy, sustainable agriculture, or environmental law. Graduates of Environmental Science have a wide range of career options available to them. They may work in environmental consulting, research and development, or government agencies. Other popular careers include environmental law, sustainability management, and renewable energy development. Notable employers in this field include the Environmental Protection Agency (EPA), World Wildlife Fund (WWF), and The Nature Conservancy. To succeed in Environmental Science, students should have an interest in the natural world, as well as strong critical thinking and problem-solving skills. Attention to detail, analytical thinking, and communication skills are also essential.

UN Treaty protects 30% of oceans, restricts mining, fishing, and shipping, and aims to reverse biodiversity losses and ensure sustainable development. Marine life is at risk from climate change, overfishing, and pollution. The treaty also addresses marine genetic resources and requires environmental assessments for deep-sea activities. However, the treaty must be adopted and passed by enough countries to enter into force.

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.

Indigenous peoples have long been recognized as effective stewards of the natural environment. Their knowledge and practices for managing natural resources sustainably offer valuable lessons for modern resource management. In this write-up, we explore the contributions of leading academics and the lessons learned from indigenous communities around the world. One example of indigenous knowledge in action is the agroforestry systems used by the Bribri people in Costa Rica. These systems combine fruit trees, timber trees, and crops to create a sustainable and diverse food source. The Bribri people have used this method for centuries, and it has been recognized by the United Nations as a model for sustainable agriculture. Another example comes from Australia, where the Yolngu people have been using fire management practices for thousands of years to maintain the health of their ecosystems. Their knowledge has been incorporated into modern fire management strategies, leading to better outcomes for both the environment and the people who live in these areas. Leading academics in the field, such as Robin Kimmerer and Winona LaDuke, have been working to bridge the gap between indigenous and Western scientific knowledge. Kimmerer, a botanist and member of the Citizen Potawatomi Nation, has written extensively on the importance of indigenous knowledge in ecological restoration. LaDuke, a renowned environmental activist and member of the Ojibwe Nation, has worked to promote sustainable energy and agriculture in indigenous communities. By learning from indigenous knowledge and practices, we can create a more sustainable future for ourselves and for the planet.

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.

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.

Do you love nature and want to help protect it for future generations? If so, a career as a Conservation Scientist might be perfect for you! Conservation Scientists work to preserve and protect natural resources, such as forests, wildlife, and waterways, by conducting research, developing plans, and implementing strategies for conservation. Imagine spending your days exploring the great outdoors, studying the behavior of wildlife, and developing plans to protect endangered species. Conservation Scientists work with a variety of organizations, including government agencies, non-profits, and private companies, to ensure that our natural resources are preserved for future generations. As a Conservation Scientist, your duties may include conducting field research, analyzing data, developing management plans, and collaborating with other professionals, such as foresters, wildlife biologists, and environmental engineers. You may specialize in areas such as wildlife management, forestry, or fisheries, and work in a variety of settings, from national parks to private consulting firms. To become a Conservation Scientist, you typically need a Bachelor's degree in a related field, such as biology, ecology, or environmental science. Many universities offer specialized programs in conservation biology or natural resource management, where you can gain hands-on experience in the field. In addition to formal education, there are several personal attributes that can be helpful in a career as a Conservation Scientist. These include a passion for nature, strong communication skills, and the ability to work independently and as part of a team. Job prospects for Conservation Scientists 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 such as the National Park Service and the U.S. Forest Service, non-profits such as the Nature Conservancy and the World Wildlife Fund, and private consulting firms. So if you're passionate about nature and want to make a difference in the world, consider a career as a Conservation Scientist. With the right education and training, you can help protect our natural resources for generations to come.

In just 70 years, the UK's landscape has undergone drastic changes, with non-native species thriving and native plants dwindling due to modern agriculture and climate change. The Plant Atlas 2020, produced by the Botanical Society of Britain and Ireland, reveals the catastrophic loss of grasslands, heathlands, and other habitats that would shock those brought up in the 1950s. The survey also highlights the impact of climate change on plant life and calls for stronger laws and sustainable land management to protect flora. Sir David Attenborough presents a new BBC documentary, Wild Isles, on the subject.

Trees are not only majestic but also crucial for biodiversity and reducing climate change. However, we are cutting them down at an alarming rate. Planting trees can help capture carbon dioxide and cancel out CO2 emissions. In fact, planting 1.2 trillion trees could capture up to 100 gigatonnes of CO2, and safeguard habitats that otherwise get cut down. Trees also offer a habitat to all kinds of fungi and insects, and studies have shown that they can lower stress and make people happier. Planting a single tree can be a powerful symbolic act, but we need to make big changes to the way we live and reduce the number of trees we cut down in the first place. Learning about the importance of trees and taking the necessary actions to protect them can have a positive impact on the environment and our mental health.

Are you fascinated by the ocean and all the creatures that live within it? Do you want to be part of an industry that helps to sustainably feed the world's population? Then the study of Aquaculture and Fisheries might be just the thing for you! Aquaculture and Fisheries is the study of the breeding, rearing, and harvesting of fish, shellfish, and aquatic plants in controlled environments. It is a field that has been gaining increasing attention in recent years, as concerns about overfishing and the impact of climate change on the oceans have grown. One of the most exciting aspects of Aquaculture and Fisheries is the potential for innovation and research. Scientists and researchers in this field are constantly working on new ways to improve the sustainability and efficiency of aquaculture operations. For example, they might develop new breeding techniques to produce fish that are more resistant to disease, or study the impact of different feed formulations on the growth and health of fish. There are also many inspiring academic figures in this field, such as Dr. Daniel Pauly, who is known for his work on the impact of overfishing on global fish stocks. His research has helped to raise awareness about the need for sustainable fishing practices and has influenced policy decisions around the world. At the undergraduate level, students in Aquaculture and Fisheries typically study a range of modules, including fish biology, aquaculture systems, and aquatic ecology. There are also opportunities for further specialisation in areas such as fish nutrition or aquatic animal health. Some interesting and enticing examples of real-life specialisations include working with marine mammals, studying the genetics of fish populations, or developing new aquaculture systems. The potential future jobs and roles in Aquaculture and Fisheries are diverse and exciting. Graduates might go on to work in fish farms, research institutions, or government agencies responsible for managing fisheries. Key industries for prospective future employment include commercial fishing, aquaculture, and seafood processing. Some notable and attractive potential employers from public and private sectors around the world include the National Oceanic and Atmospheric Administration (NOAA) in the US, Marine Harvest in Norway, and the Fisheries and Oceans Canada. To succeed in this field of study, it is helpful to have a strong interest in marine biology and environmental science. Good communication skills are also important, as graduates may need to work with a range of stakeholders, from fishermen to policymakers. Additionally, a passion for sustainability and a desire to make a positive impact on the world can help to drive students towards success in Aquaculture and Fisheries.

Are you passionate about agriculture and the environment? Do you want to make a positive impact on the world? Then studying sustainable agriculture might just be the perfect fit for you! Sustainable agriculture is all about finding ways to produce food while taking care of the environment and preserving natural resources for future generations. It's a field that combines science, technology, and innovation to create a more sustainable and resilient food system. One inspiring example of sustainable agriculture in action is the vertical farm. These farms use hydroponic systems to grow crops in vertically stacked layers, using less space and water than traditional farms. They're popping up in cities all around the world, providing fresh produce to urban populations while reducing the environmental impact of food transportation. Academic figures such as Dr. Vandana Shiva, an Indian scholar and environmental activist, have made significant contributions to the field of sustainable agriculture. Dr. Shiva has been a vocal advocate for sustainable farming practices and has written extensively on the importance of seed sovereignty and biodiversity in agriculture. At the undergraduate level, typical majors and modules in sustainable agriculture might include courses in soil science, agroecology, and sustainable food systems. Further specializations could include sustainable livestock management, organic farming, or sustainable energy in agriculture. Graduates of sustainable agriculture programs can go on to a wide range of careers, including roles in sustainable farming, food policy, and environmental advocacy. They might work for organizations like the World Wildlife Fund, the United Nations Food and Agriculture Organization, or the Sustainable Agriculture Research and Education program. To succeed in sustainable agriculture, it's helpful to have a passion for the environment and a desire to make a positive impact. Strong critical thinking and problem-solving skills are also essential, as sustainable agriculture often involves finding innovative solutions to complex challenges. So, if you're interested in a career that combines your love of agriculture with your desire to make a difference, consider studying sustainable agriculture. With the world facing increasing environmental challenges, the need for sustainable food systems has never been greater. And who knows? You might just be the next Dr. Vandana Shiva, making a significant impact on the future of agriculture and the planet.

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.

Are you passionate about the environment and interested in sustainable agriculture? Do you want to make a positive impact on the planet while also pursuing a fulfilling career? If so, the field of Agroecology might be just the thing for you! Agroecology is the study of the ecological processes that underpin agricultural systems. It is an interdisciplinary field that combines principles from ecology, agronomy, sociology, and economics to create sustainable and resilient food systems. Agroecologists work to find solutions to the many challenges facing modern agriculture, such as climate change, soil degradation, and food insecurity. One of the most interesting aspects of Agroecology is the wide range of innovative research being conducted in the field. For example, scientists are studying how to use cover crops to improve soil health, how to integrate livestock into crop production systems, and how to create more resilient food systems in the face of climate change. Some of the most inspiring academic figures in the field include Miguel Altieri, who has written extensively on the role of agroecology in sustainable agriculture, and Vandana Shiva, who has worked to promote sustainable agriculture in India. At the undergraduate level, students can expect to take courses in subjects such as soil science, plant biology, and sustainable agriculture. There are also many opportunities for further specialization, such as in the areas of agroforestry, urban agriculture, or sustainable food systems. Some inspiring examples of Agroecology in action include the rooftop gardens of New York City, where urban farmers are growing fresh produce in the heart of the city, and the agroforestry systems of Central America, where farmers are using trees to improve soil health and provide shade for their crops. If you choose to pursue a career in Agroecology, there are many exciting job opportunities available. You could work for a government agency, such as the USDA or the EPA, or for a non-profit organization, such as the Rodale Institute or the Organic Farming Research Foundation. You could also work for a private company, such as General Mills or Patagonia, both of which are committed to sustainable agriculture. Other potential careers in the field include agroecology research, sustainable farming, and environmental policy. To succeed in the field of Agroecology, you will need to have a strong interest in the environment and a passion for sustainable agriculture. You should also be comfortable working in a collaborative, interdisciplinary environment and have excellent communication skills. If you have these qualities, a career in Agroecology could be a rewarding and fulfilling way to make a positive impact on the world.

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!