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.

How do we grow seedless fruit? Discover the fascinating history and science behind hybridization and grafting, and the latest genetic research that could lead to new seedless varieties. From Navel oranges to mutant sugar apples, explore the world of fruit breeding.

The making of chocolate is a primitive and unpredictable process involving wild rainforest insects, fungi, and microbes. Discover how the microbiome of cacao trees, tiny midges, and fermentation contribute to the $110-billion chocolate industry. Learn how researchers are working to standardize cacao-making and develop cacao-fermentation "starters."

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.

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.

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.

Want to know the secret to drought-resistant plants? A group of researchers from Yale, Bates College, University of Maine, Haverford College, and other institutions have discovered that plants with more complex water transport structures are more resistant to droughts, increasing their chances of survival and passing on this trait to their offspring.

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.

Plants have been evolving for millions of years and have developed incredible adaptations to survive in their environments. One of the most impressive adaptations is drought resistance. In this write-up, we will explore the fascinating world of plant evolution and the incredible ways that plants have adapted to survive in dry environments. Did you know that there are plants that can survive without water for years? The cactus is one such plant that has developed unique adaptations to survive in the harsh desert environment. Its thick stems store water, and its shallow roots can quickly absorb moisture when it rains. The cactus also has small leaves that reduce water loss through transpiration and spines that provide shade to the stem, reducing water loss even further. Another interesting example of drought resistance in plants is the succulent. Succulents store water in their leaves, which become plump when water is available and shrink when water is scarce. They also have shallow roots that spread widely to quickly absorb moisture when it rains. Leading academics in the field of plant evolution and drought resistance have made significant contributions to our understanding of these adaptations. For example, Dr. Christine A. Beveridge has studied the molecular mechanisms behind drought resistance in plants and have identified genes that play a crucial role in this process. Her work has led to the development of drought-resistant crops, which have the potential to improve food security in dry regions. In conclusion, the world of plant evolution and drought resistance is full of fascinating facts, stories, and examples. By exploring this topic independently, students can deepen their understanding of the amazing adaptations that plants have developed over millions of years to survive in their environments.

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.

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!

Pesticides not targeted at flowers may pose a hidden threat to pollinators, according to new research from Trinity and DCU. The study, the first of its kind in Ireland, found residues of several pesticides in the nectar and pollen of both crop and wild plants, with some chemicals lingering for years after application. The findings have implications for the health of bees and other pollinators, as well as for ecosystem function, crop production, and human health.

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.

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!

Tardigrades have even been featured in popular culture, including an episode of Star Trek: Discovery, where they were used as a propulsion system for a spaceship. But while tardigrades may seem like science fiction, they are very much a real and fascinating part of the natural world. These tiny, water-dwelling creatures, also known as water bears or moss piglets, have been around for over half a billion years and have evolved some truly remarkable survival strategies. Tardigrades can survive in extreme environments that would kill most other organisms, including temperatures ranging from -272°C to 151°C, pressures six times greater than those at the bottom of the ocean, and even the vacuum of space. They can also survive dehydration, radiation, and exposure to toxins. Tardigrades achieve this impressive feat through a combination of strategies, including the ability to enter a state of suspended animation called cryptobiosis, which allows them to survive without water for years. One of the key factors that enable tardigrades to survive in such extreme conditions is their ability to repair their DNA. Tardigrades have a unique protein called Dsup, which protects their DNA from damage caused by radiation. This protein has even been shown to protect human cells from radiation damage. Dr. Thomas Boothby, a leading tardigrade researcher at the University of Wyoming, has discovered that tardigrades can also produce large amounts of unique proteins called tardigrade-specific intrinsically disordered proteins (TDPs) in response to desiccation. These proteins help protect the tardigrades' cells from damage and prevent them from drying out. Tardigrades are fascinating not just for their survival abilities, but also for their unique biology. They have a complex digestive system, a unique nervous system, and a fascinating reproductive system that involves the transfer of genetic material between individuals. By exploring the science behind these tiny creatures, we can gain a deeper understanding of the natural world and the amazing ways that living organisms can survive and thrive in even the most extreme conditions.

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.

The Permian-Triassic extinction event that wiped out 95% of life on Earth serves as a model for studying the current biodiversity crisis. Researchers from the University of Bristol, the California Academy of Sciences, and the China University of Geosciences analyzed marine ecosystems before, during, and after the event to understand the series of events that led to ecological destabilization. They found that the rate of species loss today outpaces that during the Great Dying, and stress the importance of considering functional redundancy in modern conservation strategies.

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.

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.

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.