Billions of animals are raised and slaughtered in factory farms every year, in conditions likely to cause extreme suffering. Many experts believe animals have conscious experiences and can experience pain. We tend to value the suffering of humans more than animals, which could be a form of "speciesism". There are things we can do to help solve this problem, including persuading people to change their diets, lobbying for better welfare standards for animals, and developing alternatives to animal products. Cost-effectiveness analyses suggest there are opportunities to have large-scale positive impacts on animal welfare, with corporate campaigns seeming particularly promising.

Scientists are investigating how feeding seaweed to cows could help reduce their methane emissions, which contribute to the climate crisis. Methane is a potent greenhouse gas, and cows like Nugget, a milk-producing Jersey cow at the University of New Hampshire's Organic Dairy Research Farm, contribute significantly to its production. Researchers are testing various species of seaweed, which have been shown to reduce cow burps, and measuring their impact on methane output. The goal is to find a seaweed species that is optimal for both methane reduction, cow and human health, while also being environmentally sustainable to grow at scale.

Pesticides are ubiquitous in modern agriculture, but their detrimental effects on human health and the environment are becoming increasingly evident. A new approach, called regenerative agriculture, is emerging as a sustainable and healthier alternative. Biological farming practices like those of Tim Parton, a UK farm manager, prioritise soil and environmental health by minimising synthetic inputs, and have led to increased biodiversity and crop yields without the need for harmful chemicals. However, while the environmental and health benefits of regenerative agriculture are clear, the transition away from pesticide-dependent farming remains a challenge for many.

Are you passionate about the environment and the food we eat? Do you want to make a difference in the world by promoting sustainability and healthy living? Then a career in organic farming might be just what you're looking for! Organic farming is a field that involves growing crops and raising animals without the use of synthetic pesticides, fertilizers, or genetic modification. It's a method of agriculture that prioritizes the health of the soil, the environment, and the people who consume the food. Organic farmers work hard to ensure that their products are healthy, sustainable, and environmentally friendly. As an organic farmer, you'll have the opportunity to work outdoors, get your hands dirty, and make a real impact on the world. You'll be responsible for planting and harvesting crops, caring for animals, and managing the land. You'll also have the chance to experiment with new techniques and methods to improve your yields and protect the environment. There are many different areas of specialization within organic farming, including crop production, animal husbandry, and farm management. You could choose to focus on growing fruits and vegetables, raising livestock, or running a farm business. You could also explore related fields like agronomy, soil science, and sustainable agriculture. To become an organic farmer, you'll need a strong background in agriculture, biology, or environmental science. Many colleges and universities offer undergraduate programs in these fields, including majors like Agriculture, Environmental Studies, and Sustainable Agriculture. You'll also need to gain hands-on experience through internships, apprenticeships, or working on a farm. Helpful personal attributes for a career in organic farming include a love of the outdoors, physical stamina, and a willingness to learn and adapt. You'll need to be able to work independently and as part of a team, and to communicate effectively with customers, suppliers, and other stakeholders. Job prospects in organic farming are strong, with growing demand for organic products around the world. You could work for a small family farm, a large commercial operation, or a government agency focused on sustainable agriculture. Some notable employers in the field include Whole Foods Market, Stonyfield Farm, and the USDA's National Organic Program. So if you're looking for a career that combines your passion for the environment, healthy living, and making a difference in the world, consider a career in organic farming. It's a challenging and rewarding field that offers plenty of opportunities for growth and innovation.

As global trade and travel continue to increase, border customs play a crucial role in protecting countries from the introduction of harmful food, plants, and animals. But why are some countries so strict on prohibition or quarantining of these items? One reason is to prevent the spread of invasive species. The species that are not native to a particular ecosystem and can cause harm to the native flora and fauna. For example, the introduction of the zebra mussel in the Great Lakes region of North America caused significant harm to the native species and infrastructure. Another reason is to prevent the spread of diseases. In recent years, the spread of diseases like avian influenza and swine flu have been linked to the movement of animals and animal products across borders. Leading academics in the field of border customs and quarantine regulations include Dr. John Goolsby and Dr. Maria Rodriguez. Dr. Goolsby has written extensively on the importance of border security in preventing the spread of disease and pests, while Dr. Rodriguez has focused on the economic impact of quarantine regulations on global trade. Specific academic terms and concepts relevant to border customs include biosecurity, invasive species, and phytosanitary regulations. Biosecurity refers to measures taken to prevent the introduction and spread of harmful diseases, pests, and invasive species. Invasive species are non-native plants and animals that can cause harm to native species and disrupt ecosystems. Phytosanitary regulations refer to the measures taken to prevent the spread of plant diseases and pests. Border customs play a vital role in ensuring that our ecosystems remain healthy and protected. They prevent the spread of harmful diseases and pests, protect native species, and maintain the balance of our ecosystems.

In "Animal, Vegetable, Miracle," Barbara Kingsolver and her family embark on a year-long journey to live off food from their own neighborhood, shunning the industrial-food pipeline. This memoir-journalistic investigation hybrid will take you on a thought-provoking adventure, revealing the true meaning of "you are what you eat." Kingsolver's enthralling narrative will open your eyes to the importance of locally sourced food, sustainability, and self-sufficiency. Recommended for environmentalists, foodies, sustainability advocates, and anyone interested in the impact of food on our health and the planet. This book will also appeal to those studying agriculture, ecology, and environmental science. Kingsolver's memoir will inspire readers to rethink their food choices and consider the benefits of locally sourced produce. Additionally, this book will be relevant to those interested in self-sufficiency and homesteading.

Chemical fertilizers are widely used in modern agriculture to boost crop yields. However, these fertilizers are not without risk. In this write-up, we will explore the dangers of chemical fertilizers, including their impact on the environment and human health. We will also examine the alternatives to chemical fertilizers and the role of specific academics in this field. Chemical fertilizers can have a negative impact on the environment, particularly when they are not used in moderation. Excessive use of nitrogen fertilizers can lead to nitrate pollution in waterways, harming aquatic life and posing risks to human health. This pollution can also contribute to algal blooms, which can lead to the formation of dead zones in water bodies. In addition, the production and use of chemical fertilizers can contribute to greenhouse gas emissions, exacerbating climate change. The negative impacts of chemical fertilizers are also beyond human health. Exposure to high levels of fertilizer dust can cause respiratory problems, while exposure to nitrates in drinking water has been linked to an increased risk of certain types of cancer. Pesticides that are often used in conjunction with chemical fertilizers can also pose risks to human health. There are a number of alternatives to chemical fertilizers that can reduce their negative impact. These include organic and natural fertilizers, such as compost and manure, as well as crop rotation and cover crops. In addition, precision agriculture techniques can help farmers apply fertilizers more efficiently and effectively, reducing the risk of pollution. Leading academics in the field of sustainable agriculture have made significant contributions to our understanding of the dangers of chemical fertilizers and the alternatives that exist. For example, Dr. David Montgomery, a geologist at the University of Washington, has written extensively on the impact of industrial agriculture on soil health, and the benefits of regenerative agriculture practices. Similarly, Dr. Rattan Lal, a soil scientist at Ohio State University, has focused on the use of carbon sequestration techniques in agriculture to reduce greenhouse gas emissions. Chemical fertilizers pose a significant risk to the environment and human health, but there are alternatives that can be used to reduce these risks. By exploring the work of leading academics in the field, we can gain a deeper understanding of these issues and work to promote sustainable agriculture practices.

Have you ever thought about growing your own food in the city? Or maybe you've seen a community garden and wondered who takes care of it? Well, that's where an Urban Agriculturist comes in! An Urban Agriculturist is someone who specializes in growing crops and raising animals in urban areas. They work to create sustainable food systems that benefit both the environment and the community. One of the most interesting aspects of this field is the variety of ways in which it can be applied. For example, an Urban Agriculturist may work in community gardens, rooftop gardens, or even in abandoned buildings that have been converted into urban farms. They may also work in research and development, designing new methods for growing food in the city. Typical duties of an Urban Agriculturist include planting and harvesting crops, caring for animals, managing soil health, and designing and implementing sustainable agricultural practices. There are also many areas of specialization within this field, such as aquaponics, hydroponics, and vertical farming. To become an Urban Agriculturist, you will typically need a degree in agriculture, environmental science, or a related field. Popular undergraduate programs include Sustainable Agriculture, Urban Agriculture, and Environmental Studies. Helpful personal attributes for this field include a love for nature and the environment, creativity, and a willingness to get your hands dirty. Job prospects for Urban Agriculturists are on the rise, as more and more people become interested in locally grown, sustainable food. There are many potential employers in both the public and private sectors, including non-profit organizations, government agencies, and even large corporations. Notable employers include The Urban Farming Company, Gotham Greens, and BrightFarms. In conclusion, a career as an Urban Agriculturist is a rewarding and meaningful way to make a positive impact on the environment and the community. With a growing demand for locally grown food, this field is sure to continue expanding and evolving in exciting ways.

Are you an animal lover? Do you enjoy learning about the complexities of the natural world and its inhabitants? Then a career in Animal Sciences may be perfect for you! As an Animal Scientist, you will have the opportunity to study and improve the lives of animals, as well as make a positive impact on our planet. Animal Sciences is a broad field that covers various aspects of animal life, from their genetics and nutrition to their behavior and welfare. In this field, you could work in a range of areas such as agriculture, animal behavior, animal welfare, zoology, conservation, and more. Animal Scientists use their knowledge to make informed decisions that promote the well-being of animals, humans, and the environment. Some of the interesting and meaningful aspects of this field include studying the behavior of wild animals, discovering new species, or working to improve the quality of life for domesticated animals. For example, animal scientists can work to develop new methods of farming, breeding, or managing animal health to improve food production and quality. They may also be involved in the development of vaccines or treatments for animal diseases or work to minimize the environmental impact of animal agriculture. There are a variety of potential duties within the field of Animal Sciences, including conducting research, developing new methods of animal management, analyzing animal genetics, developing animal nutrition programs, and more. You may choose to specialize in one particular area, such as animal nutrition or animal behavior, or work in a broader role. To become an Animal Scientist, you will typically need a Bachelor's degree in Animal Science, Biology, Zoology, or a related field. Many universities offer undergraduate programs in Animal Sciences that cover topics such as animal genetics, physiology, nutrition, and welfare. Some popular and relevant undergraduate majors include animal science, veterinary science, biology, and zoology. Helpful personal attributes for this field include a love for animals, strong critical thinking skills, attention to detail, and a desire to continuously learn and improve. Excellent communication and collaboration skills are also important as you may be working in a team with other scientists, veterinarians, and animal handlers. The job prospects for Animal Scientists are strong and continue to grow as the demand for food production and animal welfare increases. There are a range of potential employers in both the public and private sectors around the world, such as research institutions, universities, pharmaceutical companies, zoos and aquariums, government agencies, and private farms. Some notable examples of potential employers include the National Institutes of Health, the World Wildlife Fund, and the Food and Agriculture Organization of the United Nations.

Alaskan fisherman Dune Lankard has witnessed the devastating impacts of natural and man-made disasters on his industry and homeland, from earthquakes to oil spills. Now, he's turning to regenerative ocean farming to mitigate the effects of climate change and create a new regenerative economy based on conservation, restoration, and mitigation. This burgeoning concept, developed by Canadian commercial fisherman turned ocean farmer Bren Smith, involves growing seaweed and shellfish in small underwater gardens, and is touted as the new farming model of the future. Explore the fascinating intersection of traditional fishing practices and sustainable ocean farming in this thought-provoking article.

In today's world, it's easy to take for granted the food we eat and where it comes from. However, understanding the complex supply chain behind the fruits and vegetables we purchase can have significant intellectual and practical benefits. In times of crisis, like during the COVID-19 pandemic, supply chains are stretched thin, and it becomes more important than ever to explore alternative ways of growing food. Enter high-tech urban agriculture, a revolutionary concept that could transform the way we produce and consume food. With vertical farms popping up in cities worldwide, growing crops closer to where they are eaten is becoming a reality. These systems provide numerous benefits, from being healthier and more sustainable to containing no pesticides. By exploring these cutting-edge concepts further, students can gain knowledge about sustainable practices, future technologies, and global supply chains.

Are you interested in the science behind our food and the environment? Do you want to make a difference in the world by creating sustainable agricultural practices? If so, a career in Agricultural Sciences might be the perfect fit for you! Agricultural Sciences is a broad field that encompasses everything from plant and animal sciences to soil science and agricultural economics. It is a field that is constantly evolving, with new technologies and techniques being developed to improve crop yields and reduce environmental impact. As an Agricultural Scientist, you could be involved in a variety of tasks, including conducting research on crop genetics, developing new farming techniques, or working on policy development to improve agricultural practices. You could specialize in areas such as animal husbandry, crop management, or soil science, among others. To pursue a career in Agricultural Sciences, you will typically need a bachelor's degree in a related field such as Agricultural Science, Environmental Science, or Biology. Some popular undergraduate programs and majors include Agronomy, Horticulture, and Agricultural Engineering. In addition to a strong academic background, there are certain personal attributes that can be helpful in this field. These include a passion for the environment, strong problem-solving skills, and excellent communication skills. The job prospects for Agricultural Scientists are promising, with a growing demand for professionals in this field. You could work for a variety of employers, including government agencies, universities, or private companies. Some notable employers include the United States Department of Agriculture (USDA), Monsanto, and the World Bank. A career in Agricultural Sciences can be both rewarding and fulfilling, allowing you to make a positive impact on the world around you. So why not explore this exciting field further and see where it could take you?

Do you know where your food comes from? In 'The Omnivore's Dilemma: A Natural History of Four Meals', Michael Pollan takes you on a journey from the industrial food complex to foraging in the wild, revealing the hidden costs of our modern food systems. As you follow each food chain, you'll learn how our eating choices impact not only our own health but also the health of the environment. Pollan's insightful exploration of our relationship with food will make you question everything you thought you knew about what's on your plate. Recommended for anyone interested in food systems, environmental sustainability, health, and ethics. This book is relevant to students interested in fields such as agriculture, biology, nutrition, environmental studies, and ethics. It is also relevant to anyone who cares about the impact of their food choices on their health and the health of the planet. The book challenges readers to think critically about the industrial food complex and consider alternative ways of producing and consuming food that prioritize sustainability and ethical considerations.

Did you know that approximately 40% of the global fish catch is discarded as bycatch, unintentionally caught fish that are not the target of the fishing operation? This means that a significant amount of fish, which could be used for food and other purposes, is being wasted. Fortunately, researchers and industry leaders are coming up with innovative solutions to turn bycatch into valuable resources. Bycatch can be transformed into fish meal, used as fertilizer, or even turned into high-end seafood products. One of the leading experts in this field is Dr. Daniel Pauly, a fisheries scientist and professor at the University of British Columbia. Dr. Pauly is known for his work on developing methods to estimate global fish catches, and he has also been a vocal advocate for reducing bycatch and promoting sustainable fishing practices. Another academic making significant contributions in this area is Dr. Karin Limburg, a fisheries biologist and professor at the SUNY College of Environmental Science and Forestry. Dr. Limburg has researched the use of bycatch for fertilizer and has found that it can be a valuable source of nutrients for crops. In addition to these experts, industry leaders such as FishWise, a nonprofit seafood sustainability consultancy, are also working to reduce bycatch and promote sustainable fishing practices. They work with major seafood retailers and distributors to improve the sustainability of the seafood supply chain. By exploring this topic further, you can develop a deeper understanding of the complex issues facing our oceans and contribute to finding innovative solutions for a more sustainable future.

Have you ever heard of growing plants without soil? It's possible with hydroponics and aquaponics! These innovative methods of agriculture have gained popularity in recent years for their ability to produce high yields of fresh produce while using less space, water, and pesticides than traditional farming. In this write-up, we'll explore the fascinating world of hydroponics and aquaponics, diving into the concepts, benefits, and contributions from leading academics in the field. Hydroponics is the practice of growing plants in nutrient-rich water instead of soil. This method can be done in a variety of ways, from a simple jar with water and plant roots to complex systems using pumps, pipes, and controlled environments. Aquaponics takes it a step further by combining hydroponics with fish farming. In this closed-loop system, fish waste provides nutrients for plants, while plants naturally filter and clean the water for the fish. Did you know that hydroponics and aquaponics can yield up to 10 times more produce than traditional farming methods? This is because the plants receive precisely the nutrients they need, and water is recycled efficiently. Additionally, these methods can be done year-round, in any climate, and with less land space. It's no wonder that hydroponics and aquaponics are gaining attention from both commercial farmers and hobbyists alike. One leading academic in this field is Dr. Dickson Despommier, a professor at Columbia University. He's written extensively on vertical farming, an innovative form of agriculture that takes hydroponics to new heights by stacking layers of plants vertically. Another notable academic is Dr. Rakocy from the University of the Virgin Islands, who pioneered the development of modern aquaponics in the 1980s. In conclusion, hydroponics and aquaponics offer an innovative and sustainable solution to traditional farming methods. With its ability to produce more fresh produce with less resources, it's no wonder why this field is gaining traction. By exploring this topic further, you can discover new and exciting ways to apply academic concepts to real-world problems.

Transform farmland into thriving habitats for nature while hitting UK's climate and biodiversity targets at half the cost? Yes, it's possible! A new study by leading universities shows incentivizing farmers to spare land for habitats is a cost-effective solution.

Have you ever heard of a career in Aquaponics? Imagine being able to grow fresh, organic produce and raise fish in a sustainable and eco-friendly way. This is exactly what an Aquaponics Specialist does! Aquaponics is a unique and innovative way of farming that combines aquaculture (fish farming) with hydroponics (soil-less plant cultivation). Aquaponics Specialists are responsible for designing, building, and maintaining these systems to ensure that they are functioning at their optimal level. In this field, you will have the opportunity to work with cutting-edge technology and be at the forefront of sustainable agriculture. You will also have the satisfaction of knowing that you are making a positive impact on the environment by reducing waste and conserving water. As an Aquaponics Specialist, your typical duties will include monitoring water quality, feeding and caring for fish, managing plant growth, and troubleshooting any issues that may arise. You may also have the opportunity to specialize in areas such as system design, research and development, or marketing and sales. To become an Aquaponics Specialist, you will typically need a degree in a related field such as aquaculture, horticulture, or environmental science. Popular undergraduate programs and majors include Aquaculture and Fisheries, Agriculture, and Environmental Studies. Helpful personal attributes for this career include a love of nature and the environment, a passion for sustainable living, and strong problem-solving skills. You should also be comfortable working with technology and have excellent communication skills. Job prospects for Aquaponics Specialists are strong, as more and more people are becoming interested in sustainable agriculture. You may find employment with a variety of employers, including government agencies, private companies, and non-profit organizations. Some notable employers in this field include The Aquaponics Association, The Aquaponics Source, and The Freshwater Institute. So if you are interested in a career that combines your love of nature with cutting-edge technology, consider becoming an Aquaponics Specialist. You will have the opportunity to make a positive impact on the environment while growing fresh and healthy food for your community.

Discover how Kipster, a Netherlands-based egg producer, is proving that a circular business model for animal protein can work in the US, while maintaining a focus on carbon neutrality, animal welfare, and using surplus food for animal feed. WWF's case study details how Kipster's practices differ from conventional egg production and how it has successfully replicated that model in the US.

As a student, you might have heard about the importance of reducing your carbon footprint to help combat climate change. One way to do this is by cutting down on the amount of meat you eat. Did you know that approximately 15% of all greenhouse gas emissions from humans come from livestock production? By reducing our meat consumption, we could significantly reduce these emissions. Not only that, meat and dairy production take up a lot of land, around 80% of all farmland! However, not all meat is created equal. Large-scale farming of beef has a particularly high impact, whereas small-scale farming of animals can have a lower environmental footprint. Vegan alternatives can also come with their own set of problems, but a plant-based diet can bring several positive health benefits. By changing how we look at food and eat it sustainably, we could potentially change the world.

As the world population continues to soar, INFARM's founders are leading an agricultural revolution with their innovative solution for urban self-sufficiency. By using vertical farms, this startup is redefining the way we grow vegetables and herbs, with less water and no soil, and with the potential to yield even greater results than traditional greenhouses. Find out how INFARM is collaborating with top designers to create modular, climate-controlled units that can be customized for any user, from a home grower to a supermarket owner.