Fracking is a technology that extracts natural gas from deep underground. It involves drilling a well and pumping a high-pressure mixture of water and chemicals into the rock to release the gas. Fracking has been a source of controversy due to its impact on the environment, including the potential contamination of drinking water and the release of methane, a potent greenhouse gas. However, natural gas is a cleaner-burning fuel than coal, and fracking has the potential to power us for decades to come. As students, it's important to understand the science and technology behind fracking, as well as the economic and environmental implications. Learning about fracking can help us make informed decisions about our energy use and inspire us to explore alternative, renewable energy sources.

In "Storms of My Grandchildren," Dr. James Hansen, the preeminent climate scientist, delivers a powerful and urgent message about the looming threat of global warming. With a stark warning that the planet is hurtling towards a climatic point of no return, Hansen calls for immediate and decisive action to phase out coal and achieve a goal of 350 parts per million of carbon dioxide in the atmosphere. This book is a must-read for anyone concerned about the future of our planet and the fate of future generations. Recommended for students of environmental science, policy makers, and anyone interested in the urgent issue of climate change, "Storms of My Grandchildren" provides a comprehensive and compelling overview of the science behind global warming and the political obstacles to addressing it. The book is an important resource for those seeking to understand the dire consequences of inaction, and the urgent need for a groundswell of public support to create a tipping point for change. Hansen's message is clear: we must act now to save our planet and our grandchildren from a catastrophic fate.

As a high school student, you may have wondered whether we will ever run out of oil. The answer is complex and depends on how you look at it. While there may be trillions of barrels of oil in the earth's crust, it's becoming increasingly difficult and costly to extract. However, technologies such as fracking and melting tar sands are allowing us to access more oil. But even if we don't run out of oil, there are still compelling reasons to move away from it, including climate change, air pollution, and geopolitical tensions. Learning about the science and technology behind oil extraction can help you understand the challenges and opportunities facing our world today. It can also inspire you to think about alternative energy sources and solutions to the problems associated with oil.

New research shows that the cost of annual flooding in the UK could increase by up to 23% over the next century due to climate change, unless all international pledges to reduce carbon emissions are met. The study, led by the University of Bristol and Fathom, highlights the need for urgent action to mitigate the impact of climate change on the risk of flooding across the UK. The research also identifies the areas of the UK where risks will increase the most, including densely populated cities such as London, Cardiff, Manchester, Glasgow, and Edinburgh.

The world's shift towards electric vehicles to reduce greenhouse gas emissions will require a huge demand for critical metals like lithium, nickel, cobalt, manganese, and platinum. This demand will have economic and supply-chain consequences, according to new research from Cornell University. Discover how countries can manage this demand and promote a circular economy for critical metals.

Did you know that human activity can cause earthquakes? In fact, they're becoming more common due to drilling, mining, and other subsurface activities. For example, a 5.1 magnitude earthquake in Spain in 2011 was caused by farmers using underground water for irrigation, which caused a shift in the fault line. The oil and gas industry, geothermal power developers, and dam builders have also caused man-made earthquakes. Learning about the science behind earthquakes is not only intellectually fascinating, but it can also help us understand how to avoid making the problem worse. Earthquakes are one of the most catastrophic natural disasters, and there is currently no way to predict when they will strike. As students, we can take an active role in learning about the impact of human activity on the environment and how we can make a positive difference.

Are you passionate about protecting the environment and making a positive impact on the world? If so, a career in Environmental Engineering might be the perfect fit for you! Environmental Engineers are responsible for designing and implementing solutions to environmental problems. From developing sustainable energy sources to managing waste disposal, Environmental Engineers work to create a healthier and more sustainable planet. One exciting aspect of this field is the opportunity to work on real-life projects that make a difference. For example, an Environmental Engineer might design a water treatment system to provide clean drinking water to a community in need, or develop a plan to reduce greenhouse gas emissions from a factory. Typical duties of an Environmental Engineer include conducting environmental impact assessments, designing and implementing pollution control systems, and managing hazardous waste disposal. There are also many areas of specialisation within the field, such as air quality management, water resource management, and renewable energy. To become an Environmental Engineer, you will typically need a Bachelor's degree in Environmental Engineering or a related field such as Civil Engineering or Chemical Engineering. Popular undergraduate programs include the Bachelor of Science in Environmental Engineering at the University of California, Berkeley, and the Bachelor of Engineering in Environmental Engineering at the University of New South Wales in Australia. Helpful personal attributes for a career in Environmental Engineering include strong problem-solving skills, attention to detail, and a passion for sustainability. You should also be comfortable working with a variety of stakeholders, including government agencies, private companies, and community groups. Job prospects for Environmental Engineers are strong, with a projected growth rate of 8% from 2019 to 2029. There are many attractive potential employers in both the public and private sectors, including government agencies such as the Environmental Protection Agency in the United States, and private companies such as Tesla and Google. So if you're looking for a career that combines your passion for the environment with your love of problem-solving, consider a career in Environmental Engineering. You could be the next person to make a positive impact on our planet!

Are you passionate about the environment and curious about the impact of climate change on our planet? Then a degree in Climate Science could be the perfect fit for you! Climate Science is an exciting and rapidly evolving field that encompasses a range of disciplines, from atmospheric science to ecology and beyond. One of the most appealing aspects of studying Climate Science is the opportunity to make a real difference in the world. As a Climate Scientist, you'll be at the forefront of efforts to understand and mitigate the effects of climate change. You'll study everything from the causes and consequences of global warming to the ways in which we can reduce our carbon footprint and protect the planet for future generations. There are countless fascinating areas of research within the field of Climate Science. For example, you might study the impact of rising sea levels on coastal communities or investigate the ways in which climate change is affecting agriculture and food security around the world. You might also explore the latest innovations in renewable energy technology or examine the role of policy and advocacy in shaping global climate action. At the undergraduate level, students typically take a range of modules that cover the fundamentals of Climate Science, including meteorology, oceanography, and geology. As you progress through your degree, you'll have the opportunity to specialize in areas such as climate modeling, climate policy, or environmental management. And with a degree in Climate Science, you'll be well-equipped to pursue a range of exciting careers in fields such as environmental consulting, renewable energy, or climate policy. Some of the most exciting potential employers for Climate Science graduates include government agencies such as the Environmental Protection Agency or the National Oceanic and Atmospheric Administration, as well as private-sector companies like Tesla and Google. And with the growing urgency of the climate crisis, there's never been a better time to pursue a career in this field. To succeed in Climate Science, you'll need to be curious, analytical, and passionate about making a difference in the world. Strong skills in math and science are also essential, as is a deep interest in the natural world and a commitment to sustainability. So if you're ready to take on one of the most pressing challenges of our time, a degree in Climate Science could be the perfect choice for you!

Apple's announcement of using 100% recycled cobalt in its batteries by 2025 highlights the growing concern about the environmental and ethical impacts of mining materials for personal electronics and electric vehicles. However, with the exponential growth of the EV market, there may not be enough recycled materials to meet demand. Explore the challenges and opportunities of battery recycling and the circular economy in this week's newsletter.

Mining has been a crucial part of human civilization for centuries, providing us with the resources we need to build, create and thrive. But with this extraction comes consequences, particularly in the form of mine tailings. Mine tailings are the waste materials left over after the ore has been extracted, and they can have significant impacts on the environment, particularly with regards to climate change. To understand the impact of mine tailings, it's important to first understand the science behind mining. When ore is extracted, the minerals are separated from the rest of the material, leaving behind a mixture of minerals, water, and other substances. This mixture is called tailings, and it can contain harmful chemicals, such as heavy metals, that can leach into the environment. Leading academics in the field, such as Dr. Sara Colombo and Dr. Jian Kang, have studied the environmental impact of mine tailings and have found that they can lead to soil and water pollution, as well as contribute to greenhouse gas emissions. For example, Dr. Colombo's research has shown that tailings dams can release large amounts of methane, a potent greenhouse gas, into the atmosphere. These impacts are a concern for many communities, as well as for the planet as a whole. But despite this, there is hope for a more sustainable future. Researchers like Dr. Jian Kang are working to develop new technologies that can reduce the environmental impact of mine tailings, such as using them as a source of energy instead of just waste.

Plastics are everywhere, and most of them never biologically degrade. This is a major problem for our environment, as plastic waste pollutes natural ecosystems for centuries. Fortunately, there are microbes that may be able to help us solve this growing problem. Scientists have discovered bacteria, also known as plastivores, that contain enzymes capable of breaking down PET polymers, a common type of plastic. However, we still need ways to biologically degrade all the other types of plastic, including abundant PEs and PPs. Researchers are looking for more heat-tolerant plastivores in the planet's most hostile environments and engineering better plastivorous enzymes in the lab. As students, you have the opportunity to learn about this important issue and contribute to finding solutions. By exploring the science behind plastic degradation, you can gain a deeper understanding of how to protect our environment and create a more sustainable future.

As we look towards the future, it's clear that our world is changing rapidly. One of the most exciting developments is the emergence of floating nations on the sea. These seascrapers will be built using 3D printed biorock, and will be powered by ocean thermal energy conversion. They will allow us to harvest calcium carbonate directly from seawater, and create vast ocean gardens that will reduce ocean acidity and provide environmentally restorative food. The first to seek jobs on these farms will be the poorest billion on Earth, who will come to the blue frontier because floating societies will require refugees to survive economically. These seasteads will restore the environment, enrich the poor and liberate humanity from politicians. By exploring the depths beneath the ocean, we will unlock new discoveries and opportunities that we can't even imagine yet. So let's embrace this new century of seasteading and explore the oceans first, and the stars next.

Climate change anxiety is a relatively new term, but the fear of the future and the trauma it may bring is not. We are facing an existential fear about our survival, and it is important to understand our impact as human beings on the planet. It is normal to feel anxious about the effects of climate change, but this anxiety can also be a way of digesting the information. As students, it is essential to explore this topic and understand the key concepts of climate change, its impact on our world, and the part we can play in mending the part of the world that is within our reach. Learning about this topic not only benefits us intellectually but also practically as it helps us to make informed decisions about our future and the world we want to live in. Let's embrace the challenge and become part of the solution.

Imperial researchers have found that integrating solar and battery power in refugee camps can drastically reduce fuel expenditure and emissions while also boosting the local economy. The system, funded in part by a grant from the UKRI Global Challenges and Research Fund, could provide reliable access to electricity for more people. Find out how this innovative solution can improve the lives of displaced people.

Have you ever wondered about the rocks and minerals that make up the earth's crust, or how mountains are formed? If so, a career in geology might be the perfect fit for you! Geology is the study of the Earth, its processes, and its materials. Geologists explore, analyze, and interpret the Earth's physical and chemical properties, from its deep interior to its surface, including the oceans and the atmosphere. A geologist's work can take them to some of the most exciting and remote places on the planet, such as volcanic islands, deserts, and mountain ranges. They study the Earth's natural resources and hazards, help locate and extract valuable minerals and energy resources, and investigate the effects of human activities on the environment. Geologists have many opportunities for specialization, including mineralogy, volcanology, paleontology, geophysics, hydrogeology, and environmental geology, to name a few. They can work in a wide range of industries and organizations, such as mining, oil and gas exploration, environmental consulting, government agencies, academia, and research institutions. To become a geologist, you will typically need at least a bachelor's degree in geology or a related field, such as earth science, geophysics, or environmental science. Some popular undergraduate programs in geology include those offered by the University of California, Berkeley, the University of Colorado Boulder, and the University of Michigan. Helpful personal attributes for success in this field include a strong curiosity about the natural world, excellent analytical and problem-solving skills, attention to detail, and the ability to work well as part of a team. The job prospects for geologists are good, with a projected annual job growth rate of 5% between 2020 and 2030, according to the US Bureau of Labor Statistics. Geologists can find employment in a wide range of public and private sector organizations, including the US Geological Survey, ExxonMobil, the National Park Service, the United Nations, and many more.

Solar power has become the cheapest source of electricity on Earth, and its efficiency has improved thanks to the work of scientists and engineers. Countries like India, China, Egypt, and the US have already built massive solar farms in the desert, but covering the Sahara with solar panels could create massive changes in the region's climate. Fortunately, giant mirrors are a new approach that reflects light onto a receiver, which converts energy to heat and then electricity. Industrial solar farms are often easy to fit into existing energy infrastructure, but getting their electricity beyond local power grids is much more difficult. Smaller solar installations can supplement energy use or provide a passive source of energy for regions off the grid. Solar panels rely on a few simple components, so they're quick to install and relatively easy to update. Learning about solar power is essential, given humanity's rising energy use.

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.

Scientists have developed a simple and low-cost method to break down almost a dozen types of "forever chemicals" known as PFAS, which have contaminated virtually every drop of water on the planet and are associated with certain cancers and thyroid diseases. By using a chemical guillotine and common solvents and reagents, they severed the molecular bonds in PFAS, gradually nibbling away at the molecule until it was gone, leaving behind only safe byproducts. This breakthrough could eventually make it easier for water treatment plants to remove PFAS from drinking water.

Experience Africa from a whole new perspective with Edward Burtynsky's latest collection of photographs, African Studies. From the geometric patterns of agriculture to the devastating impact of corporate greed, Burtynsky's aerial images capture the intricate relationship between humans and the planet. Discover the beauty and horror of Africa's vast resources, extracted with both modern technology and centuries-old techniques. Explore the impact of China's shifting economy on the African continent, and ponder the abstract beauty of Namibia's Tsaus Mountains. The African continent is a final frontier worth exploring.

The world is constantly changing, and as high school students, it is essential to be aware of the problems that need solutions. Vinisha Umashankar, a 14-year-old from India, noticed the pollution caused by charcoal usage in the metal irons of street vendors and decided to take action. She designed an ironing cart powered by solar energy, eliminating the use of charcoal, deforestation, air pollution, and respiratory diseases caused by the traditional method. Learning about solar energy and sustainable solutions like Vinisha's can benefit you not only intellectually but practically as well. By exploring these concepts further, you can contribute to creating a better world for yourself and the generations to come.