Эпизоды
-
In this enlightening episode of our video podcast, we dive deep into the pressing issue of heat waves and their alarming impact on the United Kingdom. With an eye-opening discussion inspired by recent warnings from MPs and the Environmental Audit Committee, we explore the potentially dire consequences of inaction in the face of increasing extreme heat events. We dissect a report indicating that up to 10,000 people a year could face fatal outcomes due to heatwaves if comprehensive measures are not taken. The economic repercussions are also staggering, with a potential cost of £60bn a year to the economy.
Philip Dunne MP, the Conservative chair of the committee, delivers a compelling call to action, emphasizing the urgent need for government and societal response to mitigate these risks. We also delve into the historical context provided by the UK Health Security Agency's issuance of its first-ever 'level 4' heat alert in July 2022, a testament to the unprecedented temperatures the UK is experiencing.
Moreover, the episode discusses the global perspective, noting that 2023 was confirmed as the hottest year on record by a significant margin, underscoring the fact that this is not just a local, but a global crisis requiring immediate and decisive action.
Our expert guests provide insights into the challenges and potential strategies for addressing this "present danger," emphasizing the importance of developing a robust plan to combat the escalating threat of heat waves. Through engaging discussions, we aim to raise awareness and spur action among our viewers, highlighting the critical need for preparedness and adaptation in the face of climate change. -
In this urgent and eye-opening episode of our video podcast, we delve into two of the most pressing environmental challenges of our time: the world's dwindling freshwater resources and the pervasive problem of microplastics in our water.
Our journey begins with an in-depth exploration of the global freshwater crisis. We discuss the alarming rate at which the world's freshwater sources are being depleted, highlighting regions most affected by water scarcity. The conversation includes insights from environmental scientists and water conservation experts, offering a comprehensive understanding of the causes, impacts, and potential solutions to this critical issue.
Shifting focus, we then tackle the complex and concerning topic of microplastics in water. Microplastics, tiny plastic particles that pervade our oceans, rivers, and even drinking water, pose a significant threat to marine life and human health. We unravel the science behind microplastics - how they are formed, how they end up in our water, and the potential risks they pose.
In an effort to provide a holistic view, we also discuss the role of governments, industries, and individuals in contributing to and alleviating these environmental pressures. The episode highlights innovative technologies and grassroots initiatives that are making strides in water conservation and reducing plastic pollution.
The episode concludes with actionable steps that viewers can take to be part of the solution. We provide practical tips on water conservation, reducing plastic use, and supporting policies and practices that protect our water resources.
This podcast episode is not just a discussion but a call to action, urging viewers to become informed and engaged in the fight to preserve our planet's most precious resource: water. Tune in for an informative and inspiring journey into the heart of two of the most critical environmental issues facing us today.
FreshwaterCrisis, Microplastics, EnvironmentalPodcast, WaterConservation, PlasticPollution, SustainableLiving, EcoAwareness, GlobalEnvironment. -
Пропущенные эпизоды?
-
In this enlightening episode of our video podcast, we tackle the increasingly relevant and complex topic of greenwashing. As more consumers become environmentally conscious, businesses are under pressure to demonstrate their commitment to sustainability. However, this surge in 'green' marketing has led to a concerning trend of misleading environmental claims, often referred to as greenwashing.
Our episode begins with an introduction to the concept of greenwashing and its impact on both consumers and the environment. We explore how businesses, intentionally or not, may make exaggerated or false claims about the eco-friendliness of their products or services, misleading well-intentioned consumers.
The core of our discussion centers around the Green Claims Code developed by the Competition and Markets Authority (CMA). This code is a groundbreaking initiative designed to guide businesses in making honest, accurate, and substantiated environmental claims. We break down each of the 6 key points of the code, discussing their importance and how they can be applied in real-world scenarios.
Throughout the episode, we feature interviews with experts in environmental policy, marketing ethics, and consumer rights. These insights provide a multi-dimensional perspective on the importance of truthful environmental claims and the consequences of greenwashing.
We also present case studies of companies that have been reprimanded for greenwashing, along with examples of businesses that are getting it right, offering a balanced view of the current landscape.
The episode concludes with practical tips for both businesses and consumers. For businesses, we discuss how to align marketing strategies with the Green Claims Code, ensuring that environmental claims are transparent, accurate, and substantiated. For consumers, we provide guidance on how to spot greenwashing and make informed decisions when purchasing 'green' products.
This podcast is an essential listen for anyone interested in the intersection of environmental sustainability, consumer rights, and ethical marketing. Join us as we delve into the world of green claims and uncover the truth behind green marketing.
. -
we are delving into the findings of a groundbreaking study conducted by the UK Met Office, in collaboration with the World Meteorological Organization. This study, titled the 'Global Annual to Decadal Climate Update', presents a compelling forecast for global temperatures over the next five years.
Key Highlights:
Record-Breaking Temperatures Likely: The study indicates a high probability, nearly 50%, that at least one of the upcoming five years will surpass 2016’s record as the warmest year globally.
Rising Above Pre-Industrial Levels: It predicts that annual mean global near-surface temperatures could be between 1.1°C and 1.7°C higher than pre-industrial levels.
Chances of Exceeding 1.5°C Threshold: There’s a 48% chance that at least one year between 2022-2026 will exceed the critical 1.5°C increase above pre-industrial levels. However, the likelihood of the five-year mean surpassing this threshold is relatively low, at 10%.
Comparing with the Past Five Years: The research suggests a 93% chance that the average global temperature for 2022-2026 will be higher than the average for 2017-2021.
Utilizing International Expertise: The update leverages the expertise of international climate centers and cutting-edge climate prediction systems, coordinated by the Met Office.
We explore these findings in depth, discussing their implications for our planet's future and the actions needed to address these challenges. Stay tuned as we dissect this vital report and its potential impact on global climate policy and personal decision-making. -
Reflecting on COP26 from the perspective of COP28 allows for an assessment of the progress made towards the ambitious goals set at the 2021 Glasgow climate conference. COP26 aimed to secure global net zero by mid-century and limit global warming to 1.5 C degrees, underscoring the urgency of climate action. This summary reviews the conference's key outcomes and commitments, providing a basis to evaluate their implementation and effectiveness by COP28.
The key goals of COP26 included achieving global net zero and limiting warming, with strategies focusing on reducing emissions to reach net zero by 2050 through phasing out coal, curtailing deforestation, transitioning to electric vehicles, and increasing renewable energy investments. Adapting to protect communities and natural habitats was emphasized, highlighting the importance of safeguarding ecosystems and human settlements from climate change impacts. Mobilizing finance was a major aim, seeking to secure at least $100bn annually in climate finance for mitigation and adaptation in vulnerable regions. Furthermore, collaborative action and finalizing the Paris Rulebook were stressed, highlighting the need for finalizing the Paris Agreement’s guidelines and enhancing global cooperation against the climate crisis.
The main outcomes from COP26 included the non-binding Glasgow Climate Pact, extending the Paris accord, and outlining decisions to combat climate change. The completion of the Paris Rulebook provided guidelines for implementing the Paris Agreement, encompassing emissions reporting transparency, common emissions targets timeframes, and standards for international carbon markets. Additionally, sector-specific agreements were significant, with notable commitments in forest conservation, methane reduction, automotive emissions, and private finance. This included an agreement to reverse forest loss by 2030 and to phase down coal power.
Responses and reception to these outcomes were mixed. Leaders like UK's Archie Young expressed satisfaction, while UN's António Guterres described the agreements as a "compromise." European Commission's Ursula von der Leyen and the Maldives’ Environmental Minister, Shauna Aminath, emphasized the urgency for ongoing efforts and the existential threat for vulnerable nations. Critiques from environmental groups targeted the Glasgow Pact for not fully addressing the urgency of fossil fuel phase-out and questioned the feasibility of maintaining temperature rises below 1.5 C degrees.
From the viewpoint of COP28, evaluating the tangible actions taken in response to these commitments is crucial. The effectiveness of the Glasgow Climate Pact and the Paris Rulebook can be gauged based on progress in emission reductions, coal phase-out, renewable energy transition, and climate finance mobilization. The response of nations to commitments, particularly in deforestation and automotive emissions, will indicate the level of global cooperation and sincerity in addressing the climate crisis. Additionally, assessing adaptation measures and support for vulnerable nations is essential to understand the real impact of COP26 agreements. This retrospective analysis serves as a measure of the actual progress against the ambitious goals set during COP26. -
in this episode, we explore the complex and often contentious topic of North Sea oil and its role in the current energy landscape. As the world gradually shifts towards renewable energy sources, the need for traditional carbon-based energy, particularly oil and gas, remains a topic of heated debate. This video delves into the reasons why new oil and gas licenses are still being sought and granted, even amidst global efforts to reduce carbon emissions and combat climate change.
the crucial role of North Sea oil in the evolving energy landscape, even as the world shifts towards renewable energy. Despite the global push for carbon neutrality, the video highlights why new oil and gas licenses are still relevant and necessary. -
There are several ambitious, "pie-in-the-sky" ideas that have been proposed as potential solutions to climate change. However, these are generally considered speculative and should be approached with caution, as they might have unintended side effects. The scientific community generally agrees that the most effective approach to combating climate change is through reducing greenhouse gas emissions, increasing energy efficiency, and transitioning to renewable energy sources. Here are some speculative, innovative, and ambitious solutions:
Geoengineering: This involves large-scale intervention in the Earth's natural systems to counteract climate change. For example, Solar Radiation Management (SRM) techniques, such as injecting aerosols into the stratosphere, aim to reflect a small proportion of the Sun's light back into space.
Carbon Capture and Storage (CCS): While already in use to some extent, the idea of deploying CCS at a global scale to remove large amounts of CO2 from the atmosphere is still largely theoretical due to economic and logistic constraints.
Space-based Solar Power: Collecting solar power in space, where the sun always shines, and beaming it back to Earth could provide a virtually unlimited supply of clean energy. However, the costs and technological challenges of deploying and maintaining such a system are considerable.
Building with Biochar: Biochar is a carbon-rich form of charcoal that, when mixed with soil, can sequester carbon for hundreds or even thousands of years.
Direct Air Capture: High-tech machines that act like trees, absorbing carbon dioxide directly from the atmosphere, could be a solution if they can be made economically viable and powered by renewable energy.
Nuclear Fusion: If we can make it work, fusion could provide a virtually unlimited supply of power with minimal environmental impact. The challenge is, it's been a few decades away for many decades.
These ideas are ambitious and could have significant effects on climate change if they were implemented and effective. However, each of them comes with significant challenges and potential drawbacks, and many are still unproven at the necessary scale. It is likely that a combination of many different approaches will be needed to effectively combat climate change. -
Why are those weather events once considered 'once-in-a-lifetime' happening much more frequently? And what does this tell us about our changing climate? Inspired by articles like "Why Are Extreme 'One-In-A-Lifetime' Weather Events Becoming More Frequent?" and "Rare and Severe Weather Events Are Now More Common Thanks to Climate Change", we explore these alarming questions, delving into the hard-hitting realities of our time.
In this video, we break down complex scientific data into an easy-to-understand format, guiding you through the key research that links climate change to the uptick in extreme weather events. We'll walk through real-life examples from recent years, showing how storms, floods, heatwaves, and wildfires are leaving a trail of destruction that's impossible to ignore. -
Welcome to our special 100th-episode celebration video! This milestone would not have been possible without you, our listeners and viewers, who have been part of our journey as we continue to spread awareness and inspire action on climate change.
In this video, we take a retrospective journey back through our podcast's rich history, highlighting the diverse range of topics we've explored together. From the basics of climate science to the impact of global warming on our ecosystems, the innovation in renewable energy sources, the importance of sustainable agriculture, and much more.
Let's revisit our conversation discussing the intricacies of greenhouse gas emissions and global warming. Do you remember the episode where we dove deep into the consequences of melting polar ice caps, or when we analyzed the intersection of climate change and social justice? Those were such enlightening discussions!
Reaching 100 episodes is a significant milestone for us, but it's also a reminder of the urgency and importance of the climate conversation. With every episode, our commitment to providing accurate, insightful, and actionable climate information has only grown stronger.
Whether you've been with us since episode one or just joined us recently, we thank you for your support and engagement. Here's to the next hundred episodes, as we continue our journey towards a more sustainable and resilient future! -
The UK government had pledged to achieve net-zero greenhouse gas emissions by 2050, and in April 2021, it even strengthened its commitment by aiming for a 78% reduction by 2035 compared to 1990 levels. This was a significant increase from the previous target of a 68% reduction by 2030. This was considered one of the most ambitious targets among developed nations.
However, setting ambitious targets is one thing, and making actual progress in achieving them is another. By 2021, the UK had made substantial progress in certain areas like the shift to renewable energy, but challenges remained in other areas such as housing and transportation.
Comparatively, different countries had varying levels of commitment and success in addressing climate change. For instance, the European Union had also set a goal to be climate-neutral by 2050, and aimed to reduce greenhouse gas emissions by at least 55% by 2030 compared to 1990 levels.
Meanwhile, the United States under the Biden administration had committed to reducing its net greenhouse gas emissions by 50-52 percent below 2005 levels by 2030. However, the actual progress of these and other countries can vary greatly based on a wide range of factors, including but not limited to political commitment, policy implementation, technological advancement, and public support. -
Welcome back to Going Green, your favorite podcast for probing the pressing environmental matters of our era. In this captivating episode, we tackle an issue of growing significance - the purported Sixth Mass Extinction.
Our planet's history is scarred by five previous mass extinctions, potent reminders of Earth's susceptibility. Presently, a significant number of scientists posit that we find ourselves in the throes of a sixth event, instigated not by natural processes, but by one species - humans. In this installment, we unpack the meaning of this proposition and its profound implications for our planet's trajectory.
The suggestion that we're in the middle of a sixth mass extinction event, often labeled as the Holocene or Anthropocene extinction, arises largely from human-induced environmental changes. The basis of this assertion stems from the unrivaled pace of species loss being witnessed currently. Recent estimates suggest that we're losing dozens of species daily, a rate that is up to 1,000 times the natural or "background" rate of extinction. Predominantly driven by habitat destruction, climate change, pollution, and the overutilization of species, this swift biodiversity loss is truly alarming.
However, it's crucial to point out that mass extinction events are typically identified via the fossil record, long post their occurrence. Hence, despite the distressing trends we're observing, it remains a subject of ongoing scientific scrutiny whether we can conclusively categorize this as a mass extinction event on par with the five major ones that Earth has experienced historically. -
we explore the critical thresholds in the Earth's climate system. These tipping points, once crossed, can lead to significant, often irreversible changes. Examples include the loss of the Amazon rainforest and the melting of the Greenland ice sheet, both showing evidence of nearing or surpassing these thresholds.
The concept of a climate tipping point isn't binary, with multiple potential points each having its own threshold. The precise levels are still under scientific research. Crossing a tipping point can result in severe, potentially catastrophic impacts on humanity. However, proactive measures such as reducing greenhouse gas emissions, transitioning to renewable energy, protecting and restoring forests, and implementing sustainable agricultural practices can mitigate the worst impacts.
This video emphasizes the need for more research and monitoring to understand these tipping points better. It explores the intricate factors contributing to climate change, potential long-term impacts on ecosystems, economies, and lives, and possible mitigation strategies. This enlightening resource offers an urgent call to action for governments, corporations, and individuals to actively address the escalating climate situation. It serves as a guide for proactive steps that can help shape our collective future. Despite the alarming reality, the message is one of urgency, not despair, underlining the importance and effectiveness of timely and concerted action.
-
In this riveting episode of our podcast, we’re shifting gears and focusing our headlights on a transformative trend in the automotive world that’s mostly flown under the public radar. This is about the electrification of large vehicles, such as lorries (trucks), buses, and other heavy-duty vehicles.
Often overlooked in the electric vehicle (EV) discourse are these formidable giants of transportation. They're quietly undergoing a massive, yet mostly unseen, revolution - trading in diesel for electric power. We'll delve into the innovations driving this shift and the companies leading the charge.
We kick off with a journey into the world of electric lorries, exploring the tech-savvy start-ups and established auto behemoths who are reimagining these freight powerhouses. Learn how they're addressing the unique challenges that come with electrifying such substantial vehicles, from battery technology to charging infrastructure.
Next, we'll board the electric bus revolution. Find out how cities across the globe are implementing these greener options into their public transport fleets, reducing their carbon footprints and improving urban air quality. We'll spotlight the key players, strategies, and benefits of this transformation.
Also, we'll give you an insight into the electrification of other large vehicles like agricultural machinery and construction equipment. Discover how these silent workhorses are reshaping industries known for their high environmental impact, contributing to a more sustainable future.
In addition, we will discuss the implications of this shift for the global energy landscape and climate change targets, as well as the economic and policy factors driving or impeding this revolution.
So buckle up and join us on this exciting journey into the unseen world of electric large vehicles, as we reveal the quiet yet crucial transformation taking place on our highways, in our cities, and on our worksites. It's more than just a trend—it's a revolution.
#electricvehicle #future #evrevolution -
In this episode, Paul and I explore the ambitious new action plan unveiled by the United Nations Environment Program aimed at reducing plastic waste by a whopping 80% by the year 2040. As doubts rise about the effectiveness of recycling, given the presence of approximately 13,000 potentially toxic chemicals in plastics, it's clear that recycling alone is not the solution.
Join us as we delve into the complex and challenging steps outlined by the UN agency to significantly curb our plastic pollution problem. -
The thermohaline circulation, also known as the "global ocean conveyor belt," is a system of ocean currents that transport heat, salt, and nutrients around the world. It plays a crucial role in regulating the Earth's climate by redistributing heat and maintaining the temperature balance between the tropics and the polar regions.
The Beaufort Gyre, a major Arctic Ocean current, has been storing vast amounts of ice and cold freshwater due to increased Arctic sea ice melt. If this gyre were to release its stored freshwater into the Atlantic Ocean, it could have substantial impacts on the thermohaline circulation and, consequently, on the climate of northern Europe.
Here are some potential impacts:
Cooling Effect: The most immediate effect would likely be a significant cooling of northern Europe. The thermohaline circulation brings warm surface water from the tropics to the North Atlantic, which moderates the climate of northern Europe. A large influx of cold freshwater from the Beaufort Gyre could disrupt this heat transport, leading to cooler temperatures.
Weather Patterns: The change in ocean temperatures could also influence atmospheric pressure systems, potentially altering prevailing wind patterns and storm tracks. This could lead to changes in weather patterns, with the potential for increased storminess or precipitation in some areas.
Sea Level Rise: The influx of freshwater could also contribute to sea level rise, especially in the North Atlantic region. This could increase the risk of coastal flooding and erosion.
Biodiversity and Fisheries: Changes in ocean temperature and salinity could have impacts on marine ecosystems, including changes in species distributions and productivity. This could have implications for fisheries, which are important for many coastal communities in northern Europe.
Ocean Acidification and Deoxygenation: The disruption of ocean circulation could potentially exacerbate ocean acidification and deoxygenation, both of which are major threats to marine life.
It's important to note that the precise outcomes are hard to predict and would depend on a range of factors, including the amount of freshwater released, the rate of release, and how the Earth's climate system responds. Moreover, these effects would likely interact with other impacts of climate change, such as increasing temperatures and changing precipitation patterns. The potential disruption of the thermohaline circulation is one of the many reasons why it's so important to mitigate climate change by reducing greenhouse gas emissions. -
In this episode, we explore the potential impact of climate change on the spread of dengue fever and other infectious diseases, with a focus on the United Kingdom. As global temperatures rise, the mosquitoes carrying dengue fever could find the UK to be a suitable breeding ground, posing a significant health risk to millions of people.
We'll examine how factors like temperature, precipitation, and humidity are influenced by climate change, leading to increased dengue transmission during rainy or monsoon seasons. We'll also delve into a study that highlights the connection between climatic hazards and the aggravation of 58% of human pathogenic diseases worldwide.
Lastly, we'll discuss the importance of addressing the root cause of the problem by reducing greenhouse gas emissions and exploring what we can do to limit the damage. Join us to understand the crucial links between climate change, infectious diseases, and the urgent need for action. -
Food waste is a significant problem in relation to climate change for several reasons:
Production emissions: The production of food, including farming, transportation, and processing, generates greenhouse gas (GHG) emissions. When food is wasted, all the emissions associated with its production are also wasted, effectively amplifying the environmental impact of the food system.
Methane emissions: When food waste decomposes in landfills, it generates methane, a potent greenhouse gas with a global warming potential 28 to 36 times greater than carbon dioxide over a 100-year period. By reducing food waste, we can decrease the amount of methane released into the atmosphere.
Deforestation and land use: Food production is a major driver of deforestation and land use change, both of which contribute to climate change. Wasting food means that the land and resources used to produce it are also wasted, leading to unnecessary deforestation and habitat loss.
Water and resource waste: Agriculture is responsible for a significant portion of global water usage, and many food production processes consume substantial amounts of energy and other resources. Wasting food results in the waste of these valuable resources, exacerbating environmental issues and contributing to climate change.
Social and economic implications: Food waste also has social and economic consequences, as the resources used to produce wasted food could be allocated more effectively to address food insecurity or invested in sustainable production methods that mitigate climate change.
Addressing food waste can help to mitigate the impacts of climate change by reducing emissions, conserving resources, and promoting more sustainable and efficient food systems. Efforts to reduce food waste can include better storage and transportation, more accurate supply and demand forecasting, consumer education, and policy changes that support the reduction of waste at various stages of the food supply chain.
#wastefood
#StopFoodWasteDay
#podcast -
Monitoring CFCs (chlorofluorocarbons) is crucial for several reasons, mainly due to their adverse effects on the environment and climate. The reasons why CFCs should be monitored include:
Ozone layer depletion: CFCs are known to break down the Earth's ozone layer by releasing chlorine atoms when exposed to ultraviolet (UV) radiation. A single chlorine atom can break down thousands of ozone molecules, causing a significant depletion of the ozone layer. This thinning of the ozone layer allows more harmful UV radiation to reach the Earth's surface, resulting in numerous negative consequences for humans, animals, and plants.
Greenhouse gas emissions: CFCs are potent greenhouse gases, with global warming potentials thousands of times greater than carbon dioxide (CO2). They can trap heat in the Earth's atmosphere, contributing to climate change and global warming. Monitoring CFCs can help us understand their role in the global climate system and develop strategies to reduce their emissions.
Compliance with international agreements: The Montreal Protocol and its amendments have established a framework for phasing out the production and consumption of CFCs and other ozone-depleting substances. Monitoring the levels of CFCs in the atmosphere is essential to ensure compliance with these agreements and evaluate the effectiveness of the measures taken by countries to phase out these harmful substances.
Detection of illegal activities: Despite the international ban on CFC production and consumption, there may still be instances of illegal production, trade, and use. Monitoring CFC levels in the atmosphere can help identify such activities and take appropriate measures to stop them.
Assessing the ozone layer's recovery: Monitoring CFC concentrations in the atmosphere allows scientists to track the recovery of the ozone layer over time. As CFC levels decrease, the ozone layer is expected to recover gradually. Observing this progress helps verify the effectiveness of global efforts to protect the ozone layer and can inform future policies and actions.
Guiding research and development: Monitoring CFCs can provide valuable information for researchers and industries working on developing alternative substances and technologies. Understanding the behavior and concentration of CFCs in the atmosphere can inform the development of safer alternatives that are less harmful to the environment and climate.
In summary, monitoring CFCs is essential for protecting the ozone layer, mitigating climate change, ensuring compliance with international agreements, detecting illegal activities, assessing the ozone layer's recovery, and guiding research and development of alternative technologies. -
The UK is in for a rude awakening as it faces a range of climate risks that could cause significant damage to its infrastructure and communities. In a shocking report, the Climate Change Committee (CCC) has concluded that the UK is "strikingly unprepared" for the looming threats of climate change. From food security to water supply, transport to health, business to agriculture, and finance, adaptation efforts are "lacking across the board".
But that's not all - the CCC report also reveals that the UK's efforts to tackle climate risks have fallen short in almost every sector. This includes the critical areas of food security, water supply, and infrastructure. It's a worrying trend that could have disastrous consequences for the UK's future.
The CCC report closely links to the UK Climate Risk Assessment (UKCRA), which provides a comprehensive understanding of the risks and opportunities associated with climate change in the UK. The CCC's analysis and recommendations are used to inform the development of the UKCRA and to shape the government's policy and decision-making in response to the risks and opportunities identified.
The UK needs to step up its game in the face of these climate risks, and fast. The CCC and UKCRA must continue to work together to monitor progress and provide essential advice to help the UK adapt to the impacts of climate change. The time for action is now before it's too late. -
In this episode will discuss the urgent need for swift and drastic action on climate change. We will explore the current state of the planet and the impact that human activities are having on our environment. We will also discuss the potential consequences of not taking action and the importance of taking action now.
We discuss the UN's new ten actions to Everyone can help limit climate change. these range from the way we travel to the electricity we use, the food we eat, and the things we buy, we can make a difference.
Finally, we will discuss the importance of taking swift and drastic action on climate change. We will highlight some of the steps that individuals, businesses, and governments can take to reduce greenhouse gas emissions and mitigate the impacts of climate change. We will also explore the role of technology and innovation in addressing climate change. - Показать больше