Adapt or Perish in Climate Change: The Role of Fossil Fuels and Carbon Emissions

 The Role of Fossil Fuels and Carbon Emissions

Fossil fuels are major contributors to climate change

Fossil fuels—coal, oil, and natural gas—have been the foundation of industrial development and economic growth for over two centuries. However, their extraction, associated processes, and combustion of the extracted and refined energy are the major contributors to climate change, accounting for most greenhouse gas (GHG) emissions.

Recent data show that global energy consumption is heavily reliant on fossil fuels. Approximately 80% of the world's energy consumption comes from coal, oil, and natural gas (International Energy Agency [IEA], 2022). Specifically, coal accounts for about 27%, oil represents roughly 31%, and natural gas is around 22% of the total energy mix (BP Statistical Review of World Energy, 2023).

This section discusses the history of dependence on fossil fuels, the environmental impacts of carbon emissions, the role of the industry sector, and the complex social and political world that makes the transition to renewables both challenging and highly essential.

The Fossil Fuel Era: A Historical Perspective

The Industrial Revolution in the late 18th century commenced the fossil fuel era. Initially, coal was the primary fossil fuel that powered steam engines and provided heat for most industries. By the late 19th century, oil emerged as a crucial energy source, particularly with the development of the internal combustion engine. Natural gas gained prominence in the mid-20th century as a cleaner alternative to coal for electricity generation and heating.

Coal

Coal was pivotal in shaping the industrial landscape during the 19th and early 20th centuries, emerging as the primary energy source that fueled unprecedented growth and development in Europe and North America. During this period, coal-fired power plants and steam engines transformed industries, transportation, and urbanization, laying the groundwork for modern economies.

As the decades progressed, the reliance on coal began to wane in certain regions, mainly due to the rise of alternative energy sources and growing environmental concerns. However, even as its prominence has declined in places like the United States and parts of Europe, coal continues to maintain its status as a crucial energy source on a global scale. This continuing usage of coal is particularly evident in countries such as China and India, where coal remains a dominant player in the energy mix, driving economic growth and supporting energy needs for expanding populations and industries.

In these nations, coal mining and consumption have evolved with technology, although they still pose significant challenges related to air quality and climate change. The ongoing debates surrounding coal's future highlight the complexities of balancing energy demands, economic development, and environmental sustainability in an ever-evolving energy landscape.

Oil

The discovery of vast oil fields, coupled with innovative drilling technologies, transformed global energy systems throughout the 20th century. This valuable resource quickly became essential, laying the foundation for the transportation sector. With gasoline and diesel as its primary products, oil powered an array of vehicles—from bustling cars zipping through city streets to massive cargo ships traversing oceans and airplanes soaring through the skies. This newfound reliance on oil reshaped economies and redefined how people traveled and conducted trade worldwide.

Natural Gas

Natural gas has emerged as a vital energy source in various sectors as a cleaner and more environmentally friendly alternative to coal and oil. It is increasingly utilized for generating electricity, providing efficient heating solutions, and serving as a crucial feedstock in numerous industrial processes. Its versatility and lower emissions make it an appealing choice for meeting the world's growing energy demands while reducing environmental impact.

While these energy sources will continue to boost economic growth, technological progress, and enhanced living standards, they also contribute to the current climate crisis by emitting massive amounts of carbon dioxide (CO₂) and methane (CH₄) into the atmosphere. According to the most recent data from the Global Carbon Project (2022), global carbon dioxide emissions increased by 6% in 2021, reaching a record high of approximately 36.4 billion metric tons (Global Carbon Project, 2022).

The Environmental Consequences of Carbon Emissions

The business-as-usual combustion of fossil fuels remains the primary source of human-induced greenhouse gas (GHG) emissions, which capture heat within the Earth's atmosphere and accelerate global warming.

CO₂ Emissions (75%)

Carbon dioxide is the most prevalent greenhouse gas by volume, contributing to approximately 75% of total global GHG emissions. Most CO₂ emissions stem from burning fossil fuels for energy production and transportation (Intergovernmental Panel on Climate Change [IPCC], 2021).

Methane (CH₄) Emissions

Methane, a significant byproduct of natural gas extraction and coal mining, is over 25 times more potent at trapping heat than carbon dioxide. Leaks occurring during oil and gas operations are key contributors to the escalation of global warming. In addition, due to the permafrost phenomenon, scientists are deeply concerned about the amount of methane that will be released in the coming decades.

Air Pollution

The combustion of fossil fuels also emits harmful pollutants, such as sulfur dioxide (SO₂), nitrogen oxides (NOₓ), and particulate matter, among various health-threatening elements. These emissions degrade air quality and pose serious risks to respiratory health and overall public well-being.

Environmental Degradation

The extraction processes associated with fossil fuels—mining, drilling, and hydraulic fracturing—disrupt local ecosystems, contaminate water supplies, obliterate natural habitats, and even negatively alter traditional settlement areas. A stark example is the Deepwater Horizon oil spill in 2010, which inflicted lasting damage on marine ecosystems.

The Role of High-Emission Industries

Numerous industries rely heavily on fossil fuels, a major source of greenhouse gas (GHG) emissions. This dependence significantly impacts the environment and exacerbates climate change.

Energy Sector (73%)

The energy sector is the major contributor to global GHG emissions that cause the steadily rising temperature, accounting for approximately 73% of total emissions. This sector is highly carbon-intensive, generating energy from coal and natural gas (IEA, 2022), the top culprits of gas emissions.

Industry (8%)

Industrial processes, particularly cement and steel production, significantly contribute to emissions due to their heavy reliance on coal and natural gas. Notably, cement production alone is responsible for about 8% of global CO₂ emissions.

Transportation (14%)

The transportation sector, including cars, trucks, ships, and airplanes, is the second-largest source of emissions, mainly fueled by fossil energy. Transitioning to electrified transportation systems is essential for mitigating these emissions.

Agriculture and Land Use (18%)

Fossil fuels are integral to producing fertilizers and operating machinery and irrigation systems, which indirectly contribute to emissions in the agriculture sector.

According to recent studies, the transportation sector is responsible for approximately 14% of global greenhouse gas (GHG) emissions, while agriculture contributes around 18% (IPCC, 2021).

The Politics of Fossil Fuels

The global dependence on fossil fuels transcends mere technological or economic concerns; it is fundamentally a political issue intricately entwined with vested interests, subsidies, and geopolitical dynamics.

Fossil Fuel Subsidies ($5.9 trillion worldwide)

Fossil fuel subsidies, which reached an estimated $5.9 trillion worldwide in 2020, distort energy markets and impede the transition to cleaner alternatives (International Monetary Fund [IMF], 2021). Many economies, especially oil-exporting countries and regions, have become significantly reliant on revenue generated from fossil fuels.

Lobbying and Influence

Many global and influential fossil fuel corporations wield significant political power through lobbying and campaign financing. Political lobbying by industries, for example, often focuses on policymakers who create policies that prevent, delay, or undermine climate action, such as opposing carbon pricing or outright rejecting particular renewable energy initiatives. Recent studies indicate that fossil fuel companies have spent over $1 billion on lobbying efforts in the United States from 2016 to 2021, influencing policies related to energy and climate change (Meyer, 2021).

Geopolitical Tensions  

The concentration of fossil fuel resources in specific regions has led to geopolitical tensions and conflicts. A relevant study that discusses geopolitical tensions due to fossil fuel energy resources is "Global Oil and Geopolitical Tensions: The Impact of Oil on Global Politics" by Valentina D. Shkolnik (2019). This study examines how the dependency on oil has led to rivalries and conflicts among nations, particularly in oil-rich regions. It highlights that countries often use aggressive foreign policies to secure oil supplies, leading to heightened geopolitical tensions and instability.

Global North vs. Global South  

Developed countries have been called 'developed' as they historically reap the benefits of fossil fuel-driven industrialization. Many have signed the Paris Agreement (2015), and some have started advocating for global emissions reductions by organizing and sponsoring international events and negotiations, such as the Conference of Parties (COP). In contrast, most developing countries and regions assert their right to utilize fossil fuels for economic advancement while at the same time insisting on the necessity for equitable climate solutions.

Transition Challenges and Opportunities

While transitioning from fossil fuels to renewable energy is crucial, it brings challenges and opportunities. In this subsection, let us briefly describe the significant items below.

Challenges:

Infrastructure

The existing energy systems are built mainly around fossil fuel usage in most developed and some developing countries and regions, creating a significant challenge for transitioning to renewable energy sources. This transition requires a massive and serious financial commitment to upgrade and modernize infrastructure to accommodate technologies like solar, wind, and geothermal energy, among various possible sources.

Economic Disruption

The fossil fuel industry has been the backbone for millions of jobs worldwide for many decades, and most people rely on it for their livelihoods. However, several companies have been developing comprehensive strategies for workforce reskilling, and the transition is crucial as the world shifts towards greener energy solutions. Many studies, including those by non-governmental organizations, have published recommendations for governments and industries to shift from carbon-intensive to renewables without any economic losses. Doing so will help mitigate potential job losses and economic fallout associated with declining fossil fuel dependency.

Energy Access

Fossil fuels are often the most affordable and widely available energy sources in many developing countries and regions. This reality is the fundamental barrier to promoting renewable energy alternatives, as numerous communities rely on accessible energy to support their economic activities and live their daily lives.

Opportunities:

Renewable Energy Growth

The advancements in renewable technologies, particularly solar and wind energy, have significantly decreased costs, making these options increasingly viable for widespread global adoption. This shift presents an excellent opportunity for big companies to transition from carbon-intensive energy resources to renewables and for innovative startups to grow and employ renewable energy production techniques. It also presents an opportunity to decarbonize energy systems and greatly supports lowering greenhouse gas emissions, contributing to global efforts against climate change.

Job Creation

The burgeoning renewable energy sector has already proven its advantages, as it has started creating millions of new jobs across various fields, including manufacturing, installation, and ongoing maintenance of renewable energy systems. This new job market can provide sustainable employment opportunities, particularly in regions where traditional fossil fuel jobs are declining.

Energy Security

Every country or region can develop and enhance its energy security by reducing reliance on imported fossil fuels, which is usually costly to the taxpayers. However, it requires political will and coordination among relevant sectors and ministries, including finance, banks, and industry. In addition, energy security is particularly advantageous for nations endowed with various renewable resources, such as sunlight, wind, tidal, and thermal energies, as they can leverage these assets to develop self-sustaining energy systems, reducing vulnerability to market fluctuations and geopolitical tensions surrounding fossil fuel supply.

According to the International Renewable Energy Agency (IRENA), the renewable energy sector could create up to 24 million jobs globally by 2030, driven by investments in solar, wind, and other renewable technologies (IRENA, 2020).

Moreover, a report by the International Energy Agency (IEA, 2021) indicates that achieving net-zero emissions by 2050 could unlock investments worth $4 trillion annually in renewable energy capacity, energy efficiency, and other clean technologies. This shift supports job creation and contributes to energy security by diversifying energy sources and reducing dependency on fossil fuel imports.

In addition, a study by the World Economic Forum (2021) found that transitioning to renewable energy could lead to a 50% reduction in energy-related greenhouse gas emissions by 2030, aligning with climate goals while bolstering economic resilience.