Global Emissions and Carbon Offsetting: Examining Conservational Approaches and Regulatory Gaps
“Allowing carbon emissions to grow under the disguise of offsetting is not a pathway to sustainability but a dangerous perpetuation of malpractice.”
Abstract
This paper addresses one of the most critical global challenges of our time: the complex fabric of carbon emissions and its far-reaching consequences, with a focus on both global and Indian contexts. It examines the nature, scale, and impacts of emissions, which are being dangerously accelerated by rapid urbanization and industrialization, affecting everything from daily life to long-term environmental stability. The paper further analyzes the strategies and legislative frameworks designed to mitigate these emissions while simultaneously empowering key stakeholders, such as indigenous communities, who are integral to effective conservation.
The analysis delves into the mechanisms and outlook of carbon offsetting, critically evaluating the widespread challenges that undermine its potential. While often promoted as an efficient pathway to sustainability, this paper exposes critical loopholes, including greenwashing, inequitable trading practices, and the proliferation of low-quality offsets. These flaws not only compromise positive climate outcomes but also diminish the ripple effect of genuinely effective projects. Furthermore, it highlights how the commodification of carbon credits, driven largely by multinational corporations, erodes credibility and long-term viability, a problem starkly illustrated by a case study on the C-Quest Capital carbon credit scandal.
The paper concludes by analyzing existing laws and future commitments, advocating for a reformed system built on stringent monitoring, transparent reporting, and amendments to past schemes that have lost momentum. Ultimately, it serves as a warning that without fundamental reform, carbon offsetting risks serving as a convenient escape for polluters rather than a true pathway to decarbonization, making this an urgent and crucial topic of global concern.
The Dual Challenge: Rising Global Emissions and Fragile Accountability
Global carbon emissions have been setting record highs for several decades, creating an urgent need for accelerated and sustainable climate action. In 2024, fossil fuel-related carbon dioxide emissions reached 37.4 gigatonnes, a 0.8% increase from 37.0 gigatonnes in 2023. When emissions from land-use change are included, total anthropogenic CO₂ emissions hit a record 41.6 gigatonnes in 2024, underscoring the necessity of transforming conservational methods and achieving rapid emission declines within this decade. Despite the formation of global committees and the expansion of renewable energy, the world’s emissions trajectory remains alarmingly upward.
India, with a population of 1.4 billion and consistent GDP growth, faces a continuously rising energy demand. As the fifth-largest energy consumer globally, India’s consumption exceeds 524 million tonnes of oil equivalent annually, placing it at the heart of the global energy and climate dialogue. The energy sector is the single largest contributor to global greenhouse gas emissions, accounting for approximately 76% of the total. Within this sector, electricity and heat generation constitute 34%, while transport adds another 14%. Road transport alone contributes about 70% of all transport-related emissions. Fossil fuels continue to dominate the global energy mix, comprising roughly 81.5% of primary energy consumption in 2024.
Compounding this crisis, carbon accountability remains perilously weak. Multiple investigations have revealed deep-seated faults in offsetting schemes. For instance, a significant portion of forest-based carbon offsets, particularly those under REDD+ frameworks, have failed to represent genuine emission reductions due to flawed methodologies. Fraudulent practices within carbon markets have not only eroded credibility but also neutralized the impact of authentic projects. From a financial perspective, these failures represent a colossal misallocation of capital, with ineffective schemes attracting over €1 billion in funds. These outcomes raise serious questions about corporate transparency and expose the intricate challenge of balancing energy security and economic growth with the urgent need for genuine decarbonization.
The Emissions Outlook: A Global and Indian Perspective
With energy-related CO₂ emissions touching a ceiling of 37.8 gigatonnes in 2024 and atmospheric CO₂ levels reaching approximately 422.5 ppm, both the International Energy Agency (IEA) and the Global Carbon Budget signal the continued dominance of fossil fuels despite the significant growth of renewables. The IEA’s World Energy Outlook 2024 projects that demand for coal, oil, and gas will all peak by 2030, even under current policies.
India's role in this outlook is crucial. The country accounts for about 8% of total global CO₂ emissions, and its fossil fuel emissions grew by 4.6% in 2024, reflecting its immense energy needs. Concurrently, India has made strides in sustainability, with its total power capacity reaching 485 gigawatts by June 2025, of which non-fossil sources represent a 48.3% share. This indicates a strategic shift, yet conventional sources, primarily coal, remain the bedrock of its energy generation. Looking ahead, India aims for 500 gigawatts of non-fossil capacity by 2030 and has committed to a net-zero goal by 2070 in its UNFCCC submissions.
The future trajectory of emissions is deeply connected to surging energy demand, driven by rising living standards, urbanization, and industrialization. In developing nations like India, aspiring to economic self-reliance, energy needs are escalating rapidly. The IEA projects that India will surpass the European Union as the world’s third-largest energy consumer by 2030. Sectorally, electricity, transport, and industry continue to dominate demand. India’s oil demand is projected to grow by one million barrels per day by 2030, making it the primary driver of global oil demand growth.
However, this energy trajectory carries profound environmental consequences. India’s total greenhouse gas emissions leaped by 6.1% in 2023, yet its per-capita emissions of 6.6 tonnes CO₂ remain below the global average. The climate impacts are already undeniable: India's average temperature has risen by 0.7°C between 1901 and 2018, fueling glacier retreat, rising sea levels, and extreme weather events. The economic losses are equally stark; mounting heat stress alone may cost India up to 5.8% of its working hours by 2030, equivalent to millions of full-time jobs.
Current Provisions and Suggested Implementations
1. Accelerating the Renewable Energy Transition
Current Provisions: The global push for renewable energy is gaining momentum. In 2023, renewables accounted for 30% of global electricity generation. China alone added 217 gigawatts of renewable capacity, more than the total installed capacity of the United States. The EU has pledged a 55% reduction in net greenhouse gas emissions by 2030, leaning heavily on wind and solar.
Suggested Implementations: To effectively integrate renewables, nations must increase investments in grid modernization and energy storage. An additional $1.2 trillion annually in clean energy investment could enable global CO₂ emissions to peak before 2025 and fall by 35% by 2030, aligning with the 1.5°C target of the Paris Agreement.
2. Improving Carbon Pricing Mechanisms
Current Provisions: As of 2025, 80 carbon pricing initiatives (taxes or emissions trading systems) are active globally, covering 28% of greenhouse gas emissions. The EU Emissions Trading System (ETS), the world's largest carbon market, has helped reduce emissions in its covered sectors by 41% since 2005.
Suggested Implementations: Expanding carbon pricing to cover at least 60% of global emissions by 2030could generate $1.5 trillion in annual revenue. Redirecting these funds to green infrastructure could reduce fossil fuel dependence by 40% in developing economies.
3. Mandating Energy Efficiency Upgrades
Current Provisions: Global investment in energy efficiency reached $650 billion in 2023, focusing on green buildings, vehicles, and appliances. These improvements prevented an estimated 5 gigatonnes of CO₂ emissions between 2010 and 2022.
Suggested Implementations: Stricter, mandatory standards are needed. Upgrading global building codes could cut 2.5 gigatonnes of CO₂ annually by 2030, while electrifying transport fleets could reduce oil demand by 7 million barrels per day by 2035.
4. Enhancing Habitat Conservation and Nature-Based Solutions
Current Provisions: Reforestation and afforestation projects absorb about 2 gigatonnes of CO₂ annually, but this is offset by the 3.5 gigatonnes emitted from ongoing deforestation. However, stricter policies are showing results; Brazil’s Amazon deforestation rates dropped by 50% in 2023 following enforcement actions like Operation Guardians of the Biome.
Suggested Implementations: Scaling nature-based solutions like REDD+ could prevent up to 5 gigatonnes of CO₂ annually by 2030. Integrating biodiversity credits with carbon credits would enhance ecological resilience and unlock new funding streams.
5. Driving Industrial Decarbonization
Current Provisions: Heavy industries (steel, cement) account for 30% of global CO₂ emissions. Aviation emissions are projected to triple by 2050 without intervention. Progress is emerging through pilot projects, such as hydrogen-based steel plants in Europe and India, which use hydrogen instead of coal and release water as a byproduct.
Suggested Implementations: Investing in green hydrogen and Carbon Capture, Utilisation, and Storage (CCUS) could cut industrial emissions by 4 gigatonnes annually by 2050. For aviation, scaling Sustainable Aviation Fuels (SAFs) to 65% of fuel use by 2050 could reduce emissions by 70%.
6. Electrifying Transport and Boosting EV Adoption in India
Current Provisions: Transport contributes nearly 10% of India’s CO₂ emissions. India has launched the FAME II scheme to target 30% EV penetration by 2030. While EV sales grew by over 150% in 2023, they still represent less than 2% of the total vehicle stock.
Suggested Implementations: Expanding EV adoption through localized battery manufacturing, faster charging infrastructure, and fiscal incentives is critical. Transitioning just 30% of new two-wheelers and cars to EVs could abate over 200 metric tonnes of CO₂ annually by 2030.
Carbon Offsetting and Credits: Current Scenario
Carbon offsetting allows entities to compensate for their emissions by investing in projects that reduce or remove emissions elsewhere—through activities like reforestation, renewable energy, or methane capture. These projects generate carbon credits, where one credit represents one tonne of CO₂ equivalent avoided or removed.
Credits are particularly crucial for "hard-to-abate" sectors. The aviation industry, for example, which accounts for 2.5% of global CO₂ emissions, relies heavily on them. Under the CORSIA scheme (Carbon Offsetting and Reduction Scheme for International Aviation), airlines are projected to require millions of credits annually to achieve carbon-neutral growth.
Fueled by this demand, the global carbon credit market was valued at $669 billion in 2024 and is projected to surpass $16 trillion by 2034. The voluntary carbon market (VCM) alone is forecast to grow from $2 billion in 2022 to over $250 billion by 2030, driven by net-zero commitments from corporate giants like Microsoft and Shell. While direct emissions cuts must remain the priority, a well-regulated carbon credit system can play a supportive role by channeling finance into conservation and sustainable technologies.
Unpacking the Loopholes: The Credibility Crisis in Carbon Markets
The concept of carbon offsetting is built on financing projects that reduce emissions—from forest protection under REDD+ to engineered solutions like Direct Air Capture. The VCM, which peaked at $1.9 billion in 2022, saw its value shrink to $723 million in 2023 due to a widespread crisis of credibility.
This crisis stems from systemic loopholes that undermine the claimed climate benefits:
False Additionality and Inflated Baselines: Many projects, particularly in forestry and cookstove programs, claim emission reductions that would have occurred anyway. Studies have revealed that over 90% of some rainforest offset credits did not represent genuine emission reductions due to exaggerated baselines.
Leakage: When deforestation is stopped in one protected area, the activity is often displaced to a nearby region, resulting in no net change in emissions.
Double Counting: The same emissions reduction is sometimes claimed by both the host country and the credit buyer, a failure of international registries and coordination.
These flaws have severe consequences. Over-crediting floods the market with low-quality offsets, causing prices to collapse—avoided-deforestation credits, for instance, fell from $12 per tonne in 2021 to just $2–$3 in 2023. This diverts capital from high-integrity solutions and allows corporations to purchase cheap, meaningless offsets to "greenwash" their inaction. The problem is worsened by poor disclosure, with only 60% of firms reporting their Scope 3 emissions (value chain), which often constitute the majority of their carbon footprint.
A striking example is the case of C-Quest Capital (CQC). The company sold millions of dollars worth of carbon credits from cookstove projects in Africa and Asia, but investigations revealed inflated usage rates and exaggerated savings. In 2023, U.S. regulators charged the company with fraud, highlighting how weak verification can lead to the proliferation of non-additional credits and catastrophic damage to market trust.
Forging a Path Forward: Recommendations for a High-Integrity Market
1. Enforce the Integrity Council’s Core Carbon Principles (CCPs)
Current Provision: The Integrity Council for the Voluntary Carbon Market (ICVCM) has established science-based principles for high-quality credits. At COP29, the first CCP-approved methodologies were announced, setting a new benchmark.
Recommendations: Mandate the use of CCP-labeled credits and accelerate the adoption of CCP-aligned methodologies across all project types. Global governments should follow the lead of the US, UK, and Singapore in formally recognizing and supporting the CCP framework.
2. Mandate ISO 14068 for Carbon Neutrality Claims
Current Provision: Introduced in 2024, the ISO 14068 standard replaces outdated criteria and establishes a clear hierarchy for achieving carbon neutrality, prioritizing emissions reduction before offsetting.
Recommendations: Make adherence to ISO 14068 mandatory for all corporate offset claims. This includes detailed disclosure of project IDs, methodologies, and permanence risks, thereby eliminating misleading claims.
3. Implement Meta-Registries to Prevent Double Counting
Current Provision: S&P is developing a Global Carbon Credit Meta-Registry, supported by the Global Carbon Council and Climate Warehouse, to provide cross-registry transparency.
Recommendations: Accelerate the development and adoption of this meta-registry to create a single source of truth that prevents a credit from being issued or counted more than once.
4. Require Comprehensive Scope 3 Disclosures
Current Provision: While 88% of firms report Scope 1 and 2 emissions, only 70% provide partial disclosure of Scope 3, which often accounts for 75% of a company's total emissions.
Recommendations: Expand mandatory Scope 3 reporting to all large firms, including private ones. Accurate value-chain accounting will ensure offsets supplement a robust emissions reduction strategy, rather than substituting for it.
5. Leverage Technology for Monitoring, Reporting, and Verification (MRV)
Current Provision: A major obstacle in carbon markets is weak project verification.
Recommendations: Systematically integrate satellite and AI technologies for MRV. Satellites can provide near real-time data on deforestation, methane leaks, and industrial emissions. AI algorithms can analyze vast datasets to detect anomalies, cross-check claims across registries, and verify project integrity, thereby minimizing the risks of false additionality and leakage.
Conclusion
This paper’s analysis of global greenhouse gas emissions and the flawed mechanisms of carbon offsetting should evoke a sense of profound responsibility and catalyze robust action. We are stewards of a single blue planet, and its future cannot be sacrificed to corporate greed or regulatory inaction. The path forward requires a systemic overhaul built on stringent laws, transparent and technology-driven offsetting methods, and unwavering collective action. Only by transforming carbon offsetting from a tool of disguise into an instrument of genuine climate finance can we hope to build a sustainable and habitable world for generations to come.