ESG DATA PRODUCT DESCRIPTION

Unique dataset tracking corporate climate commitments across 4,000+ global companies. Our data captures the full spectrum of climate pledges, from net-zero and carbon neutrality to carbon positivity claims, with comprehensive status tracking across all reporting periods. Through rigorous monitoring of commitment evolution, we enable precise assessment of corporate climate ambition and progress. Essential for stakeholders evaluating transition readiness, monitoring climate leadership, and assessing the credibility of corporate environmental commitments.

ESG DATA PRODUCT CHARACTERISTICS

• Company Coverage:              4,000+ companies • Geographical Coverage:       Global • Sectorial Coverage:                All sectors • Data Historical Range:           2010 - 2024 • Median Data History:             6 years • Data Traceability Rate:           100% • Data Frequency:                     Annual • Average Reporting Lag:         3 months • Data Format:                            Most Recent/Point-in-Time

UNIQUE DATA VALUE PROPOSITION

Uncompromised Standardization

Our team of environmental engineers meticulously maps climate commitment data according to standardized categories, distinguishing between three distinct levels of pledges. This guarantees uniformity and comparability across our dataset, bridging the gap created by the varied terminology and semantics companies use to describe their climate commitments.

Unbiased Data Integrity

Our approach is grounded in delivering climate commitment data exactly as claimed by companies, without making inferences or estimates for undisclosed data. This strict adherence to factual reporting ensures the integrity of the data you receive, providing an unaltered and accurate view of corporate climate commitments.

End-to-End Data Traceability

Every climate commitment is traceable to its original source with exact page references and documentation of calculation methodologies. This transparency enables confident verification of corporate climate commitments and progress claims.

Full-Scope Boundary Verification

We tag climate commitments that do not cover a company's entire organizational or operational boundaries with an 'Incomplete Boundaries' attribute. This attribute enhances transparency and ensures the comparability of our data by keeping you informed of any potential limitations.

USE CASES

Asset Management

Use climate commitment data primarily for portfolio management and strategic decision-making, including assessing companies' climate ambition, tracking pledge credibility, informing engagement strategies, screening for climate leaders, developing climate-focused investment products, and aligning portfolio strategies with net-zero goals.

Financial Institutions & Banking

Leverage commitment data to assess transition risks, develop sustainable finance products, provide climate advisory services, and inform lending decisions, focusing on evaluating borrower credibility, structuring sustainability-linked products, and aligning portfolios with net-zero pathways.

FinTech

Develop technological solutions utilizing climate commitment data, including analytics platforms, portfolio management tools, compliance solutions, and APIs, enabling automated tracking, validation, and monitoring of corporate climate pledges while supporting regulatory compliance needs.

GreenTech & ClimateTech

Utilize commitment data to assess solution impact, identify market opportunities, develop value chain solutions, and support implementation, helping clients achieve their climate commitments through technological interventions and practical implementation support.

Corporates

Employ commitment data for strategic planning and implementation, including benchmarking against peers, analyzing competition, engaging with suppliers, and communicating with stakeholders about climate ambitions and progress.

Professional Services & Consulting

Use commitment data to provide advisory services, including developing sector-specific transition strategies, supporting net-zero implementation, guiding climate strategy development, engaging supply chains, and monitoring progress against commitments.

Research & Academia

Analyze commitment data to study trends in corporate climate action, research factors affecting achievement success, assess policy impacts, and understand the economic implications of climate commitments and their achievement.

The Near Real-time Data Access (NeRDA) Portal is making near real-time data available to our stakeholders and interested parties. We're helping the transition to a smart, flexible system that connects large-scale energy generation right down to the solar panels and electric vehicles installed in homes, businesses and communities right across the country. In line with our Open Networks approach, our Near Real-time Data Access (NeRDA) portal is live and making available power flow information from our EHV, HV, and LV networks, taking in data from a number of sources, including SCADA PowerOn, our installed low voltage monitoring equipment, load model forecasting tool, connectivity model, and our Long-Term Development Statement (LTDS). Making near real-time data accessible from DNOs is facilitating an economic and efficient development and operation in the transition to a low carbon economy. NeRDA is a key enabler for the delivery of Net Zero - by opening network data, it is creating opportunities for the flexible markets, helping to identify the best locations to invest flexible resources, and connect faster. You can access this information via our informative near real-time Dashboard and download portions of data or connect to our API and receive an ongoing stream of near real-time data.

Methane Emissions Satellite API Market Outlook

According to our latest research, the global methane emissions satellite API market size is valued at USD 412.5 million in 2024, with a robust compound annual growth rate (CAGR) of 18.7% projected from 2025 to 2033. By 2033, the market is expected to reach USD 1,996.4 million, as increasing regulatory scrutiny and the urgent global push for climate action continue to drive demand for high-precision methane monitoring and reporting solutions. The rapid integration of satellite-based APIs for methane detection across industries is a primary growth factor, fueled by technological advancements and the necessity for transparent emissions data.

One of the most significant growth factors in the methane emissions satellite API market is the heightened focus on climate change mitigation and the enforcement of stricter environmental regulations globally. Governments and international organizations are now mandating real-time, accurate emissions monitoring, particularly for methane, which is a potent greenhouse gas. The ability of satellite APIs to deliver near real-time, high-resolution data on methane leaks and emissions is transforming how industries such as oil & gas, agriculture, and waste management comply with environmental standards. This trend is further accelerated by the growing number of satellites equipped with advanced sensors, which provide comprehensive coverage and granular data, enabling organizations to proactively manage and reduce their methane footprint.

Another key driver is the technological evolution in remote sensing and cloud computing, which has significantly enhanced the accessibility and utility of satellite-derived methane data. The integration of artificial intelligence (AI) and machine learning algorithms into these APIs allows for automated detection, quantification, and reporting of methane emissions, reducing manual intervention and operational costs. Additionally, the proliferation of open data initiatives and collaborations between private space companies and public agencies have democratized access to high-quality emissions data, fostering innovation and adoption across both developed and emerging economies. This democratization is particularly important for sectors like agriculture and research, where budget constraints previously limited access to advanced monitoring tools.

The increasing adoption of ESG (Environmental, Social, and Governance) frameworks by corporations is also propelling the demand for methane emissions satellite APIs. Investors and stakeholders are demanding greater transparency and accountability in sustainability reporting, with methane emissions being a critical metric. Companies in the energy, agriculture, and industrial sectors are leveraging these APIs to enhance their environmental disclosures, mitigate reputational risks, and align with global sustainability goals such as net-zero emissions. The ability to integrate satellite data into existing enterprise systems and sustainability dashboards is streamlining compliance, driving operational efficiencies, and supporting strategic decision-making for long-term environmental stewardship.

Regionally, North America leads the methane emissions satellite API market, driven by stringent regulatory policies, significant investments in satellite infrastructure, and a strong presence of oil & gas operations. Europe follows closely, with ambitious climate targets and robust government support for emissions monitoring technologies. The Asia Pacific region is emerging as a high-growth market, fueled by increasing industrialization, urbanization, and government initiatives to curb air pollution and greenhouse gas emissions. Latin America and the Middle East & Africa are also witnessing rising adoption, particularly in sectors such as energy and agriculture, though market penetration remains comparatively lower due to infrastructural and economic constraints.

Component Analysis

The methane emissions satellite API market by component is segmented into software, hardware, and services. Software solutions represent the largest share, owing to their critical role in processing, analyzing, and visualizing raw satellite data into actionable insights. These platforms are increasingly leveraging advanced analytics, machine learning, and AI to automate the detection and quantification of methane plumes, offering end-users rea