Context Labs, a leader in carbon performance solutions, has expanded its partnership with Jonah Energy, a leading U.S. natural gas producer, to deploy advanced emissions-tracking technology across its Wyoming and New Mexico operations. This multi-phase initiative builds on prior successes in automating greenhouse gas reporting and positions Jonah as a pioneer in source-level emissions verification for energy customers prioritizing low-carbon intensity fuels.
The expanded collaboration deepens the integration of Context Labs' AI-enabled Decarbonization-as-a-Service™ (DaaS™) platform, automating data collection, analysis, verification, and reporting while delivering real-time operational insights. This advanced infrastructure empowers Jonah Energy to enhance product differentiation with trusted carbon intensity data, ensuring seamless compliance with evolving regulations. Additionally, the partnership reinforces Jonah's leadership in emissions transparency and supports its commitment to the United Nations' Oil and Gas Methane Partnership (OGMP) 2.0, where it became the first U.S. operator to achieve a gold-standard rating for emissions performance.
"Trust in energy data is non-negotiable for utilities, regulators, and consumers," said Howard Dieter, Vice President of Environmental, Health & Safety and strategic energy initiatives at Jonah Energy. "By scaling Context Labs' technology, we're delivering irrefutable proof of performance for natural gas that meets stringent climate benchmarks—particularly for markets demanding verifiable, low-carbon solutions."
"This expansion underscores how Asset Grade Data can transform operational accountability," said Dan Harple, founder and CEO of Context Labs. "Jonah's leadership demonstrates that emissions transparency isn't just regulatory compliance—it's a commercial imperative driving value across the energy ecosystem."
The Context Labs platform is deployed on Microsoft Azure, leveraging its advanced security features and Azure OpenAI Service tools to deliver significant value in energy transitions.
