The Agroecology and Circular Economy for Ecosystem Services (ACE4ES) project, hosted by the Council for Scientific and Industrial Research-Crops Research Institute (CSIR-CRI), has achieved a significant milestone with the acquisition and unveiling of two state-of-the-art LI-COR LI-7810 Trace Gas Analyzers. These cutting-edge instruments were procured as part of the project’s strategic efforts to develop and scale methane emission reduction technologies within agriculture. The unveiling ceremony, led by the project’s Principal Investigator, Dr. Kwaku Onwona-Hwesofour Asante, took place at the Multicultural Technology Park (MTP), a flagship facility of the ACE4ES project.

The procurement of these advanced gas analyzers, achieved through a co-funding collaboration between the Climate and Clean Air Coalition (CCAC) of UNEP and CSIR-CRI, marks a pivotal moment in Africa’s pursuit of sustainable agriculture. The MTP, which is envisioned as a regional hub for agriculture-emissions reduction, is set to leverage these instruments to validate methane emission reduction strategies, train researchers and policymakers, and empower farmers with actionable insights.
The LI-COR LI-7810 Trace Gas Analyzers represent a significant leap in methane quantification capabilities. Designed to measure trace levels of methane with high precision and real-time accuracy, these instruments will:
Support the validation of methane emissions data across different agricultural systems, including rice paddies, livestock systems, and biomass management.
Enable researchers to develop evidence-based methane mitigation technologies tailored to African agroecological contexts.
Facilitate the establishment of localized emission factors, addressing a long-standing gap in global methane inventories and enhancing the accuracy of Africa’s Nationally Determined Contributions (NDCs) under the Paris Agreement.
Dr. Kwaku Onwona-Hwesofour Asante highlighted, “These instruments are not just tools for measurement; they are catalysts for transformative agricultural practices. By embedding advanced science into our farming systems, we aim to bridge the gap between research, policy, and practice, ensuring that Africa contributes meaningfully to global climate action while safeguarding local livelihoods.”
Methane reduction offers numerous benefits beyond climate mitigation. By reducing methane-driven ground-level ozone, the ACE4ES project aims to improve air quality, lower respiratory illnesses, and boost crop productivity. Rice farmers, often at the forefront of methane emissions, stand to benefit from improved yields and sustainable practices introduced through the project’s interventions.
The project’s objectives align seamlessly with global and regional frameworks, including the Global Methane Pledge, the Paris Agreement, and Africa’s Agenda 2063. By integrating methane mitigation into sustainable agriculture, the ACE4ES project strengthens Africa’s leadership in climate-smart agriculture and enhances its position in global climate negotiations.
The Multicultural Technology Park, with support from consortium members AfricaRice in Cote d’Ivoire, the Youth Initiative for Land in Africa (YILAA) of Benin, and the Peasant Farmers Association of Ghana, is envisioned as a beacon of innovation. The LI-COR analyzers will:
Enable capacity building for African researchers, policymakers, and farmers, equipping them with the skills to tackle methane emissions effectively.
Serve as a demonstration site for low-emission technologies, fostering collaboration across Africa and beyond.
Strengthen the park’s mission as a center for training and knowledge exchange in agroecology, circular economy, and ecosystem services.
The unveiling of these instruments signals the ACE4ES project’s commitment to integrating cutting-edge technology into Africa’s agricultural landscape. By addressing methane emissions, the project not only contributes to global climate goals but also ensures tangible benefits for local farmers, researchers, and communities.
As Dr. Asante remarked, “The ACE4ES Multicultural Technology Park is not just about reducing emissions; it’s about driving a new era of sustainable agriculture in Africa—one that values health, productivity, and resilience.”
With the LI-COR LI-7810 Trace Gas Analyzers in place, the ACE4ES project is poised to lead the charge in transforming agriculture for a sustainable, low-carbon future.