UAEREP Sixth Cycle Grants: Awardees Advance Rain Enhancement Science in UAE

UAE's Urgent Push for Water Security Through Rain Enhancement

The United Arab Emirates (UAE), a nation characterized by its arid desert climate with average annual rainfall below 120 millimeters, faces profound water scarcity challenges. Groundwater reserves are depleting rapidly, and while desalination meets much of the demand—accounting for over 40 percent of supply—it is energy-intensive and vulnerable to rising temperatures. In response, the UAE has pioneered operational cloud seeding programs since the 1990s, managed by the National Center of Meteorology (NCM). These efforts involve hundreds of seeding missions annually, such as the 39 conducted in July 2025 alone, potentially boosting precipitation by 15 to 25 percent under optimal conditions. This strategic focus underscores rain enhancement science as a cornerstone of national water security, blending operational practice with cutting-edge research.

Launch of the UAE Research Program for Rain Enhancement Science

Established in 2015 under the UAE Ministry of Presidential Affairs (MoPA) and managed by the NCM, the UAE Research Program for Rain Enhancement Science (UAEREP) represents a global commitment to advancing precipitation enhancement technologies. Since 2016, UAEREP has funded 14 groundbreaking projects across five cycles, supporting 208 researchers from 45 institutions in nine countries. Achievements include over 2,150 citations in peer-reviewed publications, 113 conference proceedings, and pioneering patents in areas like nanotechnology for cloud seeding. By fostering international collaborations, UAEREP translates scientific discoveries into practical tools for arid regions worldwide, positioning the UAE as a leader in climate-resilient innovation.

Sixth Cycle Grants: A Milestone Announcement

On January 21, 2026, UAEREP unveiled the awardees of its sixth cycle grants during a press conference at NCM headquarters in Abu Dhabi. Three exceptional research teams were selected from competitive global submissions, each receiving up to $1.5 million (AED 5.511 million) over three years, with a maximum of $550,000 annually. His Excellency Dr. Abdulla Al Mandous, NCM Director General and World Meteorological Organization President, highlighted the program's role in sustainable innovation, while UAEREP Director Alya Al Mazrouei praised the proposals' blend of scientific rigor and real-world applicability. This cycle emphasizes artificial intelligence (AI), advanced materials, and landscape engineering—key frontiers in rain enhancement.

Dr. Michael Dixon's Radar Revolution with AI Integration

Dr. Michael Dixon, Principal Radar Meteorologist and Software Engineer at Echo Science Works in Boulder, Colorado, USA, leads the project "Advancing Cloud Seeding Science with Dual-Polarization Radar Signatures and AI." Traditional cloud seeding evaluations rely on basic reflectivity data, but Dixon's approach leverages dual-polarization radar—which measures particle shape, size, and type alongside intensity—to track microphysical changes induced by seeding agents. Step one involves upgrading the open-source LROSE/TITAN software platform to process these advanced signatures. AI algorithms then provide uncertainty-aware nowcasting, predicting seeding impacts in real-time. This will enhance NCM's operational capabilities, enabling precise mission planning and verification. Dixon's prior work at the National Center for Atmospheric Research (NCAR) equips him to bridge radar technology with atmospheric dynamics, promising measurable gains in seeding efficiency.

Prof. Linda Zou's AI-Optimized Nanocomposite Seeding Materials

Returning as a proven innovator, Prof. Linda Zou, Adjunct Professor at Victoria University in Melbourne, Australia, secured funding for "AI-assisted Development and Optimization of Glaciogenic Cloud Seeding Materials." Building on her first-cycle UAEREP success—where she pioneered nanomaterial-based ice-nucleating particles—Zou's new project develops advanced nanocomposites that mimic natural ice nuclei more effectively. The process unfolds in phases: synthesis of materials, laboratory testing in a Portable Ice Nucleation Experiment (PINE) cloud chamber, and AI analytics to optimize performance across variables like temperature and humidity. In the final year, PINE deploys to NCM facilities for UAE-specific validation. Zou's expertise in nanotechnology, evidenced by high-impact publications and patents, positions this work to revolutionize glaciogenic seeding, potentially increasing ice crystal formation by orders of magnitude in supercooled clouds.

Dr. Oliver Branch's Innovative RAINLAND Strategy

Harnessing Land Modifications for Convection Triggering

Dr. Oliver Branch, Senior Scientist at the University of Hohenheim's Institute of Physics and Meteorology in Germany, heads "Rainfall Enhancement through Modification of Land Cover and Land Form (RAINLAND)." Unlike aerial seeding, this ground-based method explores how strategic alterations—like afforestation or artificial heat islands—can generate updrafts to initiate moist convection in arid environments. The methodology integrates:

• Theory: Modeling land-atmosphere interactions using high-resolution simulations.
• Observations: Satellite and ground data from UAE sites to validate convection triggers.
• Simulation: Identifying optimal designs, such as tree plantations or topography tweaks, for maximum rainfall uplift.

University Collaborations and Higher Education Ties

UAEREP's global roster features prominent universities, fostering knowledge exchange with UAE institutions like Khalifa University and the United Arab Emirates University (UAEU). Past cycles involved researchers from the University of Reading, University of Washington, and others, yielding joint publications and training programs. The sixth cycle strengthens these bonds: Prof. Zou's Victoria University team and Dr. Branch's Hohenheim group plan UAE fieldwork, while Dr. Dixon's tools integrate with NCM infrastructure. For aspiring academics, these grants highlight career paths in atmospheric science. Explore research jobs or academic CV tips to join such initiatives. UAE universities benefit from technology transfer, elevating their profiles in climate research.

Proven Impacts from Prior Cycles and Publications

UAEREP's first five cycles have delivered tangible outcomes: enhanced understanding of convective cloud microphysics, hygroscopic seeding optimization, and AI nowcasting prototypes. Notable publications in journals like Atmospheric Chemistry and Physics detail 10-30 percent precipitation increases from novel agents. Patents protect innovations like charged aerosol seeding, while conferences such as AMS 2026 showcase results. These efforts support NCM's operations, contributing to UAE's water augmentation amid projections of 20 percent demand growth by 2030. Stakeholders, from farmers to policymakers, gain actionable insights, with ripple effects in global arid-zone research.

Challenges, Solutions, and Future Outlook

Rain enhancement faces hurdles like variable cloud susceptibility and ethical concerns over downwind effects, but UAEREP addresses them through rigorous, multi-method evaluations—combining radar, modeling, and stats. The sixth cycle's AI focus promises breakthroughs: machine learning could predict seedable clouds 80 percent more accurately. Looking ahead, integration with UAE's Net Zero 2050 strategy may yield hybrid systems blending seeding, land mods, and renewables. For researchers, this signals expanding opportunities; check UAE academic jobs or university positions. UAEREP exemplifies proactive science for sustainability.

Opportunities for Researchers and Academics

These grants spotlight the demand for expertise in meteorology, AI, and environmental engineering. UAE higher education institutions are ramping up programs in climate science, offering PhD scholarships and faculty roles. Aspiring professionals can leverage postdoc advice or faculty openings. Engage via Rate My Professor for insights, or post jobs at AcademicJobs.com recruitment. UAEREP's model inspires similar funding worldwide, driving careers in impactful research.