GLASE Launches E-GROW Certification to Cultivate Youth Interest in AgTech and Controlled Environment Agriculture

Ithaca, NY October 23, 2024 — Cornell University’s Greenhouse Lighting and Systems Engineering (GLASE) consortium is thrilled to announce the USDA National Institute of Food and Agriculture (NIFA) is investing in a GLASE workforce development initiative.

The Empowering Greenhouse Resiliency with an Optimized Workforce (E-GROW) project is designed to inspire and develop youth competency in agricultural technology (AgTech) and Controlled Environment Agriculture (CEA). In partnership with seven project collaborators and ten middle and high schools across four U.S. states, E-GROW will launch a certificate program, preparing the next generation for careers in the rapidly evolving field of CEA.

“Young people are a solution to the greenhouse industry’s labor challenges. CEA offers a vehicle for STEM education and presents an interesting career opportunity for youth to envision for themselves. GLASE is expanding our credible education and training model to serve learners entering the workforce development pipeline.” shared Gretchen Schimelpfenig, Executive Director of GLASE.

The project will bridge the gap between technology and agriculture, specifically focusing on automation in greenhouse climate control, robotics and AI for crop science, and energy and economic benchmarking of vertical farms. Through innovative, non-formal educational modules and experiential learning, E-GROW seeks to attract tech-savvy STEM students and foster a deeper understanding of AgTech in food production.

“Today’s youth are the scientists, innovators, farmers, and decision-makers of tomorrow; it is imperative we provide educational opportunities that advance students’ understanding of technologies, including in agriculture, that will create a more sustainable and resilient future,” said Manuela Zamora, Executive Director of NY Sun Works. “NY Sun Works is thrilled to collaborate with GLASE and partners on this initiative, which will enable youth, and in particular students from groups historically underrepresented in STEM, to build skills and prepare for careers in the growing field of controlled environment agriculture.”

Piloting the Future Workforce: Starting in ten schools across New York, Pennsylvania, Virginia, and Wyoming, E-GROW will reach between 500 and 1,000 students throughout the project. The program places a particular emphasis on engaging student populations traditionally underrepresented in STEM fields, including rural youth, low-income students, young women, ethnic minorities, and individuals with disabilities.

Dr. Neil Mattson, Professor at Cornell University, adds, “GLASE and Cornell University are pleased to lead this interdisciplinary project to engage and develop the next generation of agriculture technology leaders. Whether or not a student ultimately pursues a career in CEA, we believe this project can be a useful springboard for getting students engaged in plant science, engineering, and computer science. We are also pleased with the school and academic partnerships this project brings together in New York, Pennsylvania, Virginia, and Wyoming.”

“Commonwealth Charter Academy (CCA) is proud to be a partner in helping prepare today’s students to be the agricultural leaders of tomorrow,” said Crystal Huff, Director of AgWorks at CCA, a K through 12 public cyber charter school serving more than 30,000 students and their families throughout Pennsylvania. “CCA is committed to ensuring that the 21st-century workforce has the skills and knowledge necessary to meet the growing needs and demands of our evolving agriculture industry. We must stay ahead of the curve and ensure students are well-prepared for the future economy.”

As part of the pilot, students will work toward earning a CEA certificate, equipping them with the skills and knowledge to enter the growing AgTech industry. A robust mentoring network of industry professionals and academic experts will guide students through the program, providing hands-on learning opportunities and career insights.

“CEA training pathways for middle and high school students are a crucial component of the workforce training pipeline for the growing CEA industry,” said Dr. Kaylee South, Assistant Professor and Extension Specialist at Virginia Tech. “We are excited to work with the E-GROW project partners to develop and implement these pathways with an emphasis on engaging populations underrepresented in STEM fields. These educational tools will be key to provide knowledge and skills related to CEA and general exposure to agricultural technology.”

Collaborative Effort to Drive Innovation: Funded by the Food and Agriculture Non-formal Education (FANE) program, E-GROW brings together partners from higher education and youth development sectors to create a multi-faceted learning experience. The project will leverage existing research on CEA and AgTech to identify gaps in workforce development and education, tailoring learning materials to address these needs.

“The University of Wyoming is thrilled to be part of this impactful project, inspiring future generations with modern indoor agriculture technologies. Forming strong partnerships and creating shared learning experiences with the K-12 education community are key to promoting the growth of CEA in Wyoming and across the nation, leading to economic opportunities, jobs, and more local food production,” said Dr. Liping Wang and Dr. Anthony Denzer from the University of Wyoming.

Ian Kanski, Director of the Center for Agricultural Research at the University of Harrisburg adds “CEA provides a unique ‘living laboratory’ for learners to experience and apply a broad set of science and technology disciplines, developing skills and interest in some the most important technical fields for the coming economy. The E-GROW project led by Cornell is exactly the sort of multi-state and multi-institutional collaboration that’s needed as our education sector adapts to a changing food and agriculture landscape — and the Center for Advanced Agriculture and Sustainability is proud to be a contributor.”

Students will engage in capstone projects, demonstrating their competencies and showcasing how AgTech can improve food production and support local economies. These projects, along with outreach materials, will help build public confidence in CEA and AgTech by illustrating the tangible benefits of technology-driven food systems.

David Ceaser, Lead Agronomist at Agritecture, commented, “Agritecture is extremely pleased to be a part of the E-grow project. Agriculture faces an aging-out problem worldwide, and we believe that engaging youth in CEA and technology-based agriculture is key to ensuring future generations of farmers.”

Aiming for Long-Term Impact: The E-GROW initiative is designed with sustainability in mind. Over four years, project partners will develop and refine a scalable educational model that can be replicated across other schools and states. Feedback from pilot schools will help to ensure that the program meets accreditation standards and can grow into a national CEA workforce credentialing program.

For more information on the E-GROW project, please contact GLASE Extension Support Specialist, Matthew Del Buono at mjd378@cornell.edu and follow GLASE on LinkedIn.

About GLASE

GLASE—the Greenhouse Lighting and Systems Engineering consortium—was established in 2017 by Cornell University and Rensselaer Polytechnic Institute. GLASE is supported by the New York State Energy Research and Development Authority (NYSERDA), the USDA, and members of an Industry Advisory Board. The GLASE consortium advances CEA industry education and workforce development with annual short courses like CEA Works funded by the USDA Agriculture and Food Research Initiative’s Education and Workforce Development (EWD), free webinars, and an annual Summit. See the 2024 GLASE short course on Greenhouse Systems. Topics previously covered include the selection, implementation, and benefits of plant lighting systems and climate control systems.

Guided by its Industry Advisory Board, GLASE and its partner academic institutions transform the greenhouse industry with research, education, and commercialization of emerging technologies to save growers money and reduce the carbon footprint of greenhouse operations.