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|About||The Lincoln University Horticulture program applies research, extension and teaching methods to help farmers increase income and profitability.|
The Lincoln University Horticulture/Commercial Vegetable program (CVP) applies research, extension and teaching methods aimed to help farmers increase income and profitability through sustainable agricultural practices. Participants learn new growing techniques and how to increase the nutrient concentration of their crops. The program also provides educational and hands-on opportunities on the use of high tunnels and how they help Missourians to extend their growing season.
The Horticulture-CVP is rooted within core values associated with a sustainable agriculture framework and is service-oriented, consistent with the mandate of a land-grant university. In consistence with the mandate of the 1890 land-grant institutions, the CVP serves all farmers in Missouri, with emphasis on service to the underserved population (limited resource farmers, women farmers and veteran farmers).
Crops of focus include tomatoes, peppers, brussel sprouts, watermelon, kale, ginger and turmeric. Research projects include experiments in open field and in high tunnels. Our disciplinary strengths are in plant nutrition, soil fertility and production in open field and high tunnels. A key strength of the program is the ability to interact with stakeholders, understand real world problems within an agricultural production system, and conduct research or implement training programs to address our stakeholders' issues, and advance the sciences of vegetable production.
Addressing relevant production questions combined with fundamental scientific background provides a mechanism to write competitive grant proposals. Our work is supported by USDA funds as a Land Grant Institution, and through competitive grants. Since 2014, competitive grants have generated 73.6% of our total program funds. Obtaining extramural funding enables the program to hire key personnel including undergraduate students, which contributes to generation of future scientists. The extramural funding helps the program conduct res