The department was established in 1891. In 2018 the Department name, along with the graduate program names, changed to Biosystems Engineering. Like similar departments at most Land Grant universities, this department is jointly administered by the College of Agriculture and Life Sciences and the College of Engineering. Biosystems engineers use engineering, math, and life science to design systems to manage soil and water resources, produce food, develop biological products, and manage and analyze large data sets. They work on projects involving the wise use of energy, materials, biochemicals, and recyclable wastes. They combine technical knowledge, computer techniques, and control systems for a deeper understanding of agriculture and biology -- knowledge which someday may be used to design life support systems for colonies on other planets. Students may specialize in water resource engineering or biological engineering.
The Biosystems Engineering Master of Science Degree program offers students the opportunity for study and research in many fields, including the following: Controlled Environment Agriculture, Water Resources, Biometry and Biosystems Informatics, Food, Bioproducts, and Renewable Energy The flexibility of the program allows students, in consultation with their advisors, to develop programs specifically suited to their needs.
Our vision: BE will be a world leader known for developing technologies and systems for the safe production of food, bioenergy, bioproducts, and biological information for sustainable use of arid and semi-arid environments. Students, constituents, and professionals will come from across the world to participate with our programs.
Arizona has great potential as a large-scale producer of renewable bioenergy and bioproducts from sugar, oil, green waste, and algal sources. There currently is one full-scale ethanol production facility in our region, and we have been working with them to utilize new sources of biomass. Arizona could become a model for semi-arid land production of renewable fuels demonstrating responsible use of water, land, and workforce. Utilization of residual biomass is a key step for economic feasibility of the industry.
