Track in Controlled Environmental Agriculture (CEA)
Director of Graduate Studies: Murat Kacira, mkacira@cals.arizona.edu
Description
The Controlled Environment Agriculture (CEA) subplan of the PSM in Applied Biosciences GIDP is designed to prepare students who wish to possess a graduate-level education that integrates science and engineering-based approach to provide specific controlled environments for plant productivity while optimizing resources including water, energy, space, capital and labor, and more specifically incorporate knowledge in management and business. Graduates of this track will be prepared for careers in controlled environment agriculture industry, academia and government.
The CEA is an agricultural production practice for year round continuous production of nutritionally high quality foods, with crop yields that can exceed field production by as much as 10-fold, and with the potentials to utilize local renewable energy resources, and optimize water, energy, space, capital, and labor resource use efficiency well above field traditional capabilities. This production technology, can employ crop production systems, provide harvest much less dependent of season, and can generate higher crop yields, quality, safety, nutritional value, with consistency and predictability, while utilizing less land in an environmentally friendly way.
There has been significant advancement in agriculture due to enhanced cultivars by plant breeding, minimized use of chemicals and effects of pests by integrated pest management, improved production quality, produce uniformity and reduced labor via automation and mechanization. These continuous advancements in production practices and technology have maintained an acceptable food quality and low cost food supply, however, resulted in more demand for highly educated and skilled employees. The controlled environment agriculture systems are integrated systems consisting of hydroponics, mechanization and automation, climate control, production management processes which demand continuous system monitoring and control. Thus, technical understanding and crop production skills are needed for specific crop needs and through understanding of plant and microclimate interactions are needed so the systems can be effectively operated and precisely controlled to improve growth, production quality, and resource use efficiency. This necessitates potential graduates to acquire technical, production, management, people, business skills.
Therefore, the CEA PSM track will prepare students for rewarding employment in the controlled environment agriculture sector with technology, science and engineering, business and management oriented education and training to prepare current and future employees to meet the needs of this important industry segment to successfully compete in the global market place.
Curriculum
In common with other ABS tracks, the CEA track requires the successful completion of 36 units (credit hours), within the course of a minimum of 2 years and a maximum of 6 years.
The CEA track includes a wide selection of courses relevant to the mission of the PSMAB and the IMB track. These courses are grouped into clusters. The track has the following curricular requirements:
Requirements
| Core Science Courses | 12 Units |
| Plus Courses | 12 Units |
| Internship | 9 Units |
| Electives | 3 Units |
| Total | 36 units |
Courses recommended for the CEA track clusters are listed in the attached Table. Other classes may be substituted for the classes listed in the attached Table with the agreement of the Director of the Graduate Studies (DGS) and the Advisor and the Committee of the student. Initial selection of the appropriate courses within each cluster and for the study plan in general will be done by agreement between the student and the DGS, based on a draft study plan assembled by the student and submitted to the DGS. This plan should be based on the particular needs and interests of the student, considering the career path the student is pursuing. Fine tuning and other necessary changes of the course plan will be made by the Advisor and the student’s Committee, in agreement with the DGS.
Required Core Science courses (9 Units Required)
| Course Number | Course Title | Units | Cross lists |
| ABE583 | Controlled Environment Agriculture Systems | 3 | PLS |
| ABE575 | Physiology of Plant Production under Controlled Environment | 3 | PLS |
| ABE579 | Applied Instrumentation in Controlled Environmental Agriculture | 3 | PLS |
| MCB |
Other Core Science (choose 3 units from the following list)
| Course Number | Course Title | units | cross-lists |
| ABE547 | Sensors and Controls | 3 | |
| ABE581A | Engineering of biological processes | 3 | CHEE |
| ABE523 | Biosystems Analysis and Design | 3 | |
| ABE556 | Irrigation System Design | 3 | CE |
| ABE584 | Biosystems Transport Phenomena | 3 | |
| AME545 | Renewable Engineering Systems | 3 | NEE |
| CHEE574 | Environmental Transport Processes | 3 | CE |
| CHEE577 | Microbiology for Engineering | 3 | |
| EIS597C | Greenhouse Pest Management: Methods and Practice | 3 | ABE, AGTM |
| MATH509C | Statistics for research | 3 | |
| MATH522 | Advanced Applied Analysis | 3 | |
| PLS508 | Crop Ecology | 3 | |
| PLS565 | Postharvest Physiology Technology and Produce Safety | 3 | |
| SIE531 | Simulation Modeling and Analysis | 3 | |
| SIE545 | Fundamentals for Optimization | 3 | |
| SIE570 | Fundamentals for Optimization | 3 | |
| SWES525 | Environmental Microbiology | 3 | |
| SWES553 | Remote Sensing of the Environment | 3 | |
| SWES575 | Monitoring Biosphere Processes | 3 |
Plus Course (Choose 12 units)
| Course number | Course Title | Units | Cross-lists |
| PCOL595B | Scientific writing Strategies, skills and ethics | 2 | BME, CBIO, NRSC, PHCL, PS |
| BNAD521 | Project Management and consulting skills for innovation | 3 | MIS559 |
| MIS578 | Project management | 3 | |
| ENGR512A | Management of Technology I | 3 | MAP, MGMT, MIS |
| ENGR512B | Management of Technology II | 3 | MAP, MGMT, MIS |
| ENGR520R | Innovation principles and Environments | 3 | ENTR |
| ENTR506 | Principles of Entrepreneurship | ||
| LAW655G | Law and Science | 2-3 | |
| LAW655R | Intellectual Property Law | 1 | |
| ENGR554 | Law for Engineers/Scientists | 2-3 | CHE |
| BNAD510 | Foundations of business for scientists | 3 | |
| ENGR567 | Financial Modeling for innovation | 3 | SIE |
| PLS595D | Regulatory Issues for Laboratory Management | 3 | |
| ENTR595F | Topics for Entrepreneurship for Scientiscs | 3 | PHYS, MATH, MCB |
| ENGR501 | Bassics of Intellectual Property Management and Environments | 3 |
Internship/Directed Research (Choose 6-9 units)
| Course number | Course Title | Units | Cross-lists |
| ABE 599 | Independent Study | 3 | |
| ABS 593A | Internship | 3 | |
| ABE 593 | Internship | 3 |
Electives (Choose 3-6 units)
Includes any courses form the Core Science and Plus Courses listed above. At least 18 units of the total degree must come from a combination of Core Science and Science Electives.