Plant Breeding, M.S./Ph.D. (Ithaca)
Field of Study
The field of plant breeding encourages applications from students interested in crop improvement in the context of global agriculture. Faculty research areas include not only applied breeding of major crops such as cereals, forages, potato, and diverse fruits and vegetables but also molecular genetics and genomics of crop plants.
The applied breeding program deals with development of plant materials for greater yield, disease resistance, adaptability, quality, etc. and with studies of breeding methods and principles. Molecular and biochemical studies to identify and isolate agriculturally important genes seek to relate information from model species to crop plant genomes, to compare crop genomes, to assess genetic diversity, and to develop bioinformatic tools relevant to crop improvement. Conservation and evolutionary genetics of crop plants and their wild relatives is an additional topic of research. Many faculty members include both applied breeding and molecular study in their programs.
Faculty are located in the Department of Plant Breeding and Genetics, Boyce Thompson Institute, USDA Robert W. Holley Center (all in Ithaca) and in the Department of Horticultural Sciences (Geneva). Extensive greenhouse and field facilities are available. The molecular programs benefit from well equipped laboratories, the many plant-oriented programs in the College of Agriculture and Life Sciences, and collaborative activities with other areas of life sciences at Cornell.
Course work available ranges from plant breeding methods to molecular breeding to intellectual property issues. Special opportunities are available for students interested in international experience. Graduate students receive a broad education preparing them for careers in many areas of plant biology and agriculture.
Prospective applicants may wish to correspond with faculty members in their area of interest. The list below gives general topics of research and/or crops studied for each field member. Additional information, including more detailed descriptions of faculty research and courses, is available on the Plant Breeding web site or from the graduate field office.
Concentrations by Subject
- plant breeding
- plant genetics
Application Requirements and Deadlines
Fall, Dec. 1; spring, July 1
- all Graduate School Requirements, including the TOEFL Exam for Non-Native English Applicants
- three recommendations
- GRE general test for U.S. applicants (advised for non-U.S. citizens and all applicants seeking financial support)
- GRE subject test encouraged
Assessment Plan for M.S. students
1. Learning outcomes
When students complete the M.S. they should be able to:
- Assist in conducting original, publishable research in plant breeding/genetics
- Demonstrate broad understanding about plant breeding/genetics
- Write and speak effectively to professional and lay audiences about their research
Assessment Plan for Ph.D. students
1. Learning outcomes
When students complete the Ph.D., they should be able to:
- Conduct original, publishable research in plant breeding/genetics
- Demonstrate in-depth knowledge about plant breeding/genetics and at least one other area of study (i.e., their chosen minor field(s))
- Write and speak effectively to professional and lay audiences about their research and current issues in the discipline