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Crop Sciences

College of Agricultural, Consumer, and Environmental Sciences
University of Illinois at Urbana-Champaign
Land Grant Institution | Student-Centered Instruction | Graduate Education | Extension Expertise

Graduate Education

  • Degree programs
  • Financial Assistance
    • Fellowships – Funding is available from University, College, and Departmental sources to support fellowships in all areas of research within the Department.  Fellowships are awarded to students with a demonstrated high level of scholarly achievement.
    • Assistantships – Funding, usually tied to a specific research project, is available for graduate research assistantships.  As a result, the student will be expected to conduct research related to the objectives of the funded project.
  • Areas of graduate training
    • Bioinformatics – Scientists are utilizing newly developed techniques to analyze large data bases being generated by molecular genetics and genomics.  These techniques allow them to identify the location of genes of importance and to map the evolution of plant and animal species.
    • Biometry – The Department of Crop Sciences has a strong program in biometry.  A primary objective of this group is to use statistical procedures to allow biological researchers to obtain valid answers to their research questions.  Scientists within this group have identified geostatistic tools that can be used to create management programs that improve the efficiency of use of natural resources.
    • Crop Production – Major emphasis of this group is on cultural practices, including seed bed preparation, planting data, variety selection and row spacing, as well as mineral nutrition (soil fertility), etc…on crop growth and development.  Students have the opportunity to conduct their work in a laboratory, greenhouse, and/or field facilities.  Field work is conducted at University operated Research and Education Centers or on farmers’ fields using on-farm techniques.
    • Entomology – Field, fruit and vegetable crops – Evaluating factors that influence insect infestation of crops has been a major focus of the Entomology program in the Department of Crop sciences.  In addition, many projects have been designed to identify practices and products that will effectively reduce the insect population below threshold level for economic crop damage.
    • Environmental Sciences (toxicology) – Faculty and students working in this area have the goal to improve agricultural profitability while decreasing adverse impacts on the environment.  Additionally, scientists with this group are developing assay systems to detect hazardous environmental contaminants, particularly in public water supplies as well as research on the health and environmental effects of pesticides.  Other scientists are working to identify new value-added products from agronomic commodities, especially commercial by-products from bioenergy production that will reduce waste and generate materials that may protect public health and the environment.
    • Plant Breeding and Genetics – Programs are available in maize (corn), soybean, and small grains (wheat and oats).  Students can choose from programs that are aimed at a) improving varieties and genetic stocks for grain quality, yield potential, and/or resistance to diseases and insect pests; b) maintaining and evaluating diversity of genetic stocks; or c) developing special traits such as protein or oil content, high carotenoid, improved amino acid quality, high starch, etc….
    • Plant Molecular Biology and Physiology – Faculty and students working in this area are using molecular techniques to exploit the basis of important traits such as seed composition, disease resistance, stress tolerance and mineral nutrition.  Results of this cellular work are carried through to whole plant field research with the ultimate goal to improve grain quality for the end-user.
    • Plant Pathology – Students have an opportunity to focus research efforts on understanding how hosts, pathogens, and environments interact to cause plant diseases and in understanding techniques to use to control disease.  Research may be laboratory, field, or a combination of the two.
    • Weed Science – Development of herbicide resistance along with the introduction of invasive species in recent years combined with the need to evaluate the impact of changing cultural, mechanical, chemical, and biological factors has led to a rapidly expanding dynamic field of study.  Students have an opportunity to work in molecular or field programs, or some combination of the two.  Weed science faculty have interest and expertise in molecular and biochemical mechanisms of herbicide selectivity; evolution of herbicide-resistant weeds; weed ecology and biology; soil-herbicide efficacy; and weed-crop competition.

Internationally Renowned Research

  • Bioinformatics – Scientists in the Department are mining existing data bases to identify genes that carry special traits and to better understand the evolution of plants.
  • Environmental Toxicology – Scientists are evaluating the human toxicology of natural and man made compounds found in drinking water supplies.
  • Genome Mapping  -
  • Geostatistics – satellite technology – Faculty in the Department of Crop Sciences are leaders in demonstrating the improvement in crop production efficiency that can be realized by using modern technology for site specific applications.
  • Molecular to Whole Plant Research - The Department has a long-standing history of cutting edge research that has provided new innovative products and practices that improve the quality of life.
  • Pest Management Strengths In Plant Pathology, Entomology, Nematology, and Weed Science - Four of the current pest management faculty have or are serving as President of their national scientific society.
  • Plant Breeding and Genetics With Special Emphasis On Corn, Soybean, and Wheat - Scientists working at the cellular level are able to identify and alter plant mechanisms for crop improvement.  This combined with traditional plant breeding has and will continue to produce new varieties that have improved traits for crop quality, pest resistance, utilization of natural resources, resistance to adverse growing conditions, etc…
  • Plant Physiology - Current emphasis is on evaluating the impact of changing environmental factors, such as ozone, carbon dioxide, or high salt content on crop growth and development; and identifying factors that affect the efficiency of nitrogen uptake and use.