Academics Plant Biology

Plant Biology	[plain text printable version]

The Program of Study in plant biology is designed for students who would like to gain a greater understanding of the structure, classification, ecology, function, development, and molecular biology of plants.

Two options are offered: (a) botany and (b) plant biotechnology. In Option (a), students are required to take the introductory botany course and a minimum of three other courses from a group including function and development, cell structure and function, structure, classification, evolution, ecology, and molecular biology. Option (b) is primarily for students who wish to specialize in the molecular biology of plants and its agricultural application. It centers on the Molecular Biology and Genetic Engineering of Plants course. In addition students should take at least ten credits of other courses in plants and biotechnology.

In addition to plant biology and plant ecology offerings of the biological sciences, students may choose from courses offered by other departments in areas of applied research such as crop science, floriculture and ornamental horticulture, fruit and vegetable sciences, plant breeding, and plant pathology.

Experience in working with the plants themselves is essential to obtain a grasp of the theoretical aspects of plant science. For this reason there is a strong emphasis on laboratory work in plant biology courses. Through formal courses and independent studies, students learn skills required for work in plant biology and the applied plant sciences, such as light and electron microscopy, the manipulation of plants in experimental situations, plant identification, and the use of botanical literature. Members of the plant biology faculty specialize in fundamental studies of plant structure, function, molecular biology, and evolution. Their areas of interest include cell biology, anatomy, biophysics, morphology, paleobotany, physiology, and plant molecular genetics. Research activities include cell function, developmental morphology and physiology, ultrastructure, transmembrane transport, chloroplast molecular biology, the biophysics of light reactions, the molecular biology of reproductive incompatibility, and plant systematic relationships. Students are encouraged to undertake independent research projects.

The University maintains greenhouses and field laboratories necessary for botanical research. In addition to wild and managed land areas, which play a strategic part in the study of plants at Cornell, the local countryside offers diverse habitats for plant growth. The natural environment is used in research and teaching programs.

Many students who pursue the plant biology Program of Study are interested in continuing their education beyond the bachelor's degree. Because the tools of research in both fundamental and applied aspects of plant science are basically the same, a Program of Study in plant biology provides a strong background for graduate study in either area.

Holders of a bachelor's degree may be employed as teachers, research assistants, or technicians in public and private institutions. Employment opportunities in teaching and research are increased by advanced study.

Required Classes for Program of Study in Plant Biology:
Students choose one area of study from the following two options:

Option (a) Botany:
Students are required to take BIOPL 2410, Introductory Botany.

• BIOPL 2410, Introductory Botany

Students should then choose, with the aid of their faculty adviser, a minimum of 3 of the following courses, for a total of at least 10 additional credits, to round out their botanical training:

• BIOPL 2420 and 2421, Plant Function and Growth, Lecture and Lab
• BIOPL 2430, Taxonomy of Cultivated Plants
• BIOPL 2450 Plant Biology
• BIOPL 2470, Ethnobiology
• BIOPL 2480, Taxonomy of Vascular Plants
• BIOPL 3420 and 3421, Plant Physiology, Lecture and Lab
• BIOPL 3430 and 3431, Molecular Biology and Genetic Engineering of Plants, Lecture and Lab
• BIOPL 3450, Plant Anatomy
• BIOPL 3480, The Healing Forest
• BIOPL 3590, Biology of Grasses
• BIOPL 3800, Strategies and Methods in Drug Discovery
• BIOPL 4040, Crop Evolution, Domestication, and Diversity
• BIOPL 4220, Plant Development
• BIOPL 4400, Phylogenetic Systematics
• BIOPL 4420, Current Topics in Ethnobiology
• BIOPL 4440, Plant Cell Biology
• BIOPL 4470, Molecular Systematics
• BIOPL 4480, Plant Evolution and the Fossil Record
• BIOPL 4490, Green Signals and Triggers—The Plant Hormones
• BIOPL 4520/4521, Systematics of Tropical Plants and Field Lab
• BIOPL 4530, Principles and Practice of Historical Biogeography
• BIOPL 4620, Plant Biochemistry
• BIOEE 4660 and 4661, Physiological Plant Ecology, Lecture and Lab

Option (b) Plant Biotechnology:
Students are required to take BIOPL 3430 and 3431, Molecular Biology and Genetic Engineering of Plants, Lectures and Laboratory.

• BIOPL 3430 and 3431, Moledular Biology and Genetic Engineering of Plants, Lecture and Lab

Students then choose, in consultation with their faculty adviser, a minimum of 10 additional credits from the following list:

• BIOEE 4460, Plant Behavior—Induced Plant Responses to Biotic Stresses
• BIOPL 2410, Introductory Botany
• BIOPL 2420 and 2421, Plant Physiology, Lecture and Lab
• BIOPL 3420 and 3421, Plant Physiology, Lecture and Lab
• BIOPL 3800, Strategies and Methods in Drug Discovery
• BIOPL 4220, Plant Development
• BIOPL 4440, Plant Cell Biology
• BIOPL 4470, Molecular Systematics
• BIOPL 4490, Green Signals and Triggers—The Plant Hormones
• BIOPL 4620, Plant Biochemistry
• BIOPL 4821*, Molecular Plant - Pathogen Interactions I
• BIOPL 4822*, Molecular Plant - Pathogen Interactions II
• BIOPL 4823*, Molecular Plant - Microbe Interactions
• BIOPL 4824*, Plant Gene Evolution and Phylogeny
• BIOPL 4825*, Molecular Biology of Plant Organelles
• BIOPL 4826*, Plant Biotechnology
• BIOPL 4827*, Plant Cell Walls: Structure to Proteome
• BIOPL 4828*, Plant Imaging
• BIOPL 4829*, Light Signal Transduction in Plants
• BIOPL 4831, Concepts and Techniques in Plant Molecular Biology
• BIOPL 4832*, Proteomics in Plant Biology
• BIOPL 4833*, Plant Genome Organization and Function
• BIOPL 4834*, Molecular Aspects of Plant Development
• BIOPL 4835*, Molecular Breeding
• BIOPL 4836*, Plant Senescence
• PLBR 4010, Plant Cell and Tissue Culture
• PLBR 4020, Plant Tissue Culture Laboratory
• PLBR 4030, Genetic Improvement of Crop Plants
• PLBR 4070, Nutritional Quality Improvement of Food Crops
• PLPA 4190, Agricultural Application of Plant Disease Concepts

* Note: Courses in the 482 and 483 series have a prerequisite of BIOPL 4831 Concepts and Techniques in Plant Molecular Biology.

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