- Schedule of Classes - June 2, 2019 7:14PM EDT
- Course Catalog - June 2, 2019 7:15PM EDT
Course information provided by the Courses of Study 2018-2019.
How do plants respond to antagonists, such as herbivores and pathogens? What are the checks and balances that keep mutualist organisms in their tight interactions? How are symbioses organized on molecular, metabolic and ecological levels? What are the molecular, plant hormonal, and metabolic mechanisms mediating plant biotic interactions with other organisms? What ecological and evolutionary consequences do these interactions have for the fitness of the plants and their interactors? This course provides an overview of plants' myriad interactions with antagonists and mutualists, from microbes to multicellular organisms, and explains the underlying ecological and evolutionary concepts. It gives an introduction to the study of induced plant responses in the light of a behavioral biology framework.
When Offered Spring.Outcomes
- Students will be able to identify, explain, categorize and examine the ecological, physiological and molecular mechanisms of plant biotic interactions.
- Students will be able to discuss these mechanisms and interpret associated data analyses in the light of evolutionary theory and draw conclusions about potential agricultural applications.
- Students will be able to broadly apply and critically evaluate the four levels of proximate and ultimate causation for the study of biotic interactions in general.
- Students will be able to apply, categorize and integrate basic conceptual and analytical tools to describe complex behavioral interactions.
- Students will be able to discuss, contrast and design a number of experimental and synthetic approaches to analyzing and discovering chemical ecological processes including bioassays and chemical and molecular analyses.
- Students will read and be able to discuss, evaluate and objectively criticize original studies in the field.
- Provisioned with observations or a theoretical framework, students will be able to formulate scientific questions, derive hypotheses and design an appropriate experimental plan.
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