New course in the subject of biology.

This course begins with discussion of pharmacological principles and normal function of the nervous and endocrine system. As we continue, we will describe how exogenous substances derived from plants (like drugs) impact the nervous system to restore normal or near-normal function, or alter normal function, in humans. The use of agents from plants in the alleviation of depression and anxiety will be emphasized.

Imagine a world where your DNA is sequenced for free and any human gene can be altered at will. The goal of this course is to address the question: can our society be better prepared for this transformation in science? Is genetic privacy achievable or genetic discrimination avoidable? Who owns your genes? Do your genes drive your medical future? Classes involve student perspectives and discussions with experts in science, policy, ethics and law.

The goal of this course is to provide an original, unknown outcome research experience in developmental biology. After training in basic methods and descriptions of selected research problems, students form teams and investigate a problem of their choosing. Team members work together in the lab, but each writes an independent research proposal, a notebook, and a final project report on which they are graded. Prerequisite: BIOL 3000 or 3010.

This laboratory course provides hands-on experiences with experimental approaches used to study animal behavior. The laboratory exercises explore visual and auditory sensory perception, biological clock, reproductive and aggressive behaviors using actively behaving animals such as hamsters, cichlid fish, crickets and electric fish. Students are given opportunities to design hypothesis-testing experiments in some laboratories.

Introduction to the fundamental principles of conservation biology (e.g., global species numbers, value of biodiversity, causes of extinction, genetic diversity, island biogeography, priority setting) and current topics of debate (including zoo versus field conservation, effects of global change on species extinction). Conservation case studies will allow students to judge the relevance of biological theory to practical problems in conservation.

This course, the first in a two-course sequence, is an introduction to the structure and function of the human body. Review of the structure and physiology of cells and tissues leads to in-depth study of the musculoskeletal and nervous systems. Control mechanisms and the contributions of each system to overall homeostasis are emphasized.

New course in the subject of biology.

Examines the mechanisms of evolutionary change, with an emphasis on the genetic and evolutionary principles needed to understand the diversification of life on earth.  Covers the ecology of individuals and population dynamics.  Major topics include the genetics and ecology of natural populations, adaptation, molecular evolution and macroevolution, and the application of evolutionary and ecological concepts to conservation biology.  Required for all Biology majors. Prerequisite: Must have completed BIOL 2200. BIOL 3020 is not repeatable.

Analyzes the concepts of general neurobiology, including basic electrophysiology and electrochemistry, origin of bioelectric potentials, sensory, motor, integrative and developmental neurobiology, and conceptual models of simple learning. Prerequisites: BIOL 2100 (or BME 2104) and BIOL 2200. Recommended:  Prior completion of BIOL 3000