This course is divided into 3 parts. Each part will include content-based learning in which we examine several aspects of cell biology using lectures, discussion of experimental results and materials from the textbook. Topics will include exocytosis, actin & microtubule cytoskeleton, motors, and mitosis. Each part will also include inquiry-based learning where you will work in groups on a short research project to understand the cellular and molecular basis of a human genetic disease.

Neuroethology is the study of the neural basis of natural behavior. This lecture course will cover topics that include the neural mechanisms underlying predatory behavior and prey escape responses, specialized senses such as magnetoreception and electroreception, echolocation, animal communication, and animal navigation.

Our first goal in this course will be to examine the mechanisms that underlie the expression of behavior. For example, how do predators locate prey, how do animals avoid becoming prey, and how do animals navigate through their worlds? To help answer these questions we will apply neurobiological, hormonal, genetic, and developmental perspectives. Our next goal in the course will be to examine the evolutionary bases of behavior, asking for example why animals move, forage, hide, communicate, and socialize as they do.

Our first goal in this course will be to examine the mechanisms that underlie the expression of behavior. For example, how do predators locate prey, how do animals avoid becoming prey, and how do animals navigate through their worlds? To help answer these questions we will apply neurobiological, hormonal, genetic, and developmental perspectives. Our next goal in the course will be to examine the evolutionary bases of behavior, asking for example why animals move, forage, hide, communicate, and socialize as they do.

Our first goal in this course will be to examine the mechanisms that underlie the expression of behavior. For example, how do predators locate prey, how do animals avoid becoming prey, and how do animals navigate through their worlds? To help answer these questions we will apply neurobiological, hormonal, genetic, and developmental perspectives. Our next goal in the course will be to examine the evolutionary bases of behavior, asking for example why animals move, forage, hide, communicate, and socialize as they do.

With lab. Lectures and readings on comparative biology and evolutionary relationships of mammalian groups. Lab involves detailed introduction to the New England mammalian fauna and study of selected representatives of other groups, emphasizing adaptation.

Biological and chemical principles underlying the maintenance of food quality during the period after harvest to consumption. Topics include chemical, enzymic, physical, and biological deterioration; implications and prevention; food toxicology.

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