General
Course Content
This
is a general introductory course on empirical and theoretical population
genetics. It
will involve two weekly lectures, weekly problem sets,
readings from
the text, and readings from the primary literature.
A major goal of this course is to make
students familiar with basic models of population genetics and to
acquaint
students with empirical tests of these models. As
much as any field of biology, population genetics has
been divided
into a theoretical and an empirical branch. However,
these two bodies of knowledge are intimately
related and this
course will cover both in roughly equal amounts. We
will discuss the primary forces and
processes involved in shaping genetic variation in natural populations
(mutation, drift, selection, migration, recombination, mating patterns,
population size and population subdivision), methods of measuring
genetic
variation in nature, and experimental tests of important ideas in
population
genetics.
This class usually includes roughly
equal
numbers of graduate and undergraduate students. Undergraduates
often find this course challenging and
fairly
fast-paced. A basic knowledge of algebra
and calculus is assumed.
Hedrick, P.W. 2011 Genetics of Populations, Fourth Edition. Jones & Barlett Publishers, Sudbury, MA
Basic
Algebra and Logarithms 