In this classical population genetics class, students will build on the theoretical concepts to develop breeding strategies for plant and animal improvement. Those who work with natural populations will also get the necessary principles to understand variation and to develop strategies to maintain the genetic variation.
PopGen Module: a three week module to go through some basic concepts in population genomics
Course Objectives: The purpose of this course is to introduce you to the ongoing and exciting research in our community, as well as give you the opportunity to share your research with others.
This is an informal lab workshop. We will utilize the lab Slack channel #workshop to engage in a series of online courses, as well as to review relevant books and materials. This approach will allow students to enhance the fundamental computational skills essential for our work in the lab.
PopGen Module: Three-weeks module for population genomics
Course Objectives: The purpose of this course is to introduce you to the ongoing and exciting research in our community, as well as give you the opportunity to share your research with others.
In this classical population genetics class, students will build on the theoretical concepts to develop breeding strategies for plant and animal improvement. Those who work with natural populations will also get the necessary principles to understand variation and to develop strategies to maintain the genetic variation.
LIFE-891-003: Complex Biosystems Seminar
Course Objectives: The purpose of this course is to introduce you to the ongoing and exciting research in our community, as well as give you the opportunity to share your research with others.
PopGen Module: Three-weeks module for population genomics
ANS/AGRO-932: Biometrical Genetics and Plant Breeding
The goal of this course is to apply biometrical methods to connect the phenotypic traits with high-dimensional genomic data to better understand polygenic traits for both prediction (or plant breeding) and inference (for gene mapping) purposes.
CBIO-843-001: Complex Biosystems Seminar
Course Objectives: The purpose of this course is to introduce you to the ongoing and exciting research in our community, as well as give you the opportunity to share your research with others.
In this classical population genetics class, students will build on the theoretical concepts to develop breeding strategies for plant and animal improvement. Those who work with natural populations will also get the necessary principles to understand variation and to develop strategies to maintain the genetic variation.
LIFE-891-003: Complex Biosystems Seminar
Course Objectives: The purpose of this course is to introduce you to the ongoing and exciting research in our community, as well as give you the opportunity to share your research with others.
Spring 2020
ANS/AGRO-932: Biometrical Genetics and Plant Breeding
The goal of this course is to apply biometrical methods to connect the phenotypic traits with high-dimensional genomic data to better understand polygenic traits for both prediction (or plant breeding) and inference (for gene mapping) purposes.
LIFE-891-003: Complex Biosystems Seminar
Course Objectives: The purpose of this course is to introduce you to the ongoing and exciting research in our community, as well as give you the opportunity to share your research with others.
Fall 2019
ANS/AGRO-931: Population Genetics
Team teach with Dr. Jessica Petersen
In this classical population genetics class, students will build on the theoretical concepts to develop breeding strategies for plant and animal improvement. Those who work with natural populations will also get the necessary principles to understand variation and to develop strategies to maintain this variation.
LIFE-891-003: Complex Biosystems Seminar
Course Objectives: The purpose of this course is to introduce you to the ongoing and exciting research in our community, as well as give you the opportunity to share your research with others.
Fall 2018
ANS/AGRO-931: Population Genetics
Guest lecture
Life-891: trait-marker association: in a nutshell, [html], [pdf]