K. Sami Nichols portrait

K. Sami Nichols

Adjunct Faculty
Degree
Ph.D. candidate, University of Minnesota
Office
Loras 306B
Hours
By appointment
Phone
(651)962-7227
Toll Free
(800)328-6819, ext. 2-7227
Fax
(651)962-5201
Mail
OWS 352
University of St. Thomas
2115 Summit Ave.
Saint Paul MN 55105

 

RESEARCH INTERESTS

Sami Nichols is a graduate student at the University of Minnesota, working on a PhD in Conservation Biology. Her research explores bird-building collisions from biological and architectural perspectives.

Fall 2017 Courses

Fall 2017 Courses
Course - Section Title Days Time Location
BIOL 207 - 04 Genetics Ecology Evolution - T - R - - - 1525 - 1700 MHC 205
CRN: 41055 4 Credit Hours Instructor: Kathryn S. Nichols A consideration of the mechanisms of heredity, evolution, population genetics, and population ecology emphasizing hypothesis testing, case studies, and quantitative and experimental approaches to population biology. Topics include: Mendelian genetics, genetic mapping, population genetics, selection theory and the process of adaptation, speciation, macroevolution and phylogenetics, and the growth and regulation of populations. Laboratory work emphasizes techniques for data analysis, including computer simulation and modeling. Three laboratory hours per week. This course fulfills the core-area in natural science in the Natural Science and Mathematical and Quantitative Reasoning requirements in the core curriculum. Prerequisites: Co-enrollment in or previous credit for CHEM 111 or CHEM 115

Schedule Details

Location Time Day(s)
BIOL 207 - 53 Genetics Ecology Evolution/Lab - T - - - - - 0800 - 1100 OWS 264
CRN: 41058 0 Credit Hours Instructor: Kathryn S. Nichols A consideration of the mechanisms of heredity, evolution, population genetics, and population ecology emphasizing hypothesis testing, case studies, and quantitative and experimental approaches to population biology. Topics include: Mendelian genetics, genetic mapping, population genetics, selection theory and the process of adaptation, speciation, macroevolution and phylogenetics, and the growth and regulation of populations. Laboratory work emphasizes techniques for data analysis, including computer simulation and modeling. Three laboratory hours per week. This course fulfills the core-area in natural science in the Natural Science and Mathematical and Quantitative Reasoning requirements in the core curriculum. Prerequisites: Co-enrollment in or previous credit for CHEM 111 or CHEM 115

Schedule Details

Location Time Day(s)
BIOL 207 - 59 Genetics Ecology Evolution/Lab - - - R - - - 0800 - 1100 OWS 264
CRN: 41064 0 Credit Hours Instructor: Kathryn S. Nichols A consideration of the mechanisms of heredity, evolution, population genetics, and population ecology emphasizing hypothesis testing, case studies, and quantitative and experimental approaches to population biology. Topics include: Mendelian genetics, genetic mapping, population genetics, selection theory and the process of adaptation, speciation, macroevolution and phylogenetics, and the growth and regulation of populations. Laboratory work emphasizes techniques for data analysis, including computer simulation and modeling. Three laboratory hours per week. This course fulfills the core-area in natural science in the Natural Science and Mathematical and Quantitative Reasoning requirements in the core curriculum. Prerequisites: Co-enrollment in or previous credit for CHEM 111 or CHEM 115

Schedule Details

Location Time Day(s)

J-Term 2018 Courses

J-Term 2018 Courses
Course - Section Title Days Time Location

Spring 2018 Courses

Spring 2018 Courses
Course - Section Title Days Time Location