Summer 2015 Courses

Course - Section Title Days Time Location
BIOL 106 - 01 Women, Medicine and Biology - T W R - - - 1000 - 1200 OWS 257

Days of Week:

- T W R - - -

Time of Day:

1000 - 1200

Location:

OWS 257

Course Registration Number:

30101

Credit Hours:

4

Instructor:

Dayius L. Turvold Celotta

This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.

Schedule Details

Location Time Day(s)
BIOL 106 - 51 Women/ Medicine & Biology/Lab - T W R - - - 1205 - 1405 OWS 266

Days of Week:

- T W R - - -

Time of Day:

1205 - 1405

Location:

OWS 266

Course Registration Number:

30102

Credit Hours:

0

Instructor:

Dayius L. Turvold Celotta

This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.

Schedule Details

Location Time Day(s)
BIOL 363 - 01 Immunology - T - R - - - 1500 - 1800 OWS 275

Days of Week:

- T - R - - -

Time of Day:

1500 - 1800

Location:

OWS 275

Course Registration Number:

30261

Credit Hours:

4

Instructor:

Angela K. Stoeckman

A study of the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS and other topics of interest. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 204 or BIOL 209

Schedule Details

Location Time Day(s)
BIOL 363 - 51 Immunology / Lab - T - - - - - 1815 - 2115 OWS 389

Days of Week:

- T - - - - -

Time of Day:

1815 - 2115

Location:

OWS 389

Course Registration Number:

30262

Credit Hours:

0

Instructor:

Angela K. Stoeckman

A study of the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS and other topics of interest. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 204 or BIOL 209

Schedule Details

Location Time Day(s)

Fall 2015 Courses

Course - Section Title Days Time Location
BIOL 101 - 01 General Biology - T - R - - - 0955 - 1135 OWS 150

Days of Week:

- T - R - - -

Time of Day:

0955 - 1135

Location:

OWS 150

Course Registration Number:

41293

Credit Hours:

4

Instructor:

Anthony W. Lewno

Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.

Schedule Details

Location Time Day(s)
BIOL 101 - 51 General Biology/Lab - T - - - - - 1530 - 1730 OWS 266

Days of Week:

- T - - - - -

Time of Day:

1530 - 1730

Location:

OWS 266

Course Registration Number:

41294

Credit Hours:

0

Instructor:

Anthony W. Lewno

Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.

Schedule Details

Location Time Day(s)
BIOL 101 - 52 General Biology/Lab - - W - - - - 1535 - 1735 OWS 266

Days of Week:

- - W - - - -

Time of Day:

1535 - 1735

Location:

OWS 266

Course Registration Number:

41295

Credit Hours:

0

Instructor:

Dayius L. Turvold Celotta

Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.

Schedule Details

Location Time Day(s)
BIOL 101 - 53 General Biology/Lab - - W - - - - 1330 - 1530 OWS 266

Days of Week:

- - W - - - -

Time of Day:

1330 - 1530

Location:

OWS 266

Course Registration Number:

41296

Credit Hours:

0

Instructor:

Dayius L. Turvold Celotta

Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.

Schedule Details

Location Time Day(s)
BIOL 102 - 01 Conservation Biology M - W - F - - 0815 - 0920 MHC 205

Days of Week:

M - W - F - -

Time of Day:

0815 - 0920

Location:

MHC 205

Course Registration Number:

41288

Credit Hours:

4

Instructor:

Doreen J. Schroeder

An introduction to the basic concepts of conservation biology, including the history of conservation, the value of biological diversity, threats to biodiversity, conservation at the population, species, and community levels, and applications to human activities. Laboratories will emphasize data collection and analysis, and the practical application of conservation practices. This course is designed to meet the needs of the Environmental Studies major for a core course in environmental biology. Two laboratory hours per week. This course fulfills the core-area in natural science in the Natural Science and Mathematical and Quantitative Reasoning requirement in the core curriculum.

Schedule Details

Location Time Day(s)
BIOL 102 - 51 Conservation Biology/Lab M - - - - - - 1335 - 1535 OWS 266

Days of Week:

M - - - - - -

Time of Day:

1335 - 1535

Location:

OWS 266

Course Registration Number:

41289

Credit Hours:

0

Instructor:

Doreen J. Schroeder

An introduction to the basic concepts of conservation biology, including the history of conservation, the value of biological diversity, threats to biodiversity, conservation at the population, species, and community levels, and applications to human activities. Laboratories will emphasize data collection and analysis, and the practical application of conservation practices. This course is designed to meet the needs of the Environmental Studies major for a core course in environmental biology. Two laboratory hours per week. This course fulfills the core-area in natural science in the Natural Science and Mathematical and Quantitative Reasoning requirement in the core curriculum.

Schedule Details

Location Time Day(s)
BIOL 102 - 52 Conservation Biology/Lab M - - - - - - 1545 - 1745 OWS 266

Days of Week:

M - - - - - -

Time of Day:

1545 - 1745

Location:

OWS 266

Course Registration Number:

41290

Credit Hours:

0

Instructor:

Doreen J. Schroeder

An introduction to the basic concepts of conservation biology, including the history of conservation, the value of biological diversity, threats to biodiversity, conservation at the population, species, and community levels, and applications to human activities. Laboratories will emphasize data collection and analysis, and the practical application of conservation practices. This course is designed to meet the needs of the Environmental Studies major for a core course in environmental biology. Two laboratory hours per week. This course fulfills the core-area in natural science in the Natural Science and Mathematical and Quantitative Reasoning requirement in the core curriculum.

Schedule Details

Location Time Day(s)
BIOL 102 - 53 Conservation Biology/Lab - T - - - - - 0900 - 1100 OWS 266

Days of Week:

- T - - - - -

Time of Day:

0900 - 1100

Location:

OWS 266

Course Registration Number:

41709

Credit Hours:

0

Instructor:

Doreen J. Schroeder

An introduction to the basic concepts of conservation biology, including the history of conservation, the value of biological diversity, threats to biodiversity, conservation at the population, species, and community levels, and applications to human activities. Laboratories will emphasize data collection and analysis, and the practical application of conservation practices. This course is designed to meet the needs of the Environmental Studies major for a core course in environmental biology. Two laboratory hours per week. This course fulfills the core-area in natural science in the Natural Science and Mathematical and Quantitative Reasoning requirement in the core curriculum.

Schedule Details

Location Time Day(s)
BIOL 198 - 02 Genetics/Popular Culture M - W - F - - 1055 - 1200 MHC 209

Days of Week:

M - W - F - -

Time of Day:

1055 - 1200

Location:

MHC 209

Course Registration Number:

43106

Credit Hours:

4

Instructor:

Dayius L. Turvold Celotta, Kerri M. Carlson

The subject matter of these courses will vary from year to year, but will not duplicate existing courses. Descriptions of these courses are available in the Searchable Class Schedule on Murphy Online, View Searchable Class Schedule

Schedule Details

Location Time Day(s)
BIOL 198 - 53 Genetics/Pop Culture Lab - - - R - - - 0935 - 1135 OWS 266

Days of Week:

- - - R - - -

Time of Day:

0935 - 1135

Location:

OWS 266

Course Registration Number:

43110

Credit Hours:

0

Instructor:

Kerri M. Carlson

The subject matter of these courses will vary from year to year, but will not duplicate existing courses. Descriptions of these courses are available in the Searchable Class Schedule on Murphy Online, View Searchable Class Schedule

Schedule Details

Location Time Day(s)
BIOL 198 - 54 Genetics/Pop Culture Lab - - - R - - - 1335 - 1529 OWS 266

Days of Week:

- - - R - - -

Time of Day:

1335 - 1529

Location:

OWS 266

Course Registration Number:

43111

Credit Hours:

0

Instructor:

Dayius L. Turvold Celotta

The subject matter of these courses will vary from year to year, but will not duplicate existing courses. Descriptions of these courses are available in the Searchable Class Schedule on Murphy Online, View Searchable Class Schedule

Schedule Details

Location Time Day(s)
BIOL 207 - 01 Genetics Ecology Evolution M - W - F - - 1055 - 1200 MHC 205

Days of Week:

M - W - F - -

Time of Day:

1055 - 1200

Location:

MHC 205

Course Registration Number:

41318

Credit Hours:

4

Instructor:

Chester E. Wilson

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 - 02 Genetics Ecology Evolution M - W - F - - 1215 - 1320 MHC 205

Days of Week:

M - W - F - -

Time of Day:

1215 - 1320

Location:

MHC 205

Course Registration Number:

41319

Credit Hours:

4

Instructor:

Nancy Z. Hartung

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 - 03 Genetics Ecology Evolution - T - R - - - 0800 - 0940 OWS 150

Days of Week:

- T - R - - -

Time of Day:

0800 - 0940

Location:

OWS 150

Course Registration Number:

41320

Credit Hours:

4

Instructor:

Timothy L. Lewis

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 - 04 Genetics Ecology Evolution - T - R - - - 1525 - 1700 MHC 205

Days of Week:

- T - R - - -

Time of Day:

1525 - 1700

Location:

MHC 205

Course Registration Number:

41321

Credit Hours:

4

Instructor:

Simon K. Emms

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 - 51 Genetics Ecology Evolution/Lab M - - - - - - 1330 - 1630 OWS 264

Days of Week:

M - - - - - -

Time of Day:

1330 - 1630

Location:

OWS 264

Course Registration Number:

41822

Credit Hours:

0

Instructor:

Chester E. Wilson

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 - 52 Genetics Ecology Evolution/Lab M - - - - - - 1800 - 2100 OWS 264

Days of Week:

M - - - - - -

Time of Day:

1800 - 2100

Location:

OWS 264

Course Registration Number:

41323

Credit Hours:

0

Instructor:

Pamela D. Husak

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

Days of Week:

- T - - - - -

Time of Day:

0800 - 1100

Location:

OWS 264

Course Registration Number:

41324

Credit Hours:

0

Instructor:

Pamela D. Husak

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 - 54 Genetics Ecology Evolution/Lab - T - - - - - 1330 - 1630 OWS 264

Days of Week:

- T - - - - -

Time of Day:

1330 - 1630

Location:

OWS 264

Course Registration Number:

41325

Credit Hours:

0

Instructor:

Pamela D. Husak

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 - 55 Genetics Ecology Evolution/Lab - T - - - - - 1800 - 2100 OWS 264

Days of Week:

- T - - - - -

Time of Day:

1800 - 2100

Location:

OWS 264

Course Registration Number:

41326

Credit Hours:

0

Instructor:

Katherine A. Leehy

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 - 56 Genetics Ecology Evolution/Lab - - W - - - - 0800 - 1100 OWS 264

Days of Week:

- - W - - - -

Time of Day:

0800 - 1100

Location:

OWS 264

Course Registration Number:

41327

Credit Hours:

0

Instructor:

Simon K. Emms

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 - 57 Genetics Ecology Evolution/Lab - - W - - - - 1335 - 1635 OWS 264

Days of Week:

- - W - - - -

Time of Day:

1335 - 1635

Location:

OWS 264

Course Registration Number:

41328

Credit Hours:

0

Instructor:

Simon K. Emms

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 - 58 Genetics Ecology Evolution/Lab - - W - - - - 1800 - 2100 OWS 264

Days of Week:

- - W - - - -

Time of Day:

1800 - 2100

Location:

OWS 264

Course Registration Number:

41329

Credit Hours:

0

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

Days of Week:

- - - R - - -

Time of Day:

0800 - 1100

Location:

OWS 264

Course Registration Number:

41330

Credit Hours:

0

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 - 60 Genetics Ecology Evolution/Lab - - - R - - - 1330 - 1630 OWS 264

Days of Week:

- - - R - - -

Time of Day:

1330 - 1630

Location:

OWS 264

Course Registration Number:

41331

Credit Hours:

0

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 - 62 Genetics Ecology Evolution/Lab - - - - F - - 0800 - 1100 OWS 264

Days of Week:

- - - - F - -

Time of Day:

0800 - 1100

Location:

OWS 264

Course Registration Number:

41333

Credit Hours:

0

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 208 - 01 Biological Comm & Energetics - T - R - - - 0955 - 1135 OSS LL18

Days of Week:

- T - R - - -

Time of Day:

0955 - 1135

Location:

OSS LL18

Course Registration Number:

41509

Credit Hours:

4

Instructor:

Afshan Ismat

The purpose of this course is to introduce the structure and fuction of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological funtions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: Concurrent or previous enrollment in CHEM 112 or CHEM 115 and C- or above in BIOL 207

Schedule Details

Location Time Day(s)
BIOL 208 - 52 Biol Comm & Energetics/LAB - - - - F - - 1330 - 1630 OWS 378

Days of Week:

- - - - F - -

Time of Day:

1330 - 1630

Location:

OWS 378

Course Registration Number:

41511

Credit Hours:

0

Instructor:

Chester E. Wilson

The purpose of this course is to introduce the structure and fuction of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological funtions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: Concurrent or previous enrollment in CHEM 112 or CHEM 115 and C- or above in BIOL 207

Schedule Details

Location Time Day(s)
BIOL 209 - 01 Biology of Sustainability M - W - F - - 0935 - 1040 OWS LL54

Days of Week:

M - W - F - -

Time of Day:

0935 - 1040

Location:

OWS LL54

Course Registration Number:

41434

Credit Hours:

4

Instructor:

Jennifer T. McGuire

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 02 Biology of Sustainability - T - R - - - 1525 - 1700 OWS 250

Days of Week:

- T - R - - -

Time of Day:

1525 - 1700

Location:

OWS 250

Course Registration Number:

41435

Credit Hours:

4

Instructor:

Gaston E. Small

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 03 Biology of Sustainability M - W - F - - 1055 - 1200 OWS 250

Days of Week:

M - W - F - -

Time of Day:

1055 - 1200

Location:

OWS 250

Course Registration Number:

41436

Credit Hours:

4

Instructor:

Jennifer T. McGuire

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 04 Biology of Sustainability - T - R - - - 0955 - 1135 OWS LL54

Days of Week:

- T - R - - -

Time of Day:

0955 - 1135

Location:

OWS LL54

Course Registration Number:

41497

Credit Hours:

4

Instructor:

Leah M. Domine

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 05 Biology of Sustainability M - W - - - - 1335 - 1510 OWS LL54

Days of Week:

M - W - - - -

Time of Day:

1335 - 1510

Location:

OWS LL54

Course Registration Number:

41498

Credit Hours:

4

Instructor:

Adam D. Kay

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 51 Biology of Sustainability/Lab M - - - - - - 1335 - 1635 OWS 378

Days of Week:

M - - - - - -

Time of Day:

1335 - 1635

Location:

OWS 378

Course Registration Number:

41437

Credit Hours:

0

Instructor:

Jennifer T. McGuire

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 52 Biology of Sustainability/Lab M - - - - - - 1800 - 2100 OWS 378

Days of Week:

M - - - - - -

Time of Day:

1800 - 2100

Location:

OWS 378

Course Registration Number:

41438

Credit Hours:

0

Instructor:

Leah M. Domine

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 53 Biology of Sustainability/Lab - T - - - - - 0900 - 1200 OWS 378

Days of Week:

- T - - - - -

Time of Day:

0900 - 1200

Location:

OWS 378

Course Registration Number:

41439

Credit Hours:

0

Instructor:

Gaston E. Small

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 54 Biology of Sustainability/lab - T - - - - - 1330 - 1630 OWS 378

Days of Week:

- T - - - - -

Time of Day:

1330 - 1630

Location:

OWS 378

Course Registration Number:

41440

Credit Hours:

0

Instructor:

Leah M. Domine

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 55 Biology of Sustainability/Lab - T - - - - - 1800 - 2100 OWS 378

Days of Week:

- T - - - - -

Time of Day:

1800 - 2100

Location:

OWS 378

Course Registration Number:

41441

Credit Hours:

0

Instructor:

Dayius L. Turvold Celotta

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 56 Biology of Sustainability/Lab - - W - - - - 1335 - 1635 OWS 378

Days of Week:

- - W - - - -

Time of Day:

1335 - 1635

Location:

OWS 378

Course Registration Number:

41442

Credit Hours:

0

Instructor:

Gaston E. Small

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 57 Biology of Sustainability/Lab - - W - - - - 1800 - 2100 OWS 378

Days of Week:

- - W - - - -

Time of Day:

1800 - 2100

Location:

OWS 378

Course Registration Number:

41499

Credit Hours:

0

Instructor:

Steve W. Bennett

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 58 Biology of Sustainability/Lab - - - R - - - 1800 - 2100 OWS 378

Days of Week:

- - - R - - -

Time of Day:

1800 - 2100

Location:

OWS 378

Course Registration Number:

42518

Credit Hours:

0

Instructor:

Steve W. Bennett

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 59 Biology of Sustainability/Lab - - - R - - - 1330 - 1630 OWS 378

Days of Week:

- - - R - - -

Time of Day:

1330 - 1630

Location:

OWS 378

Course Registration Number:

41500

Credit Hours:

0

Instructor:

Steve W. Bennett

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 60 Biology of Sustainability/Lab - - - R - - - 0900 - 1200 OWS 378

Days of Week:

- - - R - - -

Time of Day:

0900 - 1200

Location:

OWS 378

Course Registration Number:

41501

Credit Hours:

0

Instructor:

Kurt R. Illig

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 330 - 01 Animal Behavior M - W - F - - 1215 - 1320 OSS 122

Days of Week:

M - W - F - -

Time of Day:

1215 - 1320

Location:

OSS 122

Course Registration Number:

43158

Credit Hours:

4

Instructor:

Jenne M. Westberry

The study of animal behavior at multiple levels connecting neural, hormonal, and genetic mechanisms of behavior to an evolutionary perspective. The adaptive value of behaviors such as display, habitat selection, foraging pattern, and mating system is examined. Theoretical analysis of sexual selection and the evolution of cooperation and altruism are considered. Laboratory work emphasizes the measurement and analysis of animal behavior under natural conditions. Four laboratory hours per week. Prerequisite: A minimum grad of C- in BIOL 209; STAT 220 or MATH 303 recommended.

Schedule Details

Location Time Day(s)
BIOL 330 - 51 Animal Behavior/Lab - - W - - - - 1330 - 1730 OWS 379

Days of Week:

- - W - - - -

Time of Day:

1330 - 1730

Location:

OWS 379

Course Registration Number:

43159

Credit Hours:

0

Instructor:

Carl M. Stenoien

The study of animal behavior at multiple levels connecting neural, hormonal, and genetic mechanisms of behavior to an evolutionary perspective. The adaptive value of behaviors such as display, habitat selection, foraging pattern, and mating system is examined. Theoretical analysis of sexual selection and the evolution of cooperation and altruism are considered. Laboratory work emphasizes the measurement and analysis of animal behavior under natural conditions. Four laboratory hours per week. Prerequisite: A minimum grad of C- in BIOL 209; STAT 220 or MATH 303 recommended.

Schedule Details

Location Time Day(s)
BIOL 333 - 01 Ecology M - W - F - - 1055 - 1200 OWS 275

Days of Week:

M - W - F - -

Time of Day:

1055 - 1200

Location:

OWS 275

Course Registration Number:

40012

Credit Hours:

4

Instructor:

Kyle D. Zimmer

An exploration of the major concepts in modern ecology, including eco-physiology and adaptation, population growth and regulation, community and ecosystem ecology, and biodiversity and conservation biology. Laboratory and field work will complement these topics and will emphasize careful experimental design and statistical analysis of data. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; QMCS 220 or MATH 303 recommended

Schedule Details

Location Time Day(s)
BIOL 333 - 51 Ecology/Lab M - - - - - - 1230 - 1630 OWS 268

Days of Week:

M - - - - - -

Time of Day:

1230 - 1630

Location:

OWS 268

Course Registration Number:

40013

Credit Hours:

0

Instructor:

Kyle D. Zimmer

An exploration of the major concepts in modern ecology, including eco-physiology and adaptation, population growth and regulation, community and ecosystem ecology, and biodiversity and conservation biology. Laboratory and field work will complement these topics and will emphasize careful experimental design and statistical analysis of data. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; QMCS 220 or MATH 303 recommended

Schedule Details

Location Time Day(s)
BIOL 333 - 52 Ecology lab - T - - - - - 1230 - 1630 OWS 268

Days of Week:

- T - - - - -

Time of Day:

1230 - 1630

Location:

OWS 268

Course Registration Number:

41816

Credit Hours:

0

Instructor:

Kyle D. Zimmer

An exploration of the major concepts in modern ecology, including eco-physiology and adaptation, population growth and regulation, community and ecosystem ecology, and biodiversity and conservation biology. Laboratory and field work will complement these topics and will emphasize careful experimental design and statistical analysis of data. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; QMCS 220 or MATH 303 recommended

Schedule Details

Location Time Day(s)
BIOL 333 - 53 Ecology Lab - - W - - - - 1230 - 1630 OWS 268

Days of Week:

- - W - - - -

Time of Day:

1230 - 1630

Location:

OWS 268

Course Registration Number:

41817

Credit Hours:

0

Instructor:

Kyle D. Zimmer

An exploration of the major concepts in modern ecology, including eco-physiology and adaptation, population growth and regulation, community and ecosystem ecology, and biodiversity and conservation biology. Laboratory and field work will complement these topics and will emphasize careful experimental design and statistical analysis of data. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; QMCS 220 or MATH 303 recommended

Schedule Details

Location Time Day(s)
BIOL 349 - 01 Comp Anatomy & Physiology-A M - W - F - - 1055 - 1200 OSS 328

Days of Week:

M - W - F - -

Time of Day:

1055 - 1200

Location:

OSS 328

Course Registration Number:

40014

Credit Hours:

4

Instructor:

Jerry F. Husak

Examination of the functional morphology of the vertebrate skeletal, muscular, nervous, endocrine and reproductive systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 349 - 02 Comp Anatomy & Physiology-B M - W - F - - 0935 - 1040 OWS 250

Days of Week:

M - W - F - -

Time of Day:

0935 - 1040

Location:

OWS 250

Course Registration Number:

41340

Credit Hours:

4

Instructor:

Haude Levesque

Examination of the functional morphology of the vertebrate skeletal, muscular, nervous, endocrine and reproductive systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 349 - 51 Comp Anatomy & Physiology/LabA - - - R - - - 1330 - 1730 OWS 380

Days of Week:

- - - R - - -

Time of Day:

1330 - 1730

Location:

OWS 380

Course Registration Number:

40015

Credit Hours:

0

Instructor:

Jerry F. Husak

Examination of the functional morphology of the vertebrate skeletal, muscular, nervous, endocrine and reproductive systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 349 - 52 Comp Anatomy & Physiology/LabA - - W - - - - 1330 - 1730 OWS 380

Days of Week:

- - W - - - -

Time of Day:

1330 - 1730

Location:

OWS 380

Course Registration Number:

40569

Credit Hours:

0

Instructor:

Jerry F. Husak

Examination of the functional morphology of the vertebrate skeletal, muscular, nervous, endocrine and reproductive systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 349 - 53 Comp Anatomy & Physiology/LabB - T - - - - - 1330 - 1730 OWS 380

Days of Week:

- T - - - - -

Time of Day:

1330 - 1730

Location:

OWS 380

Course Registration Number:

40016

Credit Hours:

0

Instructor:

Haude Levesque

Examination of the functional morphology of the vertebrate skeletal, muscular, nervous, endocrine and reproductive systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 354 - 01 Neurobiology M - W - F - - 0935 - 1040 BIN LL02

Days of Week:

M - W - F - -

Time of Day:

0935 - 1040

Location:

BIN LL02

Course Registration Number:

41624

Credit Hours:

4

Instructor:

Jenne M. Westberry

An introduction to the study of neuroscience from the cellular, systems, and behavioral perspectives. Topics will include how information is carried by neural tissues, the ionic basis for neuronal potentials, neurotransmitters and synaptic transmission, sensory and motor systems, and the neural mechanisms of learning, memory and behavior. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 354 - 53 Neurobiology / Lab - - - R - - - 0800 - 1200 OWS 381

Days of Week:

- - - R - - -

Time of Day:

0800 - 1200

Location:

OWS 381

Course Registration Number:

41625

Credit Hours:

0

Instructor:

Jenne M. Westberry

An introduction to the study of neuroscience from the cellular, systems, and behavioral perspectives. Topics will include how information is carried by neural tissues, the ionic basis for neuronal potentials, neurotransmitters and synaptic transmission, sensory and motor systems, and the neural mechanisms of learning, memory and behavior. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 354 - 54 Neurobiology / Lab - - - R - - - 1330 - 1730 OWS 381

Days of Week:

- - - R - - -

Time of Day:

1330 - 1730

Location:

OWS 381

Course Registration Number:

41626

Credit Hours:

0

Instructor:

Jenne M. Westberry

An introduction to the study of neuroscience from the cellular, systems, and behavioral perspectives. Topics will include how information is carried by neural tissues, the ionic basis for neuronal potentials, neurotransmitters and synaptic transmission, sensory and motor systems, and the neural mechanisms of learning, memory and behavior. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 356 - 01 Microbiology - T - R - - - 0955 - 1135 BEC 111

Days of Week:

- T - R - - -

Time of Day:

0955 - 1135

Location:

BEC 111

Course Registration Number:

41443

Credit Hours:

4

Instructor:

Nadia M. Dominguez

The in-depth study microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; completion of or concurrent registration in CHEM201

Schedule Details

Location Time Day(s)
BIOL 356 - 51 Microbiology/Lab - - W - - - - 0800 - 1200 OWS 263

Days of Week:

- - W - - - -

Time of Day:

0800 - 1200

Location:

OWS 263

Course Registration Number:

41444

Credit Hours:

0

Instructor:

Nadia M. Dominguez

The in-depth study microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; completion of or concurrent registration in CHEM201

Schedule Details

Location Time Day(s)
BIOL 356 - 52 Microbiology/Lab - - W - - - - 1335 - 1735 OWS 263

Days of Week:

- - W - - - -

Time of Day:

1335 - 1735

Location:

OWS 263

Course Registration Number:

41445

Credit Hours:

0

Instructor:

Nadia M. Dominguez

The in-depth study microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; completion of or concurrent registration in CHEM201

Schedule Details

Location Time Day(s)
BIOL 360 - 01 Genetics M - W - F - - 1215 - 1320 OWS 257

Days of Week:

M - W - F - -

Time of Day:

1215 - 1320

Location:

OWS 257

Course Registration Number:

40017

Credit Hours:

4

Instructor:

Kerri M. Carlson

Detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems discussed. Genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; CHEM 201

Schedule Details

Location Time Day(s)
BIOL 360 - 51 Genetics/Lab M - - - - - - 1335 - 1735 OWS 263

Days of Week:

M - - - - - -

Time of Day:

1335 - 1735

Location:

OWS 263

Course Registration Number:

40018

Credit Hours:

0

Instructor:

Kerri M. Carlson

Detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems discussed. Genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; CHEM 201

Schedule Details

Location Time Day(s)
BIOL 360 - 52 Genetics/Lab - - - R - - - 1330 - 1730 OWS 263

Days of Week:

- - - R - - -

Time of Day:

1330 - 1730

Location:

OWS 263

Course Registration Number:

40019

Credit Hours:

0

Instructor:

Kerri M. Carlson

Detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems discussed. Genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209; CHEM 201

Schedule Details

Location Time Day(s)
BIOL 363 - 01 Immunology A - T - R - - - 0800 - 0940 OWS 275

Days of Week:

- T - R - - -

Time of Day:

0800 - 0940

Location:

OWS 275

Course Registration Number:

41447

Credit Hours:

4

Instructor:

Colin H. Martin

A study of the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS and other topics of interest. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 204 or BIOL 209

Schedule Details

Location Time Day(s)
BIOL 363 - 02 Immunology B - T - R - - - 1330 - 1510 OWS 251

Days of Week:

- T - R - - -

Time of Day:

1330 - 1510

Location:

OWS 251

Course Registration Number:

42131

Credit Hours:

4

Instructor:

Colin H. Martin

A study of the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS and other topics of interest. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 204 or BIOL 209

Schedule Details

Location Time Day(s)
BIOL 363 - 51 Immunology A /Lab M - - - - - - 1215 - 1615 OWS 389

Days of Week:

M - - - - - -

Time of Day:

1215 - 1615

Location:

OWS 389

Course Registration Number:

41448

Credit Hours:

0

Instructor:

Colin H. Martin

A study of the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS and other topics of interest. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 204 or BIOL 209

Schedule Details

Location Time Day(s)
BIOL 363 - 52 Immunology A /Lab M - - - - - - 1730 - 2130 OWS 389

Days of Week:

M - - - - - -

Time of Day:

1730 - 2130

Location:

OWS 389

Course Registration Number:

41449

Credit Hours:

0

Instructor:

Colin H. Martin

A study of the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS and other topics of interest. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 204 or BIOL 209

Schedule Details

Location Time Day(s)
BIOL 363 - 55 Immunology B / Lab - T - - - - - 0800 - 1200 OWS 389

Days of Week:

- T - - - - -

Time of Day:

0800 - 1200

Location:

OWS 389

Course Registration Number:

42544

Credit Hours:

0

Instructor:

Elizabeth M. Steinert

A study of the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS and other topics of interest. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 204 or BIOL 209

Schedule Details

Location Time Day(s)
BIOL 398 - 01 Mammalogy - T - R - - - 0800 - 0940 OSS 127

Days of Week:

- T - R - - -

Time of Day:

0800 - 0940

Location:

OSS 127

Course Registration Number:

41842

Credit Hours:

4

Instructor:

George A. Feldhamer

Mammalogy will examine the evolutionary history of mammals, their form and function (dentition and feeding adaptations; functions of pelage; locomotion; and reproduction); ordinal characteristics; zoogeography; size and metabolism; hibernation and torpor; and parasites and diseases. The 5,400 species of mammals range in size from pygmy shrew (body weight equal to a dime) to the largest animal ever-blue whale. Mammals play critical roles in marine, freshwater, alpine, tundra, forest and desert ecosystems worlwide. Pre-requisites: minimum of C- in BIOL 209 or instructor's permission.

Schedule Details

Location Time Day(s)
BIOL 398 - 51 Mammalogy / Lab - T - - - - - 1330 - 1730 OWS 379

Days of Week:

- T - - - - -

Time of Day:

1330 - 1730

Location:

OWS 379

Course Registration Number:

41843

Credit Hours:

0

Instructor:

George A. Feldhamer

The subject matter of these courses will vary from year to year, but will not duplicate existing courses. Descriptions of these courses are available in the Searchable Class Schedule on Murphy Online, View Searchable Class Schedule

Schedule Details

Location Time Day(s)
BIOL 462 - 01 Molecular Biology - T - R - - - 1330 - 1510 OSS 122

Days of Week:

- T - R - - -

Time of Day:

1330 - 1510

Location:

OSS 122

Course Registration Number:

41450

Credit Hours:

4

Instructor:

Jennifer L. Cruise

An investigation of current concepts in molecular biology including gene expression and its regulation, the organization of genetic information, recombinant DNA techniques, oncogenes and genetic engineering. The laboratory consists of a collaborative research project. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 356, 360, or 371. Alternative prerequisites may be accepted with the permission of the instructor.

Schedule Details

Location Time Day(s)
BIOL 462 - 51 Molecular Biology/Lab - - W - - - - 1335 - 1735 OWS 389

Days of Week:

- - W - - - -

Time of Day:

1335 - 1735

Location:

OWS 389

Course Registration Number:

41451

Credit Hours:

0

Instructor:

Jennifer L. Cruise

An investigation of current concepts in molecular biology including gene expression and its regulation, the organization of genetic information, recombinant DNA techniques, oncogenes and genetic engineering. The laboratory consists of a collaborative research project. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 356, 360, or 371. Alternative prerequisites may be accepted with the permission of the instructor.

Schedule Details

Location Time Day(s)
BIOL 467 - 01 Emerging Infectious Diseases - T - R - - - 0800 - 0940 OWS 165A

Days of Week:

- T - R - - -

Time of Day:

0800 - 0940

Location:

OWS 165A

Course Registration Number:

41291

Credit Hours:

4

Instructor:

Jill M. Manske

This course focuses on emerging infectious diseases from many different perspectives with particular attention to the ways in which human behavior is altering the ecology of infectious disease transmission, thereby promoting emergence of these diseases as a major global health threat. The course will be a seminar format designed aournd case studies, discussion, guest speakers, and student projects. Laboratory will consist of an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisite: Two biology courses at the 300-level or above

Schedule Details

Location Time Day(s)
BIOL 467 - 51 Emerging Infectious Diseas/LAB M - - - - - - 1330 - 1730 OWS 380

Days of Week:

M - - - - - -

Time of Day:

1330 - 1730

Location:

OWS 380

Course Registration Number:

41292

Credit Hours:

0

Instructor:

Jill M. Manske

This course focuses on emerging infectious diseases from many different perspectives with particular attention to the ways in which human behavior is altering the ecology of infectious disease transmission, thereby promoting emergence of these diseases as a major global health threat. The course will be a seminar format designed aournd case studies, discussion, guest speakers, and student projects. Laboratory will consist of an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisite: Two biology courses at the 300-level or above

Schedule Details

Location Time Day(s)
BIOL 490 - 01 Ecology of Infectious Diseases M - W - - - - 1335 - 1510 OSS 325

Days of Week:

M - W - - - -

Time of Day:

1335 - 1510

Location:

OSS 325

Course Registration Number:

41845

Credit Hours:

4

Instructor:

Steve W. Bennett

Infectious and parsitic diseases cause about one-third of deaths and are second leading cause of morbidity and mortality. in this course we will combine knowladge from the life sciences and public health to explore how ecology and infectious pathogens are deeply linked. Topics will include: land use, geography, climate change, travel, natural disasters, culture, food production, governance and human conflict and dislocation. The course will be seminar style focused on discussion, presentations and analysis of current events. Lab will be focused on semester long group research project. Prerequisite: Two BIOL courses at 300 level or above, or permission of instructor.

Schedule Details

Location Time Day(s)
BIOL 490 - 51 Ecology of Inf. Diseases/Lab M - - - - - - 1530 - 1930 OWS 379

Days of Week:

M - - - - - -

Time of Day:

1530 - 1930

Location:

OWS 379

Course Registration Number:

41846

Credit Hours:

0

Instructor:

Steve W. Bennett

The subject matter of these courses will vary from year to year, but will not duplicate existing courses. Descriptions of these courses are available in the Searchable Class Schedule on Murphy Online, View Searchable Class Schedule

Schedule Details

Location Time Day(s)

J-Term 2016 Courses

Course - Section Title Days Time Location
BIOL 106 - 1 Women, Medicine and Biology - T W R F - - 1000 - 1200 OWS 257

Days of Week:

- T W R F - -

Time of Day:

1000 - 1200

Location:

OWS 257

Course Registration Number:

10124

Credit Hours:

4

Instructor:

Dayius L. Turvold Celotta

This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.

Schedule Details

Location Time Day(s)
BIOL 106 - 51 Women/Medicine & Biology/ Lab - T W R F - - 1205 - 1605 OWS 266

Days of Week:

- T W R F - -

Time of Day:

1205 - 1605

Location:

OWS 266

Course Registration Number:

10125

Credit Hours:

0

Instructor:

Dayius L. Turvold Celotta

This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.

Schedule Details

Location Time Day(s)
BIOL 209 - 01 Biology of Sustainability - T W R F - - 0830 - 1130 OWS 250

Days of Week:

- T W R F - -

Time of Day:

0830 - 1130

Location:

OWS 250

Course Registration Number:

10071

Credit Hours:

4

Instructor:

Kyle D. Zimmer

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 51 Biology of Sustainability/Lab - T W R - - - 1300 - 1600 OWS 378

Days of Week:

- T W R - - -

Time of Day:

1300 - 1600

Location:

OWS 378

Course Registration Number:

10072

Credit Hours:

0

Instructor:

Kyle D. Zimmer

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 209 - 52 Biology of Sustainability/Lab - T W R - - - 1300 - 1600 OWS 264

Days of Week:

- T W R - - -

Time of Day:

1300 - 1600

Location:

OWS 264

Course Registration Number:

10135

Credit Hours:

0

Instructor:

Doreen J. Schroeder

Influences of humans on the global environment has reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dyanmics and conservation biology. Prerequisite: C- or better in BIOL 208

Schedule Details

Location Time Day(s)
BIOL 328 - 01 Environmental Toxicology - T W R - - - 0830 - 1215 OWS 251

Days of Week:

- T W R - - -

Time of Day:

0830 - 1215

Location:

OWS 251

Course Registration Number:

10256

Credit Hours:

4

Instructor:

Dalma Martinovic, Jennifer T. McGuire

There is increasing public interest and concern over the connections between environmental quality and human health. This course will explore these connections by providing an introduction to the multidisciplinary field of environmental toxicology- the study of the adverse effects of chemical, biological, and physical agents in the environment on living organisms, including humans. Topics will cover global and local problems including issues of environmental justice and future approaches to sustainably mitigate the major environmental health problems in industrialized and developing countries. Four laboratory hours per week. Prerequisite: BIOL 209 or permission of instructor.

Schedule Details

Location Time Day(s)
BIOL 328 - 51 Environmental Toxicology Lab - T W R - - - 1300 - 1700 OWS 379

Days of Week:

- T W R - - -

Time of Day:

1300 - 1700

Location:

OWS 379

Course Registration Number:

10257

Credit Hours:

Instructor:

Dalma Martinovic, Jennifer T. McGuire

There is increasing public interest and concern over the connections between environmental quality and human health. This course will explore these connections by providing an introduction to the multidisciplinary field of environmental toxicology- the study of the adverse effects of chemical, biological, and physical agents in the environment on living organisms, including humans. Topics will cover global and local problems including issues of environmental justice and future approaches to sustainably mitigate the major environmental health problems in industrialized and developing countries. Four laboratory hours per week. Prerequisite: BIOL 209 or permission of instructor.

Schedule Details

Location Time Day(s)
BIOL 349 - 01 Comp Anat/Phys: Loco &Syst Reg - T W R F - - 0900 - 1200 OWS 275

Days of Week:

- T W R F - -

Time of Day:

0900 - 1200

Location:

OWS 275

Course Registration Number:

10253

Credit Hours:

4

Instructor:

Jerry F. Husak

Examination of the functional morphology of the vertebrate skeletal, muscular, nervous, endocrine and reproductive systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)
BIOL 349 - 51 Comp Anat/Phys Lab - T W R - - - 1300 - 1700 OWS 380

Days of Week:

- T W R - - -

Time of Day:

1300 - 1700

Location:

OWS 380

Course Registration Number:

10254

Credit Hours:

0

Instructor:

Jerry F. Husak

Examination of the functional morphology of the vertebrate skeletal, muscular, nervous, endocrine and reproductive systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisite: A minimum grade of C- in BIOL 209 or permission of instructor

Schedule Details

Location Time Day(s)

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