Building on incoming student summer programming to get started in the Biological Sciences in CBS. Providing transition programming, academic success tools, college learning, and guidance as a foundation for success in the biological sciences. Introduction to the College of Biological Sciences community and opportunities through class content, guild activities, and peer mentoring. prereq: Fr in College of Biological Sciences

Second semester of Nature of Life with focus on building intentional pathway in CBS/student success/engagement. prereq: 1805

Reflect on aspirations, personal characteristics, experiences. Resources/practical tools to reach educational/professional goals. Special focus on developing personal/professional goals, articulating personal experiences in light of aspirations. prereq: 1805, 1806

Reflect on aspirations, personal characteristics, experiences. Resources/practical tools to reach educational/professional goals. Special focus on developing personal/professional goals, articulating personal experiences in light of aspirations. prereq: 2905

Explore how to read/use research papers. Role of research ethics. Financial, legal, regulatory oversight on research/other topics. **This course is for new CBS transfer students from other institutions. prereq: College-level biology

Core biological concepts, from biomolecules to ecosystems. Emphasizes evolution, organismal diversity, and genetics within context of problem solving/applications. Students must take both BIOL 1951 and BIOL 1961 to be awarded the Biological Sciences LE. This course is required for all CBS majors

Core biological concepts, from biomolecules to ecosystems. Emphasizes evolution, organismal diversity, and genetics within context of problem solving/applications. Students must take both BIOL 1951H and BIOL 1961 to be awarded the Biological Sciences LE. This course is required for all CBS honors students

Core biological concepts, from biomolecules to ecosystems. Emphasizes evolution, organismal diversity, and genetics within context of problem solving/applications. Students must take both BIOL 1951 and BIOL 1961 to be awarded the Biological Sciences LE. This course is required for all CBS majors

Second of two courses. Biological concepts, from biomolecules to ecosystems. Ecology/biochemistry concepts within problem solving/application.

Second of two courses. Biological concepts, from biomolecules to ecosystems. Ecology/biochemistry concepts within problem solving/application.

This course follows BIOL 1961 and is required for all CBS majors. Students design and perform research projects that will require an additional 4-to-6 hours per week of work outside of class; times to be arranged. Each section is devoted to a single research area; check the section details to see which sections correspond to each research area. Research projects in zebrafish environmental toxicology and zebrafish microbiome sections will require in-person work in the BIOL 3004 laboratory. Only students with previous command line coding experience should enroll for a computational microbiology section. All projects involve applying quantitative skills, scientific method, and modern biological tools to real-world questions. Prerequisite is Foundations of Biology Lab I: BIOL 1961, 1961H, 2002, or 2002H AND CHEM 1021, 1061, 1071H, or 1081. Credit will not be granted if credit has been received for: BIOL 3004H.

Differential/integral calculus with biological applications. Discrete/continuous dynamical systems. Models from fields such as ecology/evolution, epidemiology, physiology, genetic networks, neuroscience, and biochemistry. prereq: [4 yrs high school math including trig or satisfactory score on placement test or grade of at least C- in [1151 or 1155]], CBS student

Differential calculus of functions of a single variable, including polynomial, rational, exponential, and trig functions. Applications, including optimization and related rates problems. Single variable integral calculus, using anti-derivatives and simple substitution. Applications may include area, volume, work problems. prereq: 4 yrs high school math including trig or satisfactory score on placement test or grade of at least C- in [1151 or 1155]

Differentiation of single-variable functions, basics of integration of single-variable functions. Applications: max-min, related rates, area, curve-sketching. Use of calculator, cooperative learning. prereq: CSE or pre-bioprod concurrent registration is required (or allowed) in biosys engn (PRE), background in [precalculus, geometry, visualization of functions/graphs], instr consent; familiarity with graphing calculators recommended

Differential/integral calculus of functions of a single variable. Emphasizes hard problem-solving rather than theory. prereq: Honors student and permission of University Honors Program

Fundamental programming concepts using Python language. Problem solving skills, recursion, object-oriented programming. Algorithm development techniques. Use of abstractions/modularity. Data structures/abstract data types. Develop programs to solve real-world problems. prereq: concurrent registration is required (or allowed) in MATH 1271 or concurrent registration is required (or allowed) in MATH 1371 or concurrent registration is required (or allowed) in MATH 1571H or instr consent

Programming concepts using Python language. Real world problem solving, recursion, object-oriented programming. Algorithm development techniques. Abstractions/modularity. Optional honors topics: programming robots, programming paradigms, artificial intelligence. prereq: [concurrent registration is required (or allowed) in MATH 1271 or concurrent registration is required (or allowed) in MATH 1371 or concurrent registration is required (or allowed) in MATH 1571H], CSci majors, pre-majors in CSE/CLA, honors student

This course builds computational skills needed to carry out basic data analysis tasks common in modern biology. Students will learn computing concepts (algorithm development, data structures, complexity analysis) along with practical programming skills in Python and R. No previous programming knowledge assumed. Prereq: introductory biology course.

Techniques of integration. Calculus involving transcendental functions, polar coordinates. Taylor polynomials, vectors/curves in space, cylindrical/spherical coordinates. prereq: [1271 or equiv] with grade of at least C-

Continuation of 1571. Infinite series, differential calculus of several variables, introduction to linear algebra. prereq: 1571H (or equivalent) honors student

Development, analysis and simulation of models for the dynamics of biological systems. Mathematical topics include discrete and continuous dynamical systems, linear algebra, and probability. Models from fields such as ecology, epidemiology, physiology, genetics, neuroscience, and biochemistry. prereq: [1241 or 1271 or 1371] w/grade of at least C-

Standard statistical reasoning. Simple statistical methods. Social/physical sciences. Mathematical reasoning behind facts in daily news. Basic computing environment.

Conceptual basis of statistical analysis. Statistical analysis of biological data. Data visualization, descriptive statistics, significance tests, experimental design, linear model, simple/multiple regression, general linear model. Lectures, computer lab. prereq: High school algebra; BIOL 2003 recommended

Conceptual basis of statistical analysis. Statistical analysis of biological data. Data visualization, descriptive statistics, significance tests, experimental design, linear model, simple/multiple regression, general linear model. Lectures, computer lab. prereq: High school algebra; BIOL 2003 recommended.

Conceptual basis of statistical analysis. Statistical analysis of biological data. Data visualization, descriptive statistics, significance tests, experimental design, linear model, simple/multiple regression, general linear model. Lectures, computer lab. prereq: High school algebra; BIOL 2003 recommended.

The topics of atomic theory, molecular structure, bonding and shape, energy and enthalpy, gases, properties of solutions, and equilibrium will be presented along with their application to biological systems. Intended to provide a strong chemistry background for students pursuing life science related majors or careers in life science related fields. prereq: grade of a C- or better in CHEM 1015 or passing chemistry placement exam.

Basic laboratory skills while investigating physical and chemical phenomena closely linked to lecture material. Experimental design, data collection and treatment, discussion of errors, and proper treatment of hazardous wastes. prereq: concurrent registration is required (or allowed) in 1061

The topics of acids, bases and equilibrium, kinetics, nucleophilic substitution and elimination reactions, free radicals, electrochemistry, and alkene addition reactions will be presented along with their application to biological systems. Intended to provide a strong chemistry background for students pursuing life science related majors or careers in life science related fields. prereq: grade of a C- or better in CHEM 1081 (lecture) and CHEM 1065 (lab); concurrent registration is required (or allowed) in 1086; registration for 1086 must precede registration for 1082. This course is recommended for CBS majors.

Experimental techniques and instrumentation applied to the study of chemical reactions. Techniques include computational chemistry, isolation of natural products, chromatography, acid-base titrations, preparation of buffers, study of reaction kinetics, and examination of polymer degration. Prereq: grade of a C- or better in CHEM 1081 (lecture) and CHEM 1065 (lab). Concurrent registration in CHEM 1082 is required. This course is recommended for CBS majors.

The topics of spectroscopy, conjugation and aromaticity, carbonyl and their reactivity, carboxylic acid derivatives, and electrophilic aromatic substitution reactions will be presented along with their application to biological systems. Intended to provide a strong chemistry background for students pursuing life science related majors or careers in life science related fields. prereq: grade of a C- or better in CHEM 1082 (lecture) and CHEM 1086 (lab). This course is recommended for CBS majors.

Experimental techniques and instrumentation applied to the study of chemical reactions and related biological systems. Techniques include spectroscopy, isolation, kinetics and thermodynamics, green chemistry, oxidations, enzymatic reductions, drug discovery. prereq: grade of a C- or better in CHEM 1082 (lecture) and CHEM 1086 (lab). Concurrent registration in CHEM 2081 is required.

Atomic theory, periodic properties of elements. Thermochemistry, reaction stoichiometry. Behavior of gases, liquids, and solids. Molecular/ionic structure/bonding. Organic chemistry and polymers. energy sources, environmental issues related to energy use. Prereq-Grade of at least C- in [1011 or 1015] or [passing placement exam, concurrent registration is required (or allowed) in 1065]; intended for science or engineering majors; concurrent registration is required (or allowed) in 1065; registration for 1065 must precede registration for 1061

Basic laboratory skills while investigating physical and chemical phenomena closely linked to lecture material. Experimental design, data collection and treatment, discussion of errors, and proper treatment of hazardous wastes. prereq: concurrent registration is required (or allowed) in 1061

Chemical kinetics. Radioactive decay. Chemical equilibrium. Solutions. Acids/bases. Solubility. Second law of thermodynamics. Electrochemistry/corrosion. Descriptive chemistry of elements. Coordination chemistry. Biochemistry. prereq: Grade of at least C- in 1061 or equiv, concurrent registration is required (or allowed) in 1066; registration for 1066 must precede registration for 1062

Basic laboratory skills while investigating physical and chemical phenomena closely linked to lecture material. Experimental design, data collection and treatment, discussion of errors, and proper treatment of hazardous wastes. prereq: concurrent registration is required (or allowed) in 1062

Organic compounds, constitutions, configurations, conformations, reactions. Molecular structure. Chemical reactivity/properties. Spectroscopic characterization of organic molecules. prereq: C- or better in 1062/1066 or 1072H/1076H

Reactions, synthesis, and spectroscopic characterization of organic compounds, organic polymers, and biologically important classes of organic compounds such as lipids, carbohydrates, amino acids, peptides, proteins, and nucleic acids. prereq: Grade of at least C- in 2301

Advanced introduction to atomic theory. Periodic properties of elements. Behavior of gases, liquids, and solids. Molecular/ionic structure, bonding. Aspects of organic chemistry, spectroscopy, and polymers. Mathematically demanding quantitative problems. Writing for scientific journals. prereq: Honors student, permission of University Honors Program, concurrent registration is required (or allowed) in 1075H; registration for 1075H must precede registration for 1071H

Develop laboratory skills while investigating physical and chemical phenomena closely linked to lecture material. Experimental design, data collection and treatment, discussion of errors, and the proper treatment of hazardous wastes. prereq: prereq or coreq 1071H; honors student or permission of University Honors Program

Advanced introduction. Chemical kinetics/reaction mechanisms, chemical/physical equilibria, acids/bases, entropy/second law of thermodynamics, electrochemistry/corrosion; descriptive chemistry of elements; coordination chemistry; biochemistry. prereq: 1071H, concurrent registration is required (or allowed) in 1076H, honors student, registration for 1076H must precede registration for 1072H

Develop laboratory skills as experiments become increasingly complex. Data collection/treatment, discussion of errors, proper treatment of hazardous wastes, experiment design. prereq: concurrent registration is required (or allowed) in 1072H

Important classes of organic compounds, their constitutions, configurations, conformations, reactions. Relationships between molecular structure/chemical properties/reactivities. Spectroscopic methods/characterization of organic molecules. prereq: At least B+ in 1072H, UHP student

Continuation of 2331H. Reactions, synthesis, and spectroscopic characterization of organic compounds, organic polymers, and their role in biologically important classes of organic molecules such as lipids, carbohydrates, amino acids, peptides, proteins, and nucleic acids. prereq: At least C- in 2331H, UHP student

The class exposes the student to physical principles and concepts, demonstrates how these principles can be applied to quantitatively describe natural phenomena, and provides the student with an opportunity to perform hands-on experiments and measurements that model how physical knowledge is obtained. The living world exists in the physical universe, and a complete understanding of biological processes is impossible without a firm foundation in the basic physical principles to which all systems, living and inorganic, must adhere. The basic principles of classical mechanics, fluid mechanics, and oscillations and waves will be examined, with particular emphasis to their application in biological systems, using mathematical analysis at the level of basic calculus. prereq: High School or College Calculus

Use of fundamental principles to solve quantitative problems. Motion, forces, conservation principles, structure of matter. Applications to mechanical systems. Prereq or Concurrent: MATH 1271/1371/1371H or equivalent

Comprehensive, calculus-level general physics. Emphasizes use of fundamental principles to solve quantitative problems. Description of motion, forces, conservation principles. Structure of matter, with applications to mechanical systems. Prereq: Honors program or with permission, Prereq or Concurrent: MATH 1271/1371/1571H or equivalent

This is the second course in the introductory physics sequence for life science majors. The class exposes the student to physical principles and concepts, demonstrates how these principles can be applied to quantitatively describe natural phenomena, and provides the student with an opportunity to perform hands-on experiments and measurements that model how physical knowledge is obtained. The fundamental principles of thermal physics, electricity and magnetism, optics, and nuclear physics are considered. prereq: PHYS 1221 or equivalent

Use of fundamental principles to solve quantitative problems. Motion, forces, conservation principles, fields, structure of matter. Applications to electromagnetic phenomena. Prereq: PHYS 1301 or equivalent, Prereq or Concurrent: MATH 1272/1372/1572H or equivalent

Fundamental principles to solve quantitative problems. Description of motion, forces, conservation principles, fields. Structure of matter, with applications to electro-magnetic phenomena. Honors program or with permission, PHYS 1401V or equivalent, Prereq or CC: MATH 1272/1372/1572H or equivalent

All areas of biology have been transformed by the recent advances in molecular biology technology. Every life scientist, whether they study viruses or crashes of elephants, uses DNA cloning, sequencing, and genomic analysis. This technology has also impacted all aspects of health care by generating highly specific diagnostic tools and personalized treatments. The purpose of this course is to give students a solid foundation in the principles and tools of molecular biology. Biol 3015 will introduce concepts and techniques for understanding gene expression and the flow of genetic information. We will discuss the structure of nucleic acids and proteins, the replication and repair of DNA, transcription and its regulation, and translation. Students will also learn about current technologies used in molecular biology including cloning, PCR, DNA sequencing, mass spectrometry, DNA microarrays, proteomics, bioinformatics, and whole genome analysis. Credit will not be granted if credit has been received for: BIOL 3025

An in-depth analysis of molecular biology topics and methods related to the Central Dogma of modern biology. This course is open to both CBS majors and non-CBS majors. Prerequisites include Biol2003/2003H or [Biol1009/1009H AND Chem1061/1061H].

This course provides an introduction to biochemistry including discussion of the structure and functions of biomolecules (proteins, carbohydrates, lipids, and nucleic acids), central metabolic pathways, and the mechanisms of enzyme action. This course is intended for students in the College of Biological Sciences. Students from other colleges should register for BIOC 3021. prereq: CHEM 2301 or CHEM 2081/2085 or equivalent

Advanced survey of structure/catalysis, metabolism/bioenergetics. prereq: (BIOL 1009 or 2003 or equiv) AND (Chem 2302 or CHEM 2081/2085 or equiv)

Genetic information, its transmission from parents to offspring, its expression in cells/organisms, and its course in populations. prereq: Biol 2003/2003H or BioC 3021 or BioC 4331 or grad

Processes fundamental to cells. Emphasizes eukaryotic cells. Assembly/function of membranes/organelles. Cell division, cell form/movement, intercellular communication, transport, secretion pathways. Cancer cells, differentiated cells. prereq: Completion of Biol 4003 is preferred, Biol2003/2003H or Biol4003 or grad

Evolution/Ecology/Diversity of plants, fungi, and algae. Lectures highlight phylogenetic diversity among and within multiple eukaryotic groups as well as adaptations and strategies for survival in varied environments. Includes both hands-on laboratory activities and writing focus. prereq: One semester college biology

This course explores a range of plant physiological processes, including how plants make and use food; acquire and use minerals; transport water and nutrients; and regulate growth and development in response to hormones and environmental cues, such as light quality. While this course is paired with the PMB 3005W Plant Function Laboratory, the courses do not need to be taken together or in a specific order. prereq: [1002 or 1009 or 2003 or equiv], [CHEM 1011 or one semester chemistry with some organic content]

In this lab course, students will use a variety of biological techniques to study plant structure and anatomy, plant physiology, cell biology, and plant growth. This includes topics related to climate change, plant adaptation, crop domestication, and genetic engineering. Includes hands-on laboratory activities and writing focus. While this course is paired with the PMB3002 lecture course, the courses do not need to be taken together or in a specific order. Prereq: BIOL 1009, BIOL 2003, or equiv.

Principles of ecology from populations to ecosystems. Applications to human populations, disease, exotic organisms, habitat fragmentation, biodiversity and global dynamics of the earth.

Principles of population growth/interactions, communities and ecosystem function applied to ecological issues. Regulation of populations, dynamics/impacts of disease, invasions by exotic organisms, biodiversity, global change. Lab. Scientific writing. Quantitative skill development (mathematical models, data analysis, statistics and some coding in R). prereq: [One semester college biology or instr consent], [MATH 1142 or MATH 1271 or Math 1272 or Math 1241 or Math 1242 or MATH 1281 or Math 1282 or equiv]

Population growth/interactions. Ecosystem function applied to ecological issues. Regulation of human populations, dynamics/impacts of disease, invasions by exotic organisms, habitat fragmentation, biodiversity. Lab, field work. prereq: [One semester college biology], [MATH 1142 or MATH 1271 or MATH 1281 or equiv]

Diversity of forms in fossil record and in presently existing biology. Genetic mechanisms of evolution, including natural selection, sexual selection, genetic drift. Examples of ongoing evolution in wild/domesticated populations and in disease-causing organisms. Lab. prereq: One semester college biology

Diversity of forms in fossil record and in presently existing biology. Genetic mechanisms of evolution, including natural selection, sexual selection, genetic drift. Examples of ongoing evolution in wild/domesticated populations and in disease-causing organisms. Lab. prereq: One semester college biology

This course provides a broad introduction to animal behavior. As one of the most interdisciplinary fields in all of biology, understanding animal behavior requires an understanding of cell biology, physiology, genetics, development, ecology, endocrinology, evolution, learning theory, and even physics and economics! This course will draw on questions and methods from each of these disciplines to answer what on the surface appears to be a very simple question: ?Why is that animal doing that?? The course will review such key topics as feeding behavior, reproductive behavior, perception, learning, animal conflict, social behavior, parental care, and communication. The lecture parallels a required laboratory. prereq: Undergrad biology course Credit granted for only one of the following: EEB 3411, EEB 3412W, EEB 3811W, EEB 5412

EEB 3412W is a lecture/lab writing-intensive course. Why do animals behave the way they do? This question is relevant to conservation, agriculture, human health, veterinary medicine, developing artificial intelligence, and understanding the origins of human behavior. This writing intensive course provides a broad introduction to animal behavior. As one of the most interdisciplinary fields in all of biology, understanding animal behavior requires an understanding of cell biology, physiology, genetics, development, ecology, endocrinology, evolution, learning theory, and even physics and economics! This course will draw on questions and methods from each of these disciplines to answer what on the surface appears to be a very simple question: Why is that animal doing that? The course will review such key topics as feeding behavior, reproductive behavior, perception, learning, animal conflict, social behavior, parental care, and communication. Throughout the course, students will be immersed in the scientific process, reading scientific literature, thinking critically, formulating their own research questions and answering them in an independent project.This is a writing intensive course that covers scientific process and how to formulate research questions. prereq: Undergrad biology course Credit granted for only one of the following: EEB 3411, EEB 3412W, EEB 3811W, EEB 5412

In this course we will learn general principles governing the evolution of animal behavior. Being conducted at a field station, the approach is hands-on experiential learning through the application of the scientific method to the study of animal behavior. Thus, we will learn animal behavior by becoming animal behaviorists. Animal behaviorists communicate to one another through written reports in peer-reviewed literature and through oral talks at meetings. We will do both of these. All of these experiences culminate in the design, execution and presentation (written and oral) of an independent research project. Therefore, it is appropriate that this course is designated as writing-intensive. Writing comprises 90 points out of the course total of 140 points, representing 64% of the course grade. This is course meets two days per week from 8AM to 12N and from 1PM to 5PM over a 5-week period in May/June at the Itasca Biological Station and Labs. prereq: Undergrad biology course Credit granted for only one of the following: EEB 3411, EEB 3412W, EEB 3811W, EEB 5412

Taxonomy, anatomy, physiology, biochemistry, pathogenesis, immunology, ecology of microbes. Molecular structure in relation to bacterial function/disease. Includes lab. prereq: [Biol 1961 and Biol 2003] or Biol 1009 or instructor permission

How major organ systems function (nerve, muscle, circulation, respiration, endocrine, renal, gastrointestinal, temperature regulation and energy metabolism). Three one-hour lectures, two-hour lab. prereq: [BIOL 1009 or 1 yr college biol], 1 yr college chem

Study of the various solutions to common physiological problems faced by humans, other vertebrates, and invertebrates. Core concepts in physiology including flow down gradients, homeostatsis, cell-cell communication, interdependence of body systems, cell membrane dynamics, and mathematical modeling of physiological processes. Active learning format. prereq: [1009 or 2003], [CHEM 1062/1066 or 1082/1086], [2005 is recommended]

Dissection, direct observation of representatives of major animal groups.

Structural/functional organization of bacteria/archaea. Energy metabolism utilizing light, inorganic/organic chemicals. Cell morphologies, roles/assembly of surface structures. Growth/survival mechanisms in various extreme environments. Adaptation to changing conditions by development of specialized cells/structures, altering metabolic patterns. prereq: MicB 3301 required; BioC 3021 or BioC 4331 recommended

Plant physiology and development is the study of how plant cells, tissues, and whole organisms grow and function in response to internal and external cues. PMB 4412/5412 covers the classic plant physiology and development processes including plant water relations, mineral nutrition, membrane transport, photosynthesis, respiration, vascular function, metabolism, growth and development, and hormone responses. The physics underlying our understanding of these physiological systems will also be addressed. Other areas of plant science such as plant genetics and biochemistry are covered in other courses and will not be emphasized this course. There are no enforced prerequisites for this course. The following preparation is recommended: PMB 2022 General Botany or PMB 3007W Plant Algal and Fungal Diversity; General Chemistry and Introductory Physics.

Plant physiology and development is the study of how plant cells, tissues and whole organisms grow and function in response to internal and external cues. PMB 4412/5412 covers the classic plant physiology and development processes including plant water relations, mineral nutrition, membrane transport, photosynthesis, respiration, vascular function, metabolism, growth and development, and hormone responses. The physics underlying our understanding of these physiological systems will also be addressed. Other areas of plant science such as plant genetics and biochemistry are covered in other courses and will not be emphasized this course. There are no enforced prerequisites for this course. The following preparation is recommended: PMB 2022 General Botany or PMB 3007W Plant Algal and Fungal Diversity; General Chemistry and Introductory Physics.

Theory, principles, and use of fundamental techniques in modern biochemistry labs. prereq: 3021, 3022, or 4331 or equiv

This molecular biology laboratory course is designed to give students hands-on experience performing common techniques used in modern molecular biology, as well as the background information needed to understand what kind of information can be obtained by using them. Because of the dual nature of this course, a portion of the laboratory time will be spent on lectures explaining the theory behind the techniques being used as well as practical aspects of experimental design. In addition, readings will be assigned that explain the history and principles behind some of the techniques used. Basic recombinant DNA techniques: methods for growing, isolating, and purifying recombinant DNA and cloning vectors, DNA sequencing and sequence analysis, gene expression, Polymerase Chain Reaction (PCR), other current techniques. prereq: Biol 3015 or Biol 3020 or Biol 3025 or Bioc 3021 or Bioc 3022 or Bioc 4331 or Biol 4003 or instructor consent

Muscle molecular structure/function and disease. Muscle regulation, ion transport, and force generation. Muscular dystrophy and heart disease. prereq: 3021 or BIOL 3021 or 4331 or BIOL 4331 or PHSL 3061 or instr consent

Age-related changes in individuals/populations. Evolution of senescence. Genes that influence aging. Interventions. Prospects for an aging human society. prereq: 1002 or 1009 or 2003 or equiv

Application of molecular tools (PCR, sequencing, AFLP, SNPs, QTL) and analyses of molecular data for understanding ecological/evolutionary processes. Strengths/weaknesses of techniques/analyses. Questions molecular tools are used to answer. prereq: BIOL 3407 or BIOL 3409 or BIOL 4003

This course builds computational skills needed to carry out basic data analysis tasks common in modern biology. Students will learn computing concepts (algorithm development, data structures, complexity analysis) along with practical programming skills in Python and R. No previous programming knowledge assumed. Prereq: introductory biology course.

Diversity of forms in fossil record and in presently existing biology. Genetic mechanisms of evolution, including natural selection, sexual selection, genetic drift. Examples of ongoing evolution in wild/domesticated populations and in disease-causing organisms. Lab. prereq: One semester college biology

Plant function, its plasticity/diversity in an ecological context. Impact of environmental stresses on major physiological processes of plants, including photosynthesis, respiration, water uptake/transport, and nutrient uptake/assimilation. Lab, field trip to Cedar Creek.

Regulation of energy and elements cycling through ecosystems. Dependence of cycles on kinds/numbers of species within ecosystems. Effects of human-induced global changes on functioning of ecosystems.

Form and function of forests as ecological systems. Characteristics and dynamics of species, populations, communities, landscapes, and ecosystem processes. Examples applying ecology to forest management. Weekly discussions focus on research topics in forest ecology, exercises applying course concepts, and current issues in forest resource management. Required weekend field trip. Prereq: Biol 1001, 1009 or equivalent introductory biology course; 1 semester college chemistry recommended.

This course is designed for juniors and seniors to learn experimental approaches and techniques to study cellular processes and stem cell biology during animal development and tissue regeneration. Students will be exposed to the advantages of different model systems that include cultured cells, chick, C. elegans and zebrafish. Students will learn to manipulate the cytoskeleton, perform cell differentiation, RNAi and regeneration assays, and to image both fixed tissue and live animal samples with conventional light microscopes as well as cutting edge technology, including super-resolution and multi-photon microscopes. prereq: BIOL 2003/2003H or instructor permission, Recommended prerequisite: BIOL 4004 or GCD 4005W (priority enrollment to GCD majors)

Molecular genetics and genomics of eukaryotes. Course emphasizes mechanisms of gene regulation and how these are studied. Current strategies used to study the activity and function of genes and genomes, including the role of chromatin, will be covered. Techniques will include gene knockouts/knockdown, genome engineering, genome-wide analysis of RNA and protein expression and function, as well as genome-wide protein binding and chromatin interaction mapping. Technologies covered will include next-generations and third-generation sequencing and CRISPR-based strategies for gene modification and precision gene regulation. Students will analyze and present recent primary papers in molecular genetic and genomics. Prerequisite: BIOL 4003

Structure/function of vertebrate tissues/organs. Electron microscopy, light microscopy, physiology, cell biology of higher animals. Light microscopy of mammalian tissues. prereq: GCD 3033 or BIOL 4004 or instructor consent

Developmental biology is the study of the process by which organisms grow and develop from embryo to adult. This field encompasses the biology of morphogenesis, differentiation, regeneration, metamorphosis, and the growth and differentiation of stem cells. Topics focus primarily on animal development to include fertilization, cell specification, body patterning, stem cells, neurogenesis, organogenesis, limb formation, regeneration, sex determination, and developmental timing, as well as environmental impacts on development. Students will learn about genetic models such as fruit flies, nematodes, fish, mice, and plants. Coverage will be extended to human development and disease as appropriate. prereq: BIOL 4003; also recommended prerequisite: BIOL 4004 or GCD 4005W

Analysis of dynamic cellular activities at the molecular level in cell biological fields that are experiencing new research advances not yet reflected in textbooks. Significant emphasis is placed on understanding the experimental basis of our current knowledge of cellular processes through analysis of scientific papers. Project and presentation-based assessments of learning outcomes. prereq: BIOL 4004 or GCD 4005W or grad

Development, analysis and simulation of models for the dynamics of biological systems. Mathematical topics include discrete and continuous dynamical systems, linear algebra, and probability. Models from fields such as ecology, epidemiology, physiology, genetics, neuroscience, and biochemistry. prereq: [1241 or 1271 or 1371] w/grade of at least C-

Molecular, genetic and cellular basis for innate and adaptive immune responses. The immune systems role in; transplantation, autoimmune disease, cancer immunotherapy, vaccinololgy, acquired and genetic immunodeficiencies. Prereq: Biol 2003 or Biol 1009 and [Junior or senior]

Cell biology of higher eukaryotes, animal/plant pathogenesis, evolution, industrial microbiology. Tetrahymena/Chlamydomons/Paramecium/Toxoplasma/Aspergillus/ Neurospora. prereq: Biol 4003

Isolation/cultivation of wide variety of bacteria. Physiological experiments illustrate characteristic features of microorganisms. prereq: MICB 3301 AND Microbiology major or minor; priority for seats from waitlist to graduating Microbiology majors

Yeast is used as a model organism for microbial molecular genetic principles and methods such as ultraviolet mutagenesis, isolation and creation of mutant strains, plasmid design and construction, PCR, Sanger sequencing, gene replacement, and bioinformatics. Students will design and execute their own independent research project using hands-on experimentation with advanced molecular methods prereq: MicB 3301 and [Biol 4003 or permission]; priority for seats from waitlist to graduating Microbiology majors

This course discusses the basic principles of cellular and molecular neurobiology and nervous systems. The main topics include: Organization of simple networks, neural systems and behavior; how the brain develops and the physiology and communication of neurons and glia; the molecular and genetic basis of cell organization; ion channel structure and function; the molecular basis of synaptic receptors; transduction mechanisms and second messengers; intracellular regulation of calcium; neurotransmitter systems, including excitation and inhibition, neuromodulation, system regulation, and the cellular basis of learning, memory, and cognition. The course is intended for students majoring in neuroscience, but is open to all students with the required prerequisites. This course is offered in person in the fall and spring semesters and online ONLY in the summer semester. The online summer section covers the same material at the same depth and breadth as the in person fall and spring sections of the course. However, the summer session is 13 weeks (fall and spring are 14 weeks), so the summer course will progress at a slightly faster pace. This is a 3 credit course, so it is expected that students will spend about 150 hours working on course material. This means that the average student can expect to spend ~12 hrs/week on the course. How much time individual students need to spend working on course material will depend on their learning styles.

This is the second of the introductory neurobiology courses. It introduces fundamental concepts in systems and behavioral neuroscience with emphasis on the neural circuits underlying perception and sensorimotor integration. Lectures will examine the neural basis of specific behaviors arising from the oculomotor, visual and auditory systems and notes are available on Canvas. Topics include: retinal processing, functional organization in the cerebral cortex, neural circuit development, language, reward, and addiction. Students must learn to read scientific papers, and to understand the main ideas well enough to synthesize them and communicate them both orally and in writing. The course is writing intensive: exams are in essay and short answer format, and a 10-15 page term paper is required. The course is required for students majoring in neuroscience. The course consists of two hours of lecture and one hour of discussion per week.

Principles, methods, and laboratory exercises for investigating neural mechanisms and examining experimental evidence.

Fungi are a critical component of the diversity and function of terrestrial ecosystems, affecting decomposition, plant nutrient uptake, and agricultural practices. Key components of fungal biology, including ecology, genetics, life cycles and diversity. Labs provide hands on experience with a diverse range of organisms. prereq: BIOL 1009 or equiv

This course explores a range of plant physiological processes, including how plants make and use food; acquire and use minerals; transport water and nutrients; and regulate growth and development in response to hormones and environmental cues, such as light quality. While this course is paired with the PMB 3005W Plant Function Laboratory, the courses do not need to be taken together or in a specific order. prereq: [1002 or 1009 or 2003 or equiv], [CHEM 1011 or one semester chemistry with some organic content]

In this lab course, students will use a variety of biological techniques to study plant structure and anatomy, plant physiology, cell biology, and plant growth. This includes topics related to climate change, plant adaptation, crop domestication, and genetic engineering. Includes hands-on laboratory activities and writing focus. While this course is paired with the PMB3002 lecture course, the courses do not need to be taken together or in a specific order. Prereq: BIOL 1009, BIOL 2003, or equiv.

Structural/functional organization of bacteria/archaea. Energy metabolism utilizing light, inorganic/organic chemicals. Cell morphologies, roles/assembly of surface structures. Growth/survival mechanisms in various extreme environments. Adaptation to changing conditions by development of specialized cells/structures, altering metabolic patterns. prereq: MicB 3301 required; BioC 3021 or BioC 4331 recommended

In this course, we will cover current important research topics in plant cell biology. We will cover many plant-specific topics such as gravitropism, plant cell wall biosynthesis, structure and function, plasmodesmatal connections, signal transduction, tip growth, plant cytokinesis, cell energetics. We will also cover some topics that are important for both plant, fungal, and animal cell biology such as cell polarity, the cytoskeleton, protein sorting, and the secretory system. Since we will be using recent literature as the course text, some important and classic cell biology topics will not be covered. In the field of cell biology, new discoveries are often the result of improvements in technology especially in imaging, so we will cover some recent advances in methodology. This is also a writing class with the goal of helping students become familiar and comfortable with writing in a scientific style. There will be writing instruction and there will be some reading assignments on scientific writing. There are no enforced prerequisites. Introductory courses on plants, genetics, and biochemistry are helpful.

Biochemical analysis of processes unique to photosynthetic organisms. Photosynthesis and carbon dioxide fixation. Synthesis of carbohydrates, lipids, and derivatives. Aromatic compounds such as lignin, other natural products. Functions of natural products. prereq: [BIOL 1002 or BIOL 1009 or BIOL 2003], CHEM 2301

Conceptual basis of statistical analysis. Statistical analysis of biological data. Data visualization, descriptive statistics, significance tests, experimental design, linear model, simple/multiple regression, general linear model. Lectures, computer lab. prereq: High school algebra; BIOL 2003 recommended

Conceptual basis of statistical analysis. Statistical analysis of biological data. Data visualization, descriptive statistics, significance tests, experimental design, linear model, simple/multiple regression, general linear model. Lectures, computer lab. prereq: High school algebra; BIOL 2003 recommended.

Plant physiology and development is the study of how plant cells, tissues, and whole organisms grow and function in response to internal and external cues. PMB 4412/5412 covers the classic plant physiology and development processes including plant water relations, mineral nutrition, membrane transport, photosynthesis, respiration, vascular function, metabolism, growth and development, and hormone responses. The physics underlying our understanding of these physiological systems will also be addressed. Other areas of plant science such as plant genetics and biochemistry are covered in other courses and will not be emphasized this course. There are no enforced prerequisites for this course. The following preparation is recommended: PMB 2022 General Botany or PMB 3007W Plant Algal and Fungal Diversity; General Chemistry and Introductory Physics.

Plant physiology and development is the study of how plant cells, tissues and whole organisms grow and function in response to internal and external cues. PMB 4412/5412 covers the classic plant physiology and development processes including plant water relations, mineral nutrition, membrane transport, photosynthesis, respiration, vascular function, metabolism, growth and development, and hormone responses. The physics underlying our understanding of these physiological systems will also be addressed. Other areas of plant science such as plant genetics and biochemistry are covered in other courses and will not be emphasized this course. There are no enforced prerequisites for this course. The following preparation is recommended: PMB 2022 General Botany or PMB 3007W Plant Algal and Fungal Diversity; General Chemistry and Introductory Physics.

Principles of ecology from populations to ecosystems. Applications to human populations, disease, exotic organisms, habitat fragmentation, biodiversity and global dynamics of the earth.

Principles of population growth/interactions, communities and ecosystem function applied to ecological issues. Regulation of populations, dynamics/impacts of disease, invasions by exotic organisms, biodiversity, global change. Lab. Scientific writing. Quantitative skill development (mathematical models, data analysis, statistics and some coding in R). prereq: [One semester college biology or instr consent], [MATH 1142 or MATH 1271 or Math 1272 or Math 1241 or Math 1242 or MATH 1281 or Math 1282 or equiv]

Population growth/interactions. Ecosystem function applied to ecological issues. Regulation of human populations, dynamics/impacts of disease, invasions by exotic organisms, habitat fragmentation, biodiversity. Lab, field work. prereq: [One semester college biology], [MATH 1142 or MATH 1271 or MATH 1281 or equiv]

This course provides a broad introduction to animal behavior. As one of the most interdisciplinary fields in all of biology, understanding animal behavior requires an understanding of cell biology, physiology, genetics, development, ecology, endocrinology, evolution, learning theory, and even physics and economics! This course will draw on questions and methods from each of these disciplines to answer what on the surface appears to be a very simple question: ?Why is that animal doing that?? The course will review such key topics as feeding behavior, reproductive behavior, perception, learning, animal conflict, social behavior, parental care, and communication. The lecture parallels a required laboratory. prereq: Undergrad biology course Credit granted for only one of the following: EEB 3411, EEB 3412W, EEB 3811W, EEB 5412

EEB 3412W is a lecture/lab writing-intensive course. Why do animals behave the way they do? This question is relevant to conservation, agriculture, human health, veterinary medicine, developing artificial intelligence, and understanding the origins of human behavior. This writing intensive course provides a broad introduction to animal behavior. As one of the most interdisciplinary fields in all of biology, understanding animal behavior requires an understanding of cell biology, physiology, genetics, development, ecology, endocrinology, evolution, learning theory, and even physics and economics! This course will draw on questions and methods from each of these disciplines to answer what on the surface appears to be a very simple question: Why is that animal doing that? The course will review such key topics as feeding behavior, reproductive behavior, perception, learning, animal conflict, social behavior, parental care, and communication. Throughout the course, students will be immersed in the scientific process, reading scientific literature, thinking critically, formulating their own research questions and answering them in an independent project.This is a writing intensive course that covers scientific process and how to formulate research questions. prereq: Undergrad biology course Credit granted for only one of the following: EEB 3411, EEB 3412W, EEB 3811W, EEB 5412

In this course we will learn general principles governing the evolution of animal behavior. Being conducted at a field station, the approach is hands-on experiential learning through the application of the scientific method to the study of animal behavior. Thus, we will learn animal behavior by becoming animal behaviorists. Animal behaviorists communicate to one another through written reports in peer-reviewed literature and through oral talks at meetings. We will do both of these. All of these experiences culminate in the design, execution and presentation (written and oral) of an independent research project. Therefore, it is appropriate that this course is designated as writing-intensive. Writing comprises 90 points out of the course total of 140 points, representing 64% of the course grade. This is course meets two days per week from 8AM to 12N and from 1PM to 5PM over a 5-week period in May/June at the Itasca Biological Station and Labs. prereq: Undergrad biology course Credit granted for only one of the following: EEB 3411, EEB 3412W, EEB 3811W, EEB 5412

No matter how you classify life on Earth, the fungi are in a Kingdom of their own. Latest estimates of the number of fungal species on our planet are between 2.2 and 3.8 million species. The diversity of single-celled and multi-cellular fungi is staggering, the result of divergence within a group of aquatic eukaryotes one billion years ago (± 500 million years). That divergence ultimately gave rise to animals and fungi, but the diversification within the fungal lineages is unrivaled. They can be found in aerobic and anaerobic environments. They are found on every Continent, recycling and reallocating vast amounts of nutrients in every Biome. They cause problems in crops but are also used to make food, with ancient processes such as fermentation and mushroom cultivation. For these reasons, mycology (study of fungi) is increasingly popular among students with interests as diverse as their fungal subjects. With the advent of high-throughput DNA sequencing to sample entire communities, we are seeing fungi in all of these places where they were previously invisible. The fungal role in Earth's most critical processes is, right now, coming into light. It is an exciting time to study Kingdom Fungi. This course uses a format of lecture, discussion, and field trips to provide undergraduate and graduate students with a solid foundation in the fungi, primarily through an environmental lens. Undergraduate and graduate students will learn the basics of fungi in three core sections: 1) Phylogeny, taxonomy, and diagnostics (Who are the fungi?); 2) Morphology and physiology (How do fungi work?); 3) Ecology and Biotechnology (What are fungal implications and applications?). Within each core section, there will be one class period devoted to a discussion of the environment, the role of fungi, and the human dimensions of conservation and management. This discussion will be used by the class to vote for an environmental theme used to frame writing assignments, one per unit. Using this theme, all students will create a "Fungus in Focus" one-page "brief" focused on this environmental issue. This is a creative way to connect "dots" for students linking microbial processes to environment, in our case harnessing connections to fungi that often have visible characters (e.g. mushrooms) that make those connections easier for students. We will also go on two field trips, one to a mushroom cultivation facility, and one into the field in April, all depending on class size and weather. prereq: Introductory Biology course

No matter how you classify life on Earth, the fungi are in a Kingdom of their own. Latest estimates of the number of fungal species on our planet are between 2.2 and 3.8 million species. The diversity of single-celled and multi-cellular fungi is staggering, the result of divergence within a group of aquatic eukaryotes one billion years ago (± 500 million years). That divergence ultimately gave rise to animals and fungi, but the diversification within the fungal lineages is unrivaled. They can be found in aerobic and anaerobic environments. They are found on every Continent, recycling and reallocating vast amounts of nutrients in every Biome. They cause problems in crops but are also used to make food, with ancient processes such as fermentation and mushroom cultivation. For these reasons, mycology (study of fungi) is increasingly popular among students with interests as diverse as their fungal subjects. With the advent of high-throughput DNA sequencing to sample entire communities, we are seeing fungi in all of these places where they were previously invisible. The fungal role in Earth's most critical processes is, right now, coming into light. It is an exciting time to study Kingdom Fungi. This course uses a format of lecture, discussion, and field trips to provide undergraduate and graduate students with a solid foundation in the fungi, primarily through an environmental lens. Undergraduate and graduate students will learn the basics of fungi in three core sections: 1) Phylogeny, taxonomy, and diagnostics (Who are the fungi?); 2) Morphology and physiology (How do fungi work?); 3) Ecology and Biotechnology (What are fungal implications and applications?). Within each core section, there will be one class period devoted to a discussion of the environment, the role of fungi, and the human dimensions of conservation and management. This discussion will be used by the class to vote for an environmental theme used to frame writing assignments, one per unit. Using this theme, all students will create a Fungus in Focus one-page brief focused on this environmental issue. This is a creative way to connect dots for students linking microbial processes to the environment, in our case harnessing connections to fungi that often have visible characters (e.g. mushrooms) that make those connections easier for students. We will also go on two field trips, one to a mushroom cultivation facility, and one into the field in April, all depending on class size and weather.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course, the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements.

Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. The topic for the course needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Directed Research is an individual-study, laboratory or field investigation course. The research topic needs to be agreed on by both the student and the faculty mentor and explained in a Research/Directed Studies contract. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course, the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements.

Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. The topic for the course needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Directed Research is an individual-study, laboratory or field investigation course. The research topic needs to be agreed on by both the student and the faculty mentor and explained in a Research/Directed Studies contract. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is intended for students who already have initiated a research project in the lab of the mentor and already have results. In this course the student will receive writing instruction. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment and revision needs to be in place at the beginning of the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor.

Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. The topic for the course needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Directed Research is an individual-study, laboratory or field investigation course. The research topic needs to be agreed on by both the student and the faculty mentor and explained in a Research/Directed Studies contract. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory, or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research, it is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor.

Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. The topic for the course needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Directed Research is an individual-study, laboratory or field investigation course. The research topic needs to be agreed on by both the student and the faculty mentor and explained in a Research/Directed Studies contract. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course, the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. The topic for the course needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Directed Research is an individual-study, laboratory or field investigation course. The research topic needs to be agreed on by both the student and the faculty mentor and explained in a Research/Directed Studies contract. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. The topic for the course needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Directed Research is an individual-study, laboratory or field investigation course. The research topic needs to be agreed on by both the student and the faculty mentor and explained in a Research/Directed Studies contract. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Individual study of selected topics. Emphasis on readings, use of scientific literature. Writing intensive. prereq: instr consent, dept consent; no more than 7 cr of [4793, 4794, 4993, 4994] may count toward major requirements

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements.

Individual study of selected topics with emphasis on selected readings and use of scientific literature. prereq: instr consent, dept consent; max of 7 cr of 4993 and/or 4994 may count toward major requirements

Lab or field investigation of selected areas of research. prereq: instr consent, dept consent; max of 7 cr of 4993 and/or 4994 may count toward major requirements

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a research/directed studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements.

Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. The topic for the course needs to be explained in a research/directed studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Directed Research is an individual-study, laboratory, or field investigation course. The research topic needs to be agreed on by both the student and the faculty mentor and explained in a research/directed studies contract. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, methodology to be used, and how the assessment of learning will be conducted. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

This class focuses on learning about how to study fungi. Students will gain experience identifying mushrooms and other samples collected during course field trips using macromorphological, microscopic, and molecular techniques. In addition, students will isolate fungi from environmental samples and maintain cultures as well as assess fungal community abundance and composition using both traditional (e.g., root tip colonization) and DNA-based methods (e.g., next-generation sequencing, bioinformatics, and ecological statistics). Course lectures highlight different aspects of fungal diversity (taxonomic, physiological, and ecological) and lab exercises provide hands-on practice. Course writing assignments and presentations emphasize exploring the natural history of fungi as well as critically assessing primary research literature. Permission is required for undergraduates to enroll in the graduate level of this course (PMB 5812); inquire with the instructor.

This class focuses on learning about how to study fungi. Students will gain experience identifying mushrooms and other samples collected during course field trips using macromorphological, microscopic, and molecular techniques. In addition, students will isolate fungi from environmental samples and maintain cultures as well as assess fungal community abundance and composition using both traditional (e.g., root tip colonization) and DNA-based methods (e.g., next-generation sequencing, bioinformatics, and ecological statistics). Course lectures highlight different aspects of fungal diversity (taxonomic, physiological, and ecological) and lab exercises provide hands-on practice. Course writing assignments and presentations emphasize exploring the natural history of fungi as well as critically assessing primary research literature. Permission is required for undergraduates to enroll in the graduate-level of this course (PMB 5812); inquire with the instructor.

The microbial world is incredibly diverse: there are estimated to be more microbial cells on Earth than stars in the entire universe. Much of our understanding in microbiology derives from studies of pure cultures; organisms that can easily be grown in the lab. However, it is now clear that the vast majority of microorganisms in nearly every environment are not readily grown under laboratory conditions. We must therefore go to them. Field Microbiology will be a three-week intensive course where students will be taught methods of environmental microbiology in both lecture and laboratory format. The goal is to not only quantify who is in a given sample, but also to understand something about the conditions they live in (temperature, nutrient availability, etc.). Ecological data and microbial community structure will be generated using Oxford Nanopore sequencing technology ? a cutting edge method to generate large sequencing datasets in real-time. Analyses will be integrated with an in situ set of field instrumentation that includes an eddy covariance system for quantifying fluxes of methane and carbon dioxide from Lake Itasca and Elk Lake, as well as in-lake measurements of solar radiation, dissolved organic matter, pH, conductivity, temperature, dissolved oxygen and chlorophyll. A series of field trips will be scheduled to locations in and around Itasca State Park including Elk Lake, Arco Lake, Iron Springs Bog and Lake Alice Spring. Students will also develop an independent research project that will apply methods learned during the first 1.5 weeks of the course.

The microbial world is incredibly diverse: there are estimated to be more microbial cells on Earth than stars in the entire universe. Much of our understanding in microbiology derives from studies of pure cultures; organisms that can easily be grown in the lab. However, it is now clear that the vast majority of microorganisms in nearly every environment are not readily grown under laboratory conditions. We must, therefore, go to them. Field Microbiology will be a three-week intensive course where students will be taught methods of environmental microbiology in both lecture and laboratory format. The goal is to not only quantify who is in a given sample but also to understand something about the conditions they live in (temperature, nutrient availability, etc.). Ecological data and microbial community structure will be generated using Oxford Nanopore sequencing technology - a cutting edge method to generate large sequencing datasets in real-time. Analyses will be integrated with an in situ set of field instrumentation that includes an eddy covariance system for quantifying fluxes of methane and carbon dioxide from Lake Itasca and Elk Lake, as well as in-lake measurements of solar radiation, dissolved organic matter, pH, conductivity, temperature, dissolved oxygen and chlorophyll. A series of field trips will be scheduled to locations in and around Itasca State Park including Elk Lake, Arco Lake, Iron Springs Bog and Lake Alice Spring. Students will also develop an independent research project that will apply methods learned during the first 1.5 weeks of the course.

Matches student's academic or career goals with opportunities in industry, non-profit organizations, and government agencies. Prereq-Acceptance into CBS Internship Program, internship workshop, college consent.

Laboratory techniques in synthesis, purification and characterization of organic compounds with an emphasis on green chemistry methodologies. prereq: Grade of at least C- in [2302] or [concurrent registration is required (or allowed) in 2302

Fundamental programming concepts using Python language. Problem solving skills, recursion, object-oriented programming. Algorithm development techniques. Use of abstractions/modularity. Data structures/abstract data types. Develop programs to solve real-world problems. prereq: concurrent registration is required (or allowed) in MATH 1271 or concurrent registration is required (or allowed) in MATH 1371 or concurrent registration is required (or allowed) in MATH 1571H or instr consent

Techniques of integration. Calculus involving transcendental functions, polar coordinates. Taylor polynomials, vectors/curves in space, cylindrical/spherical coordinates. prereq: [1271 or equiv] with grade of at least C-

Standard statistical reasoning. Simple statistical methods. Social/physical sciences. Mathematical reasoning behind facts in daily news. Basic computing environment.

This is an introductory course in statistics whose primary objectives are to teach students the theory of elementary probability theory and an introduction to the elements of statistical inference, including testing, estimation, and confidence statements. prereq: Math 1272

Techniques for studying small mammals. Lectures/field projects emphasize identification, distributions, community interactions, ecophysiology, population ecology. prereq: College-level biology course that includes study of animals or instr consent

Theory, principles, and use of fundamental techniques in modern biochemistry labs. prereq: 3021, 3022, or 4331 or equiv

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course, the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements.

Deconstructing Biology Research is designed to help majors in the College of Biological Sciences improve their skills in selecting primary research papers, understanding the experimental approaches taken by the authors of those papers, and evaluating the results and conclusions. Students will then share that knowledge by writing effective deconstructions that explain the research approaches and results for different audiences, including the public at large.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course, the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is intended for students who already have initiated a research project in the lab of the mentor and already have results. In this course the student will receive writing instruction. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment and revision needs to be in place at the beginning of the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor.

Principles of population growth/interactions, communities and ecosystem function applied to ecological issues. Regulation of populations, dynamics/impacts of disease, invasions by exotic organisms, biodiversity, global change. Lab. Scientific writing. Quantitative skill development (mathematical models, data analysis, statistics and some coding in R). prereq: [One semester college biology or instr consent], [MATH 1142 or MATH 1271 or Math 1272 or Math 1241 or Math 1242 or MATH 1281 or Math 1282 or equiv]

EEB 3412W is a lecture/lab writing-intensive course. Why do animals behave the way they do? This question is relevant to conservation, agriculture, human health, veterinary medicine, developing artificial intelligence, and understanding the origins of human behavior. This writing intensive course provides a broad introduction to animal behavior. As one of the most interdisciplinary fields in all of biology, understanding animal behavior requires an understanding of cell biology, physiology, genetics, development, ecology, endocrinology, evolution, learning theory, and even physics and economics! This course will draw on questions and methods from each of these disciplines to answer what on the surface appears to be a very simple question: Why is that animal doing that? The course will review such key topics as feeding behavior, reproductive behavior, perception, learning, animal conflict, social behavior, parental care, and communication. Throughout the course, students will be immersed in the scientific process, reading scientific literature, thinking critically, formulating their own research questions and answering them in an independent project.This is a writing intensive course that covers scientific process and how to formulate research questions. prereq: Undergrad biology course Credit granted for only one of the following: EEB 3411, EEB 3412W, EEB 3811W, EEB 5412

In this course we will learn general principles governing the evolution of animal behavior. Being conducted at a field station, the approach is hands-on experiential learning through the application of the scientific method to the study of animal behavior. Thus, we will learn animal behavior by becoming animal behaviorists. Animal behaviorists communicate to one another through written reports in peer-reviewed literature and through oral talks at meetings. We will do both of these. All of these experiences culminate in the design, execution and presentation (written and oral) of an independent research project. Therefore, it is appropriate that this course is designated as writing-intensive. Writing comprises 90 points out of the course total of 140 points, representing 64% of the course grade. This is course meets two days per week from 8AM to 12N and from 1PM to 5PM over a 5-week period in May/June at the Itasca Biological Station and Labs. prereq: Undergrad biology course Credit granted for only one of the following: EEB 3411, EEB 3412W, EEB 3811W, EEB 5412

Mechanisms of signal production/perception, signal propagation. How signals can convey information. How signalers, signals, receivers are adapted for communication by natural/sexual selection. prereq: (BIOL 1951 or BIOL 1951H or Biol 1009) and (EEB 3412W or EEB 3411 or EEB 3811W)

Regulation of energy and elements cycling through ecosystems. Dependence of cycles on kinds/numbers of species within ecosystems. Effects of human-induced global changes on functioning of ecosystems.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory, or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research, it is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor.

Processes fundamental to cells. Emphasizes eukaryotic cells. Assembly/function of membranes/organelles. Cell division, cell form/movement, intercellular communication, transport, secretion pathways. Cancer cells, differentiated cells. prereq: GCD major, Biol2003/2003H or Biol4003 or grad

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course, the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Cell biology of higher eukaryotes, animal/plant pathogenesis, evolution, industrial microbiology. Tetrahymena/Chlamydomons/Paramecium/Toxoplasma/Aspergillus/ Neurospora. prereq: Biol 4003

Yeast is used as a model organism for microbial molecular genetic principles and methods such as ultraviolet mutagenesis, isolation and creation of mutant strains, plasmid design and construction, PCR, Sanger sequencing, gene replacement, and bioinformatics. Students will design and execute their own independent research project using hands-on experimentation with advanced molecular methods prereq: MicB 3301 and [Biol 4003 or permission]; priority for seats from waitlist to graduating Microbiology majors

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a Research/Directed Studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements. prereq: department consent, instructor consent, no more than 7 credits of 4793, 4794, 4993W, 4994W counts towards CBS major requirements.

Ethical implications. Readings, personal reflections, class discussions, debates, and formal writing. Development of logical arguments, writing skills, oral presentation skills, and teamwork. Students present/argue both their own personal views and those of others. What it is like to have altered mentation, i.e. a brain disease or disability. Readings/multimedia reports from primary neuroscience literature as well as philosophy, policy, and law literature and popular media.

This is the second of the introductory neurobiology courses. It introduces fundamental concepts in systems and behavioral neuroscience with emphasis on the neural circuits underlying perception and sensorimotor integration. Lectures will examine the neural basis of specific behaviors arising from the oculomotor, visual and auditory systems and notes are available on Canvas. Topics include: retinal processing, functional organization in the cerebral cortex, neural circuit development, language, reward, and addiction. Students must learn to read scientific papers, and to understand the main ideas well enough to synthesize them and communicate them both orally and in writing. The course is writing intensive: exams are in essay and short answer format, and a 10-15 page term paper is required. The course is required for students majoring in neuroscience. The course consists of two hours of lecture and one hour of discussion per week.

Individual study of selected topics. Emphasis on readings, use of scientific literature. Writing intensive. prereq: instr consent, dept consent; no more than 7 cr of [4793, 4794, 4993, 4994] may count toward major requirements

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements.

In this lab course, students will use a variety of biological techniques to study plant structure and anatomy, plant physiology, cell biology, and plant growth. This includes topics related to climate change, plant adaptation, crop domestication, and genetic engineering. Includes hands-on laboratory activities and writing focus. While this course is paired with the PMB3002 lecture course, the courses do not need to be taken together or in a specific order. Prereq: BIOL 1009, BIOL 2003, or equiv.

Evolution/Ecology/Diversity of plants, fungi, and algae. Lectures highlight phylogenetic diversity among and within multiple eukaryotic groups as well as adaptations and strategies for survival in varied environments. Includes both hands-on laboratory activities and writing focus. prereq: One semester college biology

In this course, we will cover current important research topics in plant cell biology. We will cover many plant-specific topics such as gravitropism, plant cell wall biosynthesis, structure and function, plasmodesmatal connections, signal transduction, tip growth, plant cytokinesis, cell energetics. We will also cover some topics that are important for both plant, fungal, and animal cell biology such as cell polarity, the cytoskeleton, protein sorting, and the secretory system. Since we will be using recent literature as the course text, some important and classic cell biology topics will not be covered. In the field of cell biology, new discoveries are often the result of improvements in technology especially in imaging, so we will cover some recent advances in methodology. This is also a writing class with the goal of helping students become familiar and comfortable with writing in a scientific style. There will be writing instruction and there will be some reading assignments on scientific writing. There are no enforced prerequisites. Introductory courses on plants, genetics, and biochemistry are helpful.

Writing Intensive Directed Studies is an individual-study, literature-based investigation in which the student is mentored directly by a faculty member. One main feature of this course is that the student will receive writing instruction and the written output of the course will be revised during the semester. The project needs to be explained in a research/directed studies contract and agreed on by both the student and faculty mentor. The contract must be approved by the director of undergraduate studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, how writing instruction will take place, a timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. This course is graded S/N and approval of the DUGS is required before a grade of S can be given by the faculty mentor. prereq: department consent, instructor consent, no more than 7 credits of 4793W, 4794W, 4993, 4994 counts towards CBS major requirements.

Writing Intensive Directed Research is an individual-study, laboratory or field research experience in which the student is mentored directly by a faculty member. This course is not for students starting out in research. It is intended for students who already have been working in the research group of the mentor and have developed an independent research project. In this course the student will receive writing instruction through a writing support course (corresponding to 1 credit in addition to the credits of directed research time) that will meet weekly throughout the semester. The written output usually is in the form of a scientific paper describing the results of the student's project. Written output of the course must be revised during the semester and a schedule for writing, assessment, and revision needs to be in place at the beginning of the semester. The project needs to be explained in the campus Directed Research contract and the project and participation in the writing support course agreed on by both the student and faculty mentor. The contract must be approved by the Director of Undergraduate Studies (DUGS) for the major before the student is allowed to register. The contract includes a description of learning objectives for the course, agreement about how writing instruction will take place, confirmation of understanding of the timeline for when student writing will be handed in and how it will be assessed, methodology to be used by the student, and how assessment of learning will be conducted by the mentor. Additional oversight is established for this course - near the end of the semester the written output is submitted to the DUGS for the major. The DUGS is responsible to determine that the writing meets standards set by the CBS Education Policy Committee for quality of writing, appropriate citation of literature, well-constructed figures, tables, and legends (if present), appropriate use and interpretation of statistics (if present), conclusions that are supported by evidence, and well-formatted references. The DUGS can call for a final revision before a grade is given. This course is graded S/N by the writing support course instructor, and approval of both the DUGS and the research mentor is required before a grade of S can be given by the writing support course instructor. This course is for non-Honors students. Students should register for the number of research credits they intend to pursue plus 1 cr for the writing support component (for example: 2-4 cr of research + 1 cr writing support = 3-5 cr). prereq: department consent, instructor consent, no more than a total of 7 credits of 4793W, 4794W, 4993, 4994 combined can count towards CBS major requirements.