2024-2025 University of Wyoming Catalog
School of Graduate Education Interdisciplinary Programs
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Biomedical Sciences, Ph.D. Interdisciplinary Program
School of Graduate Education
Knight Hall 247
Phone: (307) 766-4128
Website http://www.uwyo.edu/biomedphd/
Email: bms@uwyo.edu
Program Director: Sreejayan Nair, Ph.D.
Degree Offered
Ph.D. in Biomedical Sciences
Biomedical sciences is the study of human biological processes; the complex interactions between physiological, genetic and environmental factors that influence disease and health. It spans the spectrum from fundamental discovery to innovation and application.
Areas of focus may include but not limited to cardiac health, nutrition, reproductive biology, toxicology, diagnostic & imaging and medical engineering.
The PhD program in biomedical sciences is designed to position graduates for long-term competitive success in the rapidly changing and multifaceted health-related arena in the 21st century. It is a comprehensive, interdisciplinary program, making connections between various disciplines to gain new insights, discover and apply new knowledge, and promote self-directed, life-long learning.
Biomedical Sciences is a research & discovery focused program balancing depth and breadth of content knowledge with “enabling” skills including problem solving, innovation, entrepreneurship, communication and leadership.
Program Specific Admission Requirements:
1. Minimum requirements. Applicants who do not meet the minimum requirements may be conditionally accepted at the discretion of the BMS Admission Committee. Please submit the application packet comprising the following documents for pre-admission screening:
a. Faculty sponsor. Contact potential biomedical sciences graduate program faculty sponsor in your area of interest prior to submitting an application. NOTE: a letter indicating the sponsorship by a faculty is strongly recommended as the program does not have a sufficient number of graduate assistantships to support all students.
b. Official academic transcripts. Successful completion of a bachelor’s degree from an accredited institution with one or more semesters of biology, physics, anatomy, physiology, chemistry, biochemistry/molecular biology, math are recommended. All applicants should have at least a 3.0 cumulative GPA (scale of 4.0). While a master’s degree is not required for admissions into the biomedical sciences Ph.D. program, a master’s degree with a strong background in the research area of focus is a plus.
c. TOEFL/IELTS/Duolingo: The minimum acceptable scores are 540 (76 iBT) and 6.5 for TOEFL and IELTS respectively. An applicant whose native language is English and is a citizen of one of the following countries or has earned a university level degree from a school in one of the following countries may be exempt from providing additional proof of English proficiency: Antigua & Barbuda, Bahamas, Belize, Grenada, Guyana, Jamaica, St. Kitts & Nevis, St. Lucia Dominica, St. Vincent & the Grenadines, Trinidad & Tobago, Australia, Bermuda, Canada (all provinces except Quebec), Ireland, New Zealand, United Kingdom, and the United States. Due to COVID-19 related postponements/ cancellations of TOEFL/IELTS exams, we will be accepting Duolingo scores or 110 or higher as proof of English proficiency, until further notice.
d. Three letters of recommendation.
e. Statement of research interests and career objectives. A letter stating research & career interests and goals, prior research experience and outcomes, reasons for interest in BMS program. Include your contact information in the letter.
f. Current professional resume
2. Application Process. The BMS admissions committee reviews the completed application.
a. Contact faculty in your area of interest and obtain their endorsement. Faculty may choose to interview the candidate on-campus or via zoom.
b. Submit your application materials (pdf files of cover letter/statement of purpose, letter of sponsorship from the faculty, three letters of reference, transcripts, TOEFL scores to the admissions office via the University’s admission portal.
c. To ensure full application review for fall semester admission, applications should be received by February 15.
d. Review by BMS Admissions Committee.
e. Forward application packet with BMS recommendation to the faculty and host department.
f. Notification of decision to applicant by May 1.
Program of Study:
Rationale: The program of study is designed according to student learning goals and research opportunities. It blends depth and breadth of preparation by providing broad core requirements with electives promoting specialization in a “parent” discipline. This is recognized on program documentation by a Doctorate in Biomedical Sciences/”specialization” area. For example, Doctorate in Biomedical Sciences/Reproductive Biology.
Student Learning Outcomes: The BMS program provides a unique array of formal courses and informal discovery experiences focused on ensuring aptitudes, behaviors, and skills necessary for leadership and competitive success in the biomedical science arena.
Although the foundation enabling innovative, independent thinking and knowledge discovery is deep discipline knowledge, the BMS program is also designed to promote student competency in information assessment, synthesis and integration, communication and translation to the broader community, teamwork, leadership, and project management.
The BMS program trains graduates to be competent, skilled experimentalists, problem solvers, critical and independent thinkers, expert in their field, with both depth and breadth of knowledge.
In addition, the program aims to instill characteristics that are essential to long-term professional success, preparing scientists who are effective and dedicated mentors and teachers, organized administrators, exemplars of high ethical standards, and effective collaborators.
Upon completion of the program, graduates will demonstrate:
- Independent, critical thinking skills
- Ability to identify appropriate biographical resources
- Knowledge of recent advances in discipline and related areas
- Understanding of a broad spectrum of research methodologies and their applications
- Ability to critically analyze research findings
- Ability to design and independently execute research
- Ability to use appropriate information technology to record, manage, and disseminate information
- Understanding of issues related to researcher and subject rights
- Motivation and aptitude needed to acquire knowledge
- Communication skills that are appropriate for a range of audiences and purposes
- Ability to construct and articulate arguments to a wide range of audiences
- Ability to effectively support the acquisition of knowledge by others when teaching or mentoring students
- Willingness to assume responsibility for their work
- Ability to design and teach undergraduate or graduate courses
- Ability to publish single/first authored papers in peer-reviewed journals
Program in Ecology and Evolution, Ph.D. Interdisciplinary Program
School of Graduate Education
Knight Hall 247
Phone: (307) 766-4128
Email: ecology@uwyo.edu
Program Director: Melanie Murphy, Ph.D.
Degree Offered
Ph.D. in Ecology and Evolution
The Program in Ecology and Evolution (PiE2) prepares doctoral students to lead the disciplines of ecology and evolution during the coming decades. The program is grounded in the natural history of organisms in their environment, but incorporates tools and perspectives from across the biological, physical, mathematical, computational, and earth sciences. Students develop conceptual, historical, and philosophical perspectives spanning the entire range of subdisciplines in ecology and evolution, while receiving advanced training in the subdiscipline of their individual interest.
The program fosters long-term career development by exploring the linkages of ecology and evolution with other disciplines, and by scanning the ecological horizon for emerging questions, concepts, and approaches that will shape the field in years to come.
Faculty members from several departments and colleges participate in the Program in Ecology and Evolution. Their interests span the full range of topics covered in the field of ecology and evolution, and students in the program reflect this diversity.
Program Specific Admission Requirements:
Only students seeking a doctoral degree will be admitted into the program. Minimum criteria for admission to the Program in Ecology and Evolution are:
Minimum undergraduate GPA of 3.000
Agreement by a member of the PiE2 faculty to sponsor the student, or to co-sponsor the student together with a PiE2 affiliate
Admission to a home department at the University of Wyoming
All applications to the program will be reviewed by the Graduate Affairs Committee, which has authority on admissions. Students applying to the program who lack a master’s degree must show exceptional promise and commitment (e.g., through undergraduate or post-graduate research experiences, peer-reviewed publications, and/or success in competing for research fellowships). Such students are encouraged to consult with their prospective adviser on whether to apply directly to PiE2 or to master’s programs in individual home departments of PiE2 faculty.
Students already admitted to doctoral programs in individual departments at the University of Wyoming may apply to transfer to the program. Transfer is not pro forma. Transfer applications are subject to the same criteria as for entering students, and admission to the program for transfer students must be approved by the Graduate Affairs Committee.
Program Specific Degree Requirements:
Advisory Committee:
Before the end of the second semester of study, the student should nominate a five-member advisory committee to the Office of the Registrar. At least three members of the committee, including the committee chair (usually the student’s adviser), will be members of the PiE2 faculty. One other member, who will serve as Graduate Faculty representative, must be from outside the home department of the major adviser, although (s)he can be a faculty member in a department that participates in the program. The committee will advise the student on his/her program of graduate study, execute and evaluate the student’s preliminary examination, evaluate the student’s dissertation proposal and dissertation, and conduct the student’s dissertation defense.
Program of Study:
All students are required to take ECOL 5100 or equivalent. This course should be taken during the first year of residency. Exceptions or substitutions of these requirements are subject to approval by the graduate affairs committee.
The program of study must include at least 6 credit hours aimed at developing a tool skill, which except for rare cases shall be in the quantitative/analytical domain (e.g., statistics, modeling, GIS, remote sensing, bioinformatics). Courses relating to research tools should be taken early in the student’s residency to ensure that they can be used in thesis research and advanced studies. Specific coursework and tool-skill development for the student’s program of study will be developed in consultation with and subject to approval by the student’s advisory committee.
Admission to Candidacy:
Admission to candidacy for the Ph.D. requires two steps: 1) providing evidence that the student is prepared to identify a research question, design an approach for investigating that question, and a plan for executing the approach, all in the format of an NSF-style research proposal, and 2) illustrating adequate proficiency in the subject matter of ecology and evolution through a process involving both written and oral exams.
Proposal:
Students must submit a NSF-style proposal to their committee outlining their project, typically by the end of the fourth semester. Each committee member will provide feedback to the student on the proposed research and indicate approval of the proposal or request revision. The proposal must be approved by all committee members prior to starting the preliminary exams.
While this proposal should be a plan for actual dissertation research, unforeseen circumstances may require altering the student’s dissertation work after the proposal has been approved by the committee. In the case of a major alteration, the student should reformulate a research plan and submit it to the committee in writing for committee approval.
Preliminary Examination:
Passing the preliminary exam is the official admission to candidacy.
Written portion of the preliminary exam. The student will take the written exam portion of the preliminary exam no fewer than two weeks following approval of the research proposal. The goal of this exam is to test breadth of knowledge in ecology and evolution. The design of this exam will be coordinated by the graduate committee under the leadership of the adviser. Each written exam will cover the following topics:
- Ecological topics ranging from organismal/evolutionary to ecosystem-level perspectives, integrating concepts and perspectives from across the discipline, over a wide range of spatial and temporal scales.
- The philosophical and historical development of ecology and evolution.
- The conceptual background of the student’s area of specialization.
The exam will consist of four to six questions developed collectively by the committee and organized by the student’s major professor. The exam will be open book; however, the answers will be solely the work of the student. Answers should be fully cited and collectively should be no longer than 30 pages double-spaced exclusive of references cited. Students will have one full week (seven days) to complete the exam. Committee members will indicate pass/fail within one week following completion of written exams. Four of five passing votes are required.
Oral Portion of the Preliminary Exam. No sooner than two weeks after successfully passing the written exam, the student may proceed to an oral exam administered by his/her graduate committee. Oral exams center around three goals from which questions will be derived:
- To verify that the student is prepared, conceptually and methodologically, to carry out successful dissertation research.
- To evaluate the student’s ability to conceptualize specific questions in a broad, integrative context.
- To evaluate the student’s ability to think spontaneously and creatively and to articulate responses about unexpected or novel questions.
The advisory committee will discuss and organize specific questions based on these goals in a short session at the beginning of the exam period before admitting the student to the examination room and starting the exam. Following the exam each committee member will provide non-binding paper votes of pass/ fail for each of the three goals of the oral exam. Following discussion of the student’s performance, committee members will each assign a grade of pass/fail for the overall exam. Four of five committee members must vote for passing the overall oral exam.
Students whose performance is unsatisfactory will be given one opportunity for retaking the oral examination. This retake will occur no later than the academic-year semester following the first examination.
Public Seminars:
Students are required to give two oral presentations on their research. The purposes of these presentations are to provide the student with practice in oral presentations and to keep the PiE2 community informed of the student’s progress. The first will describe the student’s dissertation research proposal. This presentation will be given before the student submits his/her thesis proposal. The second presentation will summarize the student’s completed dissertation research, and will normally be given the same semester as the student’s dissertation defense. Under extraordinary circumstances (subject to approval by the Graduate Affairs Committee), this presentation may be given at an earlier time. These presentations must be open to the public, and may comprise part of a departmental or Program in Ecology and Evolution seminar or brown-bag series.
Hydrologic Sciences (WRESE), Ph.D. Interdisciplinary Program
School of Graduate Education
Knight Hall 247
Phone: (307) 766-4128
E-mail: wrese@uwyo.edu
Program Director: Andrew D. Parsekian, Ph.D.
Degree Offered
Ph.D. in Hydrologic Sciences
The Water Resources/Environmental Science and Engineering (WRESE) program facilitates Ph.D. level course offerings in water-related disciplines, and coordinates offerings of these courses. Furthermore, the WRESE program serves as a focal-point for water-related graduate research and education at the University of Wyoming.
This interdisciplinary degree program encourages cross-department and inter-college coordination for research and education in hydrology and water resources.
The WRESE Program grants a PhD in Hydrological Sciences.
Program Specific Admission Requirements:
Ph.D. in Hydrologic Sciences
The WRESE Program only admits students seeking a doctoral degree.
Those interested in graduate study in this program, are encouraged to contact the WRESE program (wrese@uwyo.edu) for more information and guidance regarding applying. In order to apply, please submit an application to the program via the University of Wyoming’s online application system (http://www.uwyo.edu/admissions/apply.html). Prospective students applying to the WRESE program must satisfy the minimum criteria for admission of their advisor’s home department (i.e., number of reference letters required; minimum GRE scores, if requested; other supporting documents, if requested; etc.). Similarly, applicants should adhere to the submission deadline indicated by their advisor’s home department.
Minimum criteria for admission to the WRESE Program are:
- Minimum undergraduate GPA of 3.000
- Agreement by a faculty member affiliated with the WRESE program to sponsor the student
- Admission to a home department at the University of Wyoming
Typically, students admitted into the program will have previously obtained a Masters-level degree. Under certain circumstance, students may be admitted directly after an undergraduate degree if they show exceptional promise and commitment. Students already admitted to doctoral programs in individual departments at the University of Wyoming may apply to transfer to the WRESE program.
International applicants, who are not native English-speakers, must submit TOEFL or IELTS scores. If an international applicant wishes to be considered for Graduate Assistantship funding, the applicant should also submit the results of an Oral Proficiency Interview (OPI). Please contact the UW English Language Center (http://www.uwyo.edu/elc/) if you have questions regarding the English proficiency requirements.
Please see the Graduate Admissions and Graduate Student Regulations and Policies entries in the front section of the UW Catalog for more information.
Program Specific Degree Requirements:
Students in the WRESE Program are expected to create their graduate committee within the first year of study. The committee should be composed of three faculty members within the PhD program in Hydrology and 2 should be from the student’s departmental home. A committee shall be composed of no fewer than 5 members, of which only one may be from outside the University. Additional committee members may be added to support the student’s learning and objectives on the discretion of the committee and WRESE Program chair.
Program of Study:
Students enrolled in the Program should complete their Program of Study within the first 3 semesters. The student shall work with his/her research advisor and committee to determine the appropriate course of study relative to the student’s research agenda. Students are expected to complete a rigorous course of study in quantitative hydrological sciences. Minimum requirements for the PhD include:
- Coursework credits: 42 hours (26 can be from an MS)
- Total credits: 72 hours
- Math expectations: students are encouraged to pursue a high level of math proficiency, with typical students progressing through differential equations. Individual math expectations will be determined by the committee and program chair.
A dissertation proposal should be approved by the end of the 4th semester. Students shall submit their proposal to their committee for review two weeks prior to a holding a committee meeting where the student (a) presents their proposal in a public presentation and (b) defends the proposal to the committee in a closed meeting. After the meeting, the student shall amend the proposal as required by the committee within a timely manner.
Admission to Candidacy / Preliminary Examination:
Advance to candidacy is attained by passing preliminary exams within 3 years of initiating a degree program. Students should complete their preliminary exams as close to the end of their primary coursework as possible. Preliminary exams consist of two parts. The first part is a written examination wherein committee members shall submit written questions to the student. Once the student has passed their written exams, they will be administered an oral examination.
The written exam shall be administered by the student’s research adviser, who will coordinate the questions so as to obtain a comprehensive review of the student’s knowledge of the materials the student has learned in the classroom and needs to complete his/her research topic. Written questions should cover both conceptual and theoretical underpinnings in hydrological sciences and technical questions related to the student’s research area.
The written exam will consist of a series of questions as decided upon by the committee and should take no more than two weeks to complete.
Each committee member shall grade their portion of the exam as pass/fail. The student shall be viewed as passing the written exam if no more than one person grades their portion of the exam as failing.
The oral examination will be held no sooner than two weeks after the written exams, and only after the student has passed their written examinations. The oral exam should be no less than 90 minutes long and no longer than 3 hours.
Following the exam, each committee member must vote pass/fail. The student will be deemed as passing if they receive no more than one failing vote.
Dissertation:
The student will prepare a dissertation and make the document available to the committee at least two weeks in advance of an oral defense of the document. The oral defense must be at least 15 weeks after the student has been advanced to candidacy. Students shall present a public defense to the university community that is expected to be approximately 45 minutes long, with a public question-and-answer period after the presentation. If the committee determines that the student has presented a suitable oral presentation of his/her research findings, a closed session meeting will be held in which the student defends their research to the committee. At the conclusion of the defense, each committee member must vote pass/fail. The student will be deemed as passing if they receive no more than one failing vote.
Other information:
Students in the WRESE Program may participate from any college, with the expectation that their program of study and dissertation will focus on quantitative issues of hydrology and water resources. The Program welcomes academic diversity, and students in WRESE have entered into the Program from a wide range of academic backgrounds and have hailed from numerous home departments, including Ecosystem Science and Management, Civil and Architectural Engineering, Botany, Zoology and Physiology, and Geology and Geophysics.
Molecular and Cellular Life Sciences, Ph.D. InterdisciplinaryProgram
School of Graduate Education
Knight Hall 247
Phone: (307) 766-4128
Website: http://www.uwyo.edu/mcls/
Email: mcls@uwyo.edu
Program Director: Daniel Levy, Ph.D.
Degree Offered
Ph.D. in Molecular and Cellular Life Sciences
This interdisciplinary program with more than 30 faculty participants spans a wide range of research topics, such as:
Biotechnology-bioengineering, biomaterials, pharmacology, cell biology and signaling, genetics and development, genomics, proteomics, computational biology, microbiology and infectious disease, structural biology, and biophysics.
Coursework focuses on core courses in biochemistry and molecular biology, with electives that include such diverse courses as:
Topics in Genomics, Biophysics, Microbial Physiology and Metabolism, Cell and Developmental Genetics, Mass Spectrometry and Analytical Chemistry, Biomedical Engineering, Mammalian Endocrinology, Cell Culture and Virology, Introduction to Bioinformatics, Protein Structure and Function, Microbial Genetics, Computational Biology, and Quantitative Microscopy.
Program Specific Admission Requirements:
1. Applicants should apply through the online graduate application link. This process requires uploading a statement of purpose, a CV, academic transcripts, and test scores. The statement of purpose should include a brief narrative that describes the applicant’s motivation to pursue graduate studies in the life sciences, relevant experiences, and specific reasons for applying to the MCLS program at the University of Wyoming. The program does not adhere to strict test score minimums, however, for international applicants minimum suggested scores are 540 (76 iBT) and 6.5 for TOEFL and IELTS, respectively. An applicant whose native language is English and is a citizen of one of the following countries or has earned a university level degree from a school in one of the following countries will be exempt from providing additional proof of English proficiency: Antigua & Barbuda, Bahamas, Belize, Grenada, Guyana, Jamaica, St. Kitts & Nevis, St. Lucia Dominica, St. Vincent & the Grenadines, Trinidad & Tobago, Australia, Bermuda, Canada (all provinces except Quebec), Ireland, New Zealand, United Kingdom, and the United States. Due to COVID-19 related postponements/cancellations of TOEFL/IELTS exams, we will be accepting Duolingo scores of 110 or higher as proof of English proficiency until further notice. More information for international applicants can be found on the University of Wyoming graduate admissions website. The application also requests that three reference letters be submitted in support of the candidate’s application. Completed applications are due on January 1.
2. The MCLS admissions committee reviews completed applications starting in early January of each application cycle. Promising applications are selected based on research experience, grades, test scores, and reference letters. The most compelling statements of purpose convincingly describe why the applicant is interested in pursuing graduate studies in the life sciences, detailing relevant past research experience and how it has prepared the student for PhD studies. Reference letters that include specific details and anecdotes about the applicant are most useful. The committee generally looks for grades of B or better in life science and chemistry courses, although lower grades can be balanced by a sufficiently strong research background. Successful applicants will be notified of admission decisions by May 1 at the latest, although the majority of decisions will be made by March 15.
3. Following the initial reviews, selected applicants are invited for a Zoom interview. Applicants will be provided with a primary research paper that they should read in preparation for the interview.
4. Zoom interviews are conducted with at least two members of the admissions committee. Applicants are asked a variety of questions, including why they are interested in the MCLS program, how their previous research experience has prepared them for PhD studies, their perceived strengths and weaknesses as a scientist, and future career goals. The interviewers also ask questions about the research paper and more general molecular biology questions to determine if the applicants have a sufficiently strong background to succeed in the MCLS program.
5. Shortly after the interview sessions, the MCLS admissions committee discusses the results of the Zoom interviews and ranks applicants for offers of admission, conditional upon approval by the Office of Admissions.
Program Specific Degree Requirements:
MCLS doctoral students must fulfill the minimum requirements outlined by the university. In addition, students must obtain a high level of proficiency in the core foundations of the molecular and cellular life sciences through required courses in biochemistry/ molecular biology, scientific literature analysis proficiency, and the MCLS cornerstone course. Because of the broad range of research interests pursued by MCLS faculty and students, considerable flexibility will be exercised regarding the specific nature of the graduate level elective courses that students may take. Students must successfully complete four eight-week rotations in MCLS laboratories of their choice during the first year. Additionally, students must pass a comprehensive assessment exam at the end of the first year. Near the end of their second year in the program, students will undertake a qualifying examination in order to be formally admitted to graduate degree candidacy. This exam will have both written and oral components and will cover areas of science that are relevant to the students’ proposed research. Annual meetings with a research-specific dissertation committee will facilitate and evaluate the research progress of MCLS students beginning in the second year. Students must also attend weekly outside seminars on topics in the molecular life sciences for the durations of their studies. For more information, please see the program’s Website at: http://www.uwyo.edu/MCLS/.
Neuroscience, Ph.D. InterdisciplinaryProgram
School of Graduate Education
Knight Hall 247
Phone: (307) 766-4128
Website: http://www.uwyo.edu/neuroscience/
Email: neuroscience@uwyo.edu
Program Director: Kara Pratt, Ph.D.
Degree Offered
Ph.D. in Neuroscience
The Graduate Neuroscience Program offers training leading to the Ph.D. degree in Neuroscience. The Neuroscience Program emphasizes systems and integrative approaches, and our goal is to provide the students with the necessary background to be broadly trained research neuroscientists and to carry out independent research in neuroscience. The Neuroscience Program emphasizes continuing interaction with faculty from several departments and we have a low student to faculty ratio. Advisors spend considerable time supervising and training each doctoral student. The educational philosophy of the Neuroscience Program is to encourage a problem-oriented rather than a strict discipline-bound approach to research. You will emerge from this program with the scientific and experimental training needed to comprehensively address a very wide range of research questions using a variety of techniques and analytic tools.
The Graduate Neuroscience Program is designed to enable graduate students to acquire competence in the various disciplines necessary for research and teaching careers in neuroscience. The current interests of the Neuroscience faculty include sensory neurophysiology, behavioral neuropharmacology, neurodevelopment, neurodegeneration, and synaptic plasticity.
Students and faculty have access to outstanding resources established by NIH Neuroscience and Sensory Biology Core grants. The Microscopy Core houses both light (Zeiss laser scanning, fluorescent) and electron (Transmission and
Scanning) microscopes. Resources needed to conduct research ranging from molecular, cellular circuit level to behavior are readily available within the Neuroscience Center.
Doctoral Program Admission Minimum Requirements:
GRE: Accepted but not required;
GPA: 3.000 (4.000 scale);
Three favorable letters of recommendation;
Bachelor’s degree in a biological science from an accredited institution;
Statement of research interests and career objectives. We recommend that students study the Neuroscience faculty web sites and contact faculty regarding openings and shared research interests.
You will be best prepared for our program if you have successfully completed courses in neuroscience, chemistry, biology, physiology, and cell/molecular biology. Students may be admitted with deficiencies in some of the areas if they are strong in many or all others. If so, the student’s advisory committee will determine what additional work is necessary during the first year to correct any deficiency.
Program Specific Degree Requirements:
All doctoral Neuroscience students are required to complete a program of core classwork that must include the required courses Introduction to Neuroscience (NEUR 5280) and Structure and Function of the Nervous System (NEUR 5100). Students are required to take one course in Statistics (e.g. STAT 5050, STAT 5210) and the course that meets this requirement will be arranged with the student’s committee. The statistics requirement must be met by the end of the second year. The Neuroscience Program is a research-oriented program and students are expected to take a minimum of 2 to 3 credit hours of research per semester. Students are also expected to enroll in an on-going Seminar in Neuroscience. The Neuroscience Seminar, which meets weekly and is attended by students and faculty members, provides an opportunity for intellectual and social exchange, as well as for the development of professional skills in critical thinking. The topic for seminar and the faculty member directing the seminar changes each semester. The remainder of the coursework for the doctor of philosophy degree is selected from designated courses in Neuroscience, physiology, pharmacology, and molecular biology. A grade of B or better is required for all Neuroscience courses.
A student is expected to have a graduate adviser at all times. The faculty adviser must be a participating member of the Neuroscience faculty. The adviser is responsible for directing the student’s research and academic coursework. During the second year, the student will have an advisory committee. The advisory committee will consist of at least three neuroscience faculty members and an outside member. Normally, the student’s adviser will chair the committee and help identify members of the committee who best match the student’s area of interest. The role of the advisory committee is to oversee all aspects of the student’s education after the first year.
In the student’s second or third year, the advisory committee will set and evaluate the student’s qualifying examination. After successful completion of the preliminary examination the student will profess to Ph.D. candidate status.
The dissertation is the single most important component of the graduate program. It reports the results and significance of the student’s research. In addition to the written dissertation, the doctoral candidate will deliver a formal seminar based on their research. The seminar will be followed by an examination by the student’s advisory committee.
Water Resources (WARE), M.S. Interdisciplinary Program
School of Graduate Education
Knight Hall 247
Phone: (307) 766-4128
Website: http://www.uwyo.edu/wrese/ware/
Email: ware@uwyo.edu
Program Director: Andrew D. Parsekian, Ph.D.
Departments and Degrees Involved in WARE
Several academic departments throughout the university work together to provide an interdisciplinary Master’s degree program in water resources. The Masters’ degree offered through these affiliations is awarded as a major with each of the sponsoring departments graduate programs and is designated on the graduate transcript as: M.S. or M.A. in (Program Name)/Water Resources. This formal recognition of a water resources degree emphasis certifies that the student has completed an in-depth multidisciplinary course program in the broad area of water resources. The following is a list of participating departments:
- Agricultural Economics/Water Resources
- Botany/Water Resources
- Civil Engineering/Water Resources
- Economics/Water Resources
- Entomology/Water Resources
- Geology/Water Resource
- Geophysics/Water Resources
- Rangeland Ecology And Watershed Management / Water Resources
- Soil Science/Water Resources
- Zoology And Physiology/Water Resources
The WARE program is an interdisciplinary MS “slash” program. Students who enroll in the program are pursuing graduate studies in a range of departments at the University of Wyoming. WARE is a dual degree program that encourages students to pursue interdisciplinary academic options while completing their MS research.
The educational underpinnings of this program include the following:
- The purpose of the program is to develop cross-disciplinary education and perspectives regarding water resources.
- Training is to be consistent with the rigor expected of professionals with water resource expertise.
- The cross-disciplinary major program is flexible to meet the individual professional objectives of students.
Primary responsibility of student guidance and graduate program formulation resides with the sponsoring department and sponsoring major professor. Once accepted to a “home” department, each candidate will form a graduate committee that contains at least one member drawn from the Hydrologic Science Program faculty. The faculty representative on the candidates graduate committee shall aid in formulating course program design, academic performance criteria, and research objectives throughout the candidates’ tenure in the program.
ProgramsGraduate- Agricultural Economics/Water Resources, M.S. Interdisiplinary
- Biomedical Sciences, Ph.D.
- Botany/Water Resources, M.S. Interdisciplinary
- Civil Engineering/Water Resources, M.S. Interdisciplinary
- Ecology and Evolution, Ph.D.
- Economics/Water Resources M.S. Interdisciplinary
- Entomology/Water Resources, M.S. Interdisciplinary
- Geology/Water Resources, M.S. Interdisciplinary
- Geophysics/Water Resources, M.S. Interdisciplinary
- Hydrologic Sciences, Ph.D. (WRESE)
- Molecular and Cellular Life Sciences, Ph.D.
- Neuroscience, Ph.D.
- Rangeland Ecology and Watershed Management/Water Resources, M.S. Interdisciplinary
- Soil Science/Water Resources, M.S. Interdisciplinary
- Zoology and Physiology/Water Resources, M.S. Interdisciplinary
CoursesBiomedical ScienceEcologyNeuroscience
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