Twin Cities campus

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Twin Cities Campus

Stream Restoration Science and Engineering Postbaccalaureate Certificate

CSENG Civil, Envrn & Geo-Eng (CEGE)
College of Science and Engineering
Link to a list of faculty for this program.
Contact Information
Stream Restoration Graduate Certificate Program, National Center for Earth-surface Dynamics, Saint Anthony Falls Laboratory, 2 Third Avenue SE, Minneapolis, MN 55414 (612-624-4363)
Email: volle001@umn.edu
Website: http://www.nced.umn.edu/apply-certificate-program-stream-restoration
  • Program Type: Post-baccalaureate credit certificate/licensure/endorsement
  • Requirements for this program are current for Fall 2023
  • Length of program in credits: 16
  • This program does not require summer semesters for timely completion.
  • Degree: Stream Rest. Science & Engineering Pbacc Cert
Along with the program-specific requirements listed below, please read the General Information section of this website for requirements that apply to all major fields.
The Stream Restoration Science and Engineering post-baccalaureate certificate is a three-semester program producing graduates who understand how to blend engineering, physical, biological, and social sciences in prioritizing, designing, implementing, and evaluating stream restoration projects.
Program Delivery
  • via classroom (the majority of instruction is face-to-face)
Prerequisites for Admission
The preferred undergraduate GPA for admittance to the program is 3.00.
A bachelor's degree in a field related to ecology, civil engineering, or environmental and earth sciences from an accredited US institution or its foreign equivalent.
Other requirements to be completed before admission:
In addition to the University's online application form, students must submit a program application and one letter of reference. Applications are accepted throughout the year, although it is preferable to start the program in fall semester.
International applicants must submit score(s) from one of the following tests:
  • TOEFL
    • Internet Based - Total Score: 79
    • Internet Based - Writing Score: 21
    • Internet Based - Reading Score: 19
  • IELTS
    • Total Score: 6.5
    • Reading Score: 6.5
    • Writing Score: 6.5
Key to test abbreviations (TOEFL, IELTS).
For an online application or for more information about graduate education admissions, see the General Information section of this website.
Program Requirements
Use of 4xxx courses toward program requirements is permitted under certain conditions with adviser approval.
A minimum GPA of 3.00 is required for students to remain in good standing.
Courses offered on both the A-F and S/N grade basis must be taken A-F. The minimum cumulative GPA for coursework is 3.00.
Foundation Course (3 credits)
Select 1 of the following courses in consultation with the advisor.
CEGE 8601 - Introduction to Stream Restoration (3.0 cr)
or EEB 8601 - Introduction to Stream Restoration (3.0 cr)
or ESCI 8601 - Introduction to Stream Restoration (3.0 cr)
Elective Coursework (11 credits)
Select electives from the following in consultation with the advisor. Other courses may be selected with advisor and director of graduate studies approval.
BBE 5513 - Watershed Engineering (3.0 cr)
BBE 8513 - Hydrologic Modeling of Small Watersheds (3.0 cr)
CEGE 4501 - Hydrologic Design (4.0 cr)
CEGE 4511 - Hydraulic Structures (3.0 cr)
CEGE 4512 - Open Channel Hydraulics (3.0 cr)
CEGE 4563 - Pollutant Fate and Transport: Processes and Modeling (3.0 cr)
CEGE 5512 - Stochastic Ecohydrology (3.0 cr)
CEGE 5515 - Remote Sensing of Environment and Water Resources (3.0 cr)
CEGE 5541 - Environmental Water Chemistry (3.0 cr)
CEGE 8508 - Ecological Fluid Mechanics (4.0 cr)
CEGE 8511 - Mechanics of Sediment Transport (3.0 cr)
CEGE 8541 {Inactive} (3.0 cr)
EEB 5601 - Limnology (3.0 cr)
ESCI 4701 - Geomorphology (4.0 cr)
ESCI 4702 - General Hydrogeology (4.0 cr)
ESPM 4295W - GIS in Environmental Science and Management [WI] (4.0 cr)
ESPM 5061 - Water Quality and Natural Resources (3.0 cr)
ESPM 5111 - Hydrology and Water Quality Field Methods (3.0 cr)
ESPM 5202 - Environmental Conflict Management, Leadership, and Planning (3.0 cr)
FNRM 5114 - Hydrology and Watershed Management (3.0 cr)
FNRM 5153 - Forest Hydrology & Watershed Biogeochemistry (3.0 cr)
FW 8459 - Stream and River Ecology (3.0 cr)
FW 8465 - Fish Habitats and Restoration (3.0 cr)
HORT 5071 - Ecological Restoration (4.0 cr)
WRS 5101 - Water Policy (3.0 cr)
Capstone Course (2 credits)
Select 1 of the following courses in consultation with the advisor.
CEGE 8602 - Stream Restoration Practice (2.0 cr)
or EEB 8602 - Stream Restoration Practice (2.0 cr)
or ESCI 8602 - Stream Restoration Practice (2.0 cr)
 
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CEGE 8601 - Introduction to Stream Restoration
Credits: 3.0 [max 3.0]
Course Equivalencies: CEGE 8601/EEB 8601/ESci 8601
Grading Basis: A-F or Aud
Typically offered: Periodic Fall
Background material required to participate in a stream restoration project. How to assimilate geologic, hydrologic, and ecological data at watershed and reach scales to plan a restoration project and evaluate/critique existing stream restoration projects.
EEB 8601 - Introduction to Stream Restoration
Credits: 3.0 [max 3.0]
Course Equivalencies: CEGE 8601/EEB 8601/ESci 8601
Typically offered: Fall Even Year
Science/policy behind stream restoration. How to evaluating/critiquing a stream restoration project. Assimilate geomorphic, hydrologic, and ecological data at watershed and reach scales to plan a restoration project. Developing a monitoring/assessment program for an existing or future restoration project. prereq: Grad student in [CE or GEO or EEB or WRS or FW or BAE or FR or HORT or ENR or LA or SRSE] or instr consent
ESCI 8601 - Introduction to Stream Restoration
Credits: 3.0 [max 3.0]
Course Equivalencies: CEGE 8601/EEB 8601/ESci 8601
Grading Basis: A-F or Aud
Typically offered: Every Fall
Background material essential for participating in a stream restoration project. How to assimilate geologic, hydrologic, and ecological data at the watershed and reach scales to plan a restoration project and evaluate/critique existing stream restoration projects. prereq: Grad student in CE or ESCI or EEB or WRS or FW or BAE or FR or HORT or ENR or LA or SRSE or instr consent
BBE 5513 - Watershed Engineering
Credits: 3.0 [max 3.0]
Grading Basis: A-F or Aud
Typically offered: Every Fall
Application of engineering principles to managing surface runoff from agricultural, range, and urban watersheds. Design of facilities and selection of land use practices for controlling surface runoff to mitigate problems of flooding and degradation of surface-water quality. prereq: 3023, upper div CSE or grad student
BBE 8513 - Hydrologic Modeling of Small Watersheds
Credits: 3.0 [max 3.0]
Prerequisites: [3012 or CEGE 3502], hydrology course
Typically offered: Spring Even Year
Study/representation of hydrologic processes by mathematical models. Stochastic meteorological variables, infiltration, overland flow, return flow, evapotranspiration, channel flows. Approaches for model calibration/evaluation. prereq: [3012 or CEGE 3502], hydrology course
CEGE 4501 - Hydrologic Design
Credits: 4.0 [max 4.0]
Grading Basis: A-F or Aud
Typically offered: Every Fall & Spring
Hydrologic cycle: precipitation, evaporation, infiltration runoff. Flood routing through rivers and reservoirs. Statistical analysis of hydrologic data and estimation of design flows. Open channel flow, flow through conduits. Detention basin design, hydraulic structure sizing, estimation of risk of flooding. prereq: CEGE 3502
CEGE 4511 - Hydraulic Structures
Credits: 3.0 [max 3.0]
Grading Basis: A-F or Aud
Typically offered: Periodic Fall
Hydraulic design procedures for culverts, dams, spillways, outlet works, and river control works. Drop structures, water intakes, bridge crossings. prereq: CEGE 4501, upper division CSE student, Grad student or instructor consent
CEGE 4512 - Open Channel Hydraulics
Credits: 3.0 [max 4.0]
Grading Basis: A-F or Aud
Typically offered: Periodic Fall & Spring
Theories of flow in open channels, including gradually varied and rapidly varied flows, steady and unsteady flows. Computational methods for unsteady open channel flows, applications to flood routing. Introduction to moveable bed mechanics.
CEGE 4563 - Pollutant Fate and Transport: Processes and Modeling
Credits: 3.0 [max 3.0]
Grading Basis: A-F only
Typically offered: Periodic Fall & Spring
This course will focus on understanding the processes that dictate chemical fate in surface waters, including air-water transfer, adsorption, and biological and abiotic degradation. Students will evaluate the kinetics of these processes by interpreting experimental data. They will also characterize transport in surface waters by building theoretical and computational models from scratch that incorporate advection, diffusion and dispersion transport processes. Students will develop finite difference solutions to advection-diffusion-reaction equations, using ideal and non-ideal reactor theory, to describe the ultimate fate of pollutants in surface water systems such as rivers, lakes, and estuaries. Fate and transport of organic pollutants (such as pesticides and pharmaceuticals), as well as biochemical oxygen demand and nutrient pollution, will be studied. Prerequisites: CEGE 3101, CEGE 3501, or instructor consent
CEGE 5512 - Stochastic Ecohydrology
Credits: 3.0 [max 3.0]
Grading Basis: A-F or Aud
Typically offered: Every Fall
This course will provide the theoretical and quantitative basis for understanding the interactions between the water cycle, vegetation, soil biogeochemistry, and the atmosphere. A main focus of the course will be on modeling the water and carbon dynamics across the soil-plant-atmosphere system. We will provide probabilistic descriptions of this system at the daily, seasonal, and interannual timescales by incorporating various sources of randomness and non-stationarity within the environment, particularly those from rainfall. These concepts and tools will be discussed in the context of sustainable management of water resources and terrestrial ecosystems, especially in view of the changes in the hydrological regime from climate change and societal pressures. prereq: MATH 2373, MATH 2374
CEGE 5515 - Remote Sensing of Environment and Water Resources
Credits: 3.0 [max 3.0]
Grading Basis: A-F or Aud
Typically offered: Every Spring
The course presents fundamentals of probability theory, statistical learning, and physics of remotes sensing to increase understanding and technical knowledge of undergraduate and graduate students about Earth data analysis and remote sensing. Prereqs: CEGE 4501 is recommended
CEGE 5541 - Environmental Water Chemistry
Credits: 3.0 [max 4.0]
Grading Basis: A-F or Aud
Typically offered: Every Fall
Introduction to water chemistry. Physical chemical principles, geochemical processes controlling chemical composition of waters, behavior of contaminants that affect the suitability of water for beneficial uses. prereq: CEGE 3501, Chem 1061, Chem 1062, upper division CSE or grad student or instructor consent
CEGE 8508 - Ecological Fluid Mechanics
Credits: 4.0 [max 4.0]
Prerequisites: 3502 or equiv
Grading Basis: A-F or Aud
Typically offered: Every Fall
Fluid mechanics of microbiological processes in lakes, rivers, and wetlands. Small-scale fluid motion, nutrient uptake, growth kinetics, ecosystem metabolism, scaling, lab/field microstructure measurements. prereq: 3502 or equiv
CEGE 8511 - Mechanics of Sediment Transport
Credits: 3.0 [max 3.0]
Course Equivalencies: CE 8511/ESci 8511
Prerequisites: 3502 and 4501 or #
Grading Basis: A-F or Aud
Typically offered: Every Fall
Particle motion in fluids. Criteria for incipient motion. Formulations for bedload and suspended load. Bedform mechanics and hydraulic resistance relations. Channel stability, aggradation and degradation, alluvial stream morphology. prereq: 3502 and 4501 or instr consent
EEB 5601 - Limnology
Credits: 3.0 [max 3.0]
Typically offered: Every Fall
Advanced introduction to description/analysis of interaction of physical, chemical, and biological factors that control functioning of life in lakes and other freshwater aquatic environments. prereq: Grad student or instr consent
ESCI 4701 - Geomorphology
Credits: 4.0 [max 4.0]
Typically offered: Every Fall
Origin, development, and continuing evolution of landforms in various environments. Environmental implications. Weathering, slope and shore processes, fluvial erosion and deposition, arid region processes, glacial processes. This course includes lecture and laboratory components, including field trips. Prereqs: MATH 1271 (Calculus I) or equivalent; PHYS 1301 (Physics I: Classical Mechanics) or equivalent. Instructor consent is required to take this course without the prerequisite courses or their equivalents, and it is recommended to take these classes at least concurrently (as co-requisites) with geomorphology. No help will be given on material covered in prerequisite courses.
ESCI 4702 - General Hydrogeology
Credits: 4.0 [max 4.0]
Typically offered: Every Spring
Theory of groundwater geology, hydrologic cycle, watershed hydrology, Darcy's law, governing equations of groundwater motion, flow net analysis, analog models, groundwater resource evaluation/development. Applied analysis of steady and transient equations of groundwater motion and chemical transport. Chemistry of natural waters. prereq: [concurrent registration is required (or allowed) in CHEM 1062, concurrent registration is required (or allowed) in CHEM 1066, MATH 1271, PHYS 1201] or instr consent
ESPM 4295W - GIS in Environmental Science and Management (WI)
Credits: 4.0 [max 4.0]
Prerequisites: FNRM 3131 or Geog 3561 or #
Grading Basis: A-F or Aud
Typically offered: Every Fall
Application of geographic information science and technologies (GIS) in complex environmental problems. Students gain experience in spatial data collection, database development, and spatial analysis, including GNSS and field attribute collection, image interpretation, and existing data fusion, raster/vector data integration and analysis, information extraction from LiDAR data, DEM conditioning and hydrologic analysis, neighborhood analysis, bulk processing and automation, and scripting. Problems vary depending on topics, often with extra-University partners. prereq: FNRM 3131 or Geog 3561 or instr consent
ESPM 5061 - Water Quality and Natural Resources
Credits: 3.0 [max 3.0]
Typically offered: Every Fall & Spring
Recent literature in field. Complements 4061. Ecology of aquatic ecosystems, how they are valuable to society and changed by landscape management. Case studies, impaired waters, TMDL process, student engagement in simulating water quality decision making.
ESPM 5111 - Hydrology and Water Quality Field Methods
Credits: 3.0 [max 3.0]
Course Equivalencies: ESPM 3111/ESPM 5111
Prerequisites: Grad student or #
Grading Basis: A-F or Aud
Typically offered: Every Spring
Integrates water quality, surface/groundwater hydrology. Case studies, hands-on field data collection, calculations of hydrological/water quality parameters. Meteorological data, snow hydrology, stream gauging, well monitoring, automatic water samplers. Designing water quality sampling program. Geomorphology, interception, infiltration. prereq: Grad student or instr consent
ESPM 5202 - Environmental Conflict Management, Leadership, and Planning
Credits: 3.0 [max 3.0]
Course Equivalencies: ESPM 3202WESPM /5202
Grading Basis: A-F or Aud
Typically offered: Every Spring
Negotiation of natural resource management issues. Use of collaborative planning. Case study approach to conflict management, strategic planning, and building leadership qualities. Emphasizes analytical concepts, techniques, and skills.
FNRM 5114 - Hydrology and Watershed Management
Credits: 3.0 [max 3.0]
Course Equivalencies: FNRM 3114/FNRM 5114
Typically offered: Every Fall
Hydrologic cycle and water processes in upland/riparian systems. Applications of hydrological concepts to evaluate impacts of forest and land management activities on water yield, streamflow, groundwater erosion, sedimentation, and water quality. Concepts, principles, and applications of riparian/watershed management. Regional/national/global examples. Forest ecosystems.
FNRM 5153 - Forest Hydrology & Watershed Biogeochemistry
Credits: 3.0 [max 3.0]
Typically offered: Spring Odd Year
This rigorous course examines hydrology and biogeochemical cycling in forested watersheds. Topics include role of forests in hydrologic processes (precipitation, runoff generation, and streamflow) and exports (sediment, carbon, and nitrogen). Readings from primary literature, active discussion participation, research/review paper. prereq: [Basic hydrology course, one course in ecology, and one course in chemistry [upper div or grad student]] or instr consent
FW 8459 - Stream and River Ecology
Credits: 3.0 [max 3.0]
Typically offered: Fall Even Year
Structure/dynamics of running waters from ecosystem perspective. Historical perspective, basic hydrology/fluvial geomorphology, terrestrial-aquatic interactions, detrital dynamics, metabolism, drift, trophic relations, biotic/abiotic interactions, ecosystem experiments and natural alterations, stability/succession, ecosystem dynamics in a watershed. prereq: Limnology course or instr consent
FW 8465 - Fish Habitats and Restoration
Credits: 3.0 [max 3.0]
Typically offered: Fall Odd Year
Mechanisms underlying physiology/behavior that shape fish community structure in specific north temperate habitats. Techniques and planning procedures for restoring lakes/streams. prereq: Intro ecology course or instr consent
HORT 5071 - Ecological Restoration
Credits: 4.0 [max 4.0]
Course Equivalencies: ESPM 5071/Hort 5071
Typically offered: Every Fall
Each ecosystem restoration is the product of a myriad of decisions made in response to existing site conditions (biotic and abiotic), anticipated effects from the surrounding landscape, predictions about future events, logistical realities, and, of course, desired conditions. During this course, you will learn about the ecological and social factors that affect ecosystem recovery and how people intervene to reverse ecosystem degradation. The course includes examples from ecosystems around the world, with emphasis on those found in the Midwestern US. Field trips. PREREQUISITES: This course presumes previous courses in basic ecology and plant science.
WRS 5101 - Water Policy
Credits: 3.0 [max 3.0]
Course Equivalencies: PA 5723/WRS 5101
Typically offered: Every Spring
Socio-cultural, legal, and economic forces that affect water resource use. Water quality, Clean Water Act contrasted with international laws, roles of State and Local agencies. Water supply, drought, flooding, drainage, irrigation, storage. Sulfide mining, Line 3, hypoxia, wildfire, climate, snowpack, extreme events, China south-to-north transfer, CEC?s, AIS, Aral Sea, CAFOs, and more.
CEGE 8602 - Stream Restoration Practice
Credits: 2.0 [max 2.0]
Course Equivalencies: CEGE 8602/EEB 8602/ESci 8602
Grading Basis: S-N only
Typically offered: Periodic Fall
Field experience, group design project. Students provide a stream restoration context for each other's elective coursework, complete critical assessments of stream restoration projects, and design a stream restoration site. prereq: CEGE 8601, or EEB 8601, or ESCI 8601
EEB 8602 - Stream Restoration Practice
Credits: 2.0 [max 2.0]
Course Equivalencies: CEGE 8602/EEB 8602/ESci 8602
Grading Basis: S-N only
Typically offered: Fall Odd Year
Field experience, group design project. Students provide a stream restoration context for each other's elective coursework, complete critical assessments of stream restoration projects, and design a stream restoration site. prereq: CE 8601 or GEO 8601
ESCI 8602 - Stream Restoration Practice
Credits: 2.0 [max 2.0]
Course Equivalencies: CEGE 8602/EEB 8602/ESci 8602
Grading Basis: S-N only
Typically offered: Every Summer
Field experience, group design project. Students provide a stream restoration context for each other?s elective coursework, complete critical assessments of stream restoration projects, and design a stream restoration site. prereq: 8601 or CE 8601