Scoping Studies for the Development of Design Guidelines for Bioengineering in the Upper Midwest

Principal Investigator(s):

Omid Mohseni, Research Associate, SAFHL - Hydraulic Lab

Co-Investigators:

  • Jeff Marr, Associate Director, SAFHL - Hydraulic Lab
  • Gary Parker, Former Professor, SAFHL - Hydraulic Lab
  • Bruce Wilson, Professor, Bioproducts and Biosystems Engineering

Project summary:

It has been about fifteen years since soil bioengineering and bioengineering technology were first used in projects to protect slopes and river banks against erosion. Now many consulting firms as well as state and federal agencies promote and practice these techniques. Despite widespread support for the techniques, many projects have failed. Therefore, it is deemed necessary to develop a set of design guidelines to ensure a higher rate of success. In order to develop design guidelines for soil bioengineering and bioengineering technology, a pilot study was conducted to determine the amount of work already done in these areas, and to define the existing research needs. The final report for this project comprises (a) a summary of literature review, (b) interviews with eleven practitioners in the field, (c) an evaluation of three projects done in Minnesota, (d) current research needs, (e) and a brief evaluation of three sites in the vicinity of the Twin Cities area as potential outdoor laboratories to conduct research in the needed areas. It also includes a summary of a site visit of the department of Soil Bioengineering and Landscape Construction at the University of Agricultural Sciences in Vienna, Austria. The study shows that a significant number of studies have been done on topics related to soil bioengineering techniques. However, these studies mainly address the problems at a micro scale, and hence, there is a gap between existing knowledge and practice. Therefore, there is an urgent need to not only study some of the fundamental processes and mechanisms involved in soil bioengineering techniques, but also to investigate these processes at a macro scale to evaluate their strengths and impacts when applied to stream banks and slopes.

Project details:

  • Project number: 2003036
  • Start date: 05/2003
  • Project status: Completed
  • Research area: Environment and Energy
  • Topics: Environment