Environmental Biotechnology for Waste Treatment

  • Gary S. Sayler
  • Robert Fox
  • James W. Blackburn

Part of the Environmental Science Research book series (ESRH, volume 41)

Table of contents

  1. Front Matter
    Pages i-ix
  2. Current Perceptions

  3. Field-Scale Case Studies

    1. Maureen E. Leavitt, Duane A. Graves, Craig A. Lang
      Pages 71-84
    2. Edgar Berkey, Jessica M. Cogen, Val J. Kelmeckis, Lawrence T. McGeehan, A. Thomas Merski
      Pages 85-90
    3. Geoffrey C. Compeau, William D. Mahaffey, Lori Patras
      Pages 91-109
  4. Technical Issues and Concerns in Implementation

    1. Karolyn L. Hardaway, Mark S. Katterjohn, Craig A. Lang, Maureen E. Leavitt
      Pages 111-125
    2. Ronald Unterman
      Pages 159-162
    3. Michael J. McFarland, Ronald C. Sims, James W. Blackburn
      Pages 163-174
    4. J. C. Spain, C. A. Pettigrew, B. E. Haigler
      Pages 175-184
  5. Nontechnical Issues and Concerns in Implementation

  6. International Activities

  7. Summary

    1. Robert A. Goldstein, Al W. Bourquin, Thomas W. Federle, C. P. Leslie Grady, William D. Mahaffey
      Pages 271-278
  8. Back Matter
    Pages 279-288

About this book


The use of biotechnical processes in control of environmental pollution and in haz­ ardous waste treatment is viewed as an advantageous alternative or adduct to phys­ ical chemical treatment technologies. Yet, the development and implementation of both conventional and advanced biotechnologies in predictable and efficacious field applications suffer from numerous technical, regulatory, and societal uncertainties. With the application of modern molecular biology and genetic engineering, there is clear potential for biotechnical developments that will lead to breakthroughs in controlled and optimized hazardous waste treatment for in situ and unit process use. There is, however, great concern that the development of these technologies may be needlessly hindered in their applications and that the fundamental research base may not be able to sustain continued technology development. Some of these issues have been discussed in a fragmented fashion within the research and development community. A basic research agenda has been established to promote a sustainable cross-disciplinary technology base. This agenda includes developing new and improved strains for biodegradation, improving bioanalytical methods to measure strain and biodegradation performance, and providing an in­ tegrated environmental and reactor systems analysis approach for process control and optimization.


biology biotechnology development environment genetic engineering

Editors and affiliations

  • Gary S. Sayler
    • 1
  • Robert Fox
    • 2
  • James W. Blackburn
    • 1
  1. 1.Center for Environmental BiotechnologyKnoxvilleUSA
  2. 2.International Technology CorporationKnoxvilleUSA

Bibliographic information