New Zealand Journal of Agricultural Research abstracts
Microbial degradation of DDT and its residues--a review
J. M. AISLABIE
Manaaki Whenua - Landcare Research
Private Bag 3127
Hamilton, New Zealand
N. K. RICHARDS
H. L. BOUL
AgResearch
Canterbury Agriculture and Science Centre
P. O. Box 60
Lincoln, New Zealand
Abstract Microbial degradation of DDT residues is one
mechanism for loss of DDT from soil. In this review pathways for biodegradation
of DDT, DDD, and DDE by bacteria and fungi are described. Biodegradation of DDT
residues can proceed in soil, albeit at a slow rate. To enhance degradation in
situ a number of strategies are proposed. They include the addition of
DDT-metabolising microbes to contaminated soils and/or the manipulation of
environmental conditions to enhance the activity of these microbes.
Ligninolytic fungi and chlorobiphenyl degrading bacteria are promising
candidates for remediation. Flooding of soil and the addition of organic matter
can enhance DDT degradation. As biodegradation may be inhibited by lack of
access of the microbe to the contaminant, the soil may need to be pre-treated
with a surfactant. Unlike DDT, little is known about the biodegradation of DDE,
and this knowledge is crucial as DDE can be the predominant residue in some
soils.
Keywords DDT; DDD; DDE; soil; microbial degradation
New Zealand Journal of Agricultural Research, 1997, Vol. 40: 269-282
0028-8233/97/4002-0269 $7.00/0 (c) The Royal Society of New Zealand
1997
PDF file of entire paper: medium quality (1136K); (scanned from paper original: notes about this process)
This year's abstracts |
Journal home page |
All abstracts |
Publishing home page
