Journal article
Biodegradation of s-triazine herbicides at low concentrations in surface waters
Water Research, Vol.28(11), pp.2289-2296
1994
Abstract
Fourteen bacterial strains were isolated from industrial waste (SL) agricultural soil (S), surface water (B) or water treatment filter material (WT) following enrichment in a minimal salts medium (MSM) containing 5-10 mg 1-1 of both atrazine and simazine. Biodegradation by the isolates of 1 ?g 1-1 of atrazine and 1 ?g 1-1 simazine in 100 ml MSM or reservoir surface water was assessed by comparison with non-inoculated controls. Extraction with dichloromethane recovered 100±5% of both s-triazines in non-inoculated MSM and reservoir surface water. Recovery was not reduced by adsorption of the s-triazines to bacteria, and no abiotic degradation occurred over the incubation periods. Isolate S4 degraded 20±7% of the atrazine and isolates S7 and S8 degraded 40±12% of the simazine in MSM after 7d at 30°C. Decreasing the NH4NO3-N in the MSM from 35 mg 1-1 to 1 mg 1-1 stimulated biodegradation of atrazine by a fourth isolate (SL3). At 10°C isolates BI, SL2, S4 and S6 each biodegraded 20±1% of the atrazine and isolate SL2 biodegraded 30±7% of the simazine in surface water after 15 d. No biodegradation occurred in MSM at 10°C. Granular activated carbon (GAC, 1 g 1-1) was added to surface water (10 ?g 1-1 atrazine and 10 ?g 1-1 simazine) which adsorbed 9.7 ?gg-1 s-triazine and provided sites for bacterial attachment. Recovery of adsorbed s-triazines (1, 10 and 40 ?g 1-1) by Soxhlet extraction of non-inoculated GAC was 97±1.5%. Inoculation of s-triazine-degraders into surface water containing GAC reduced the solution concentration (0.3 ?g 1-1 atrazine and 0.3 ?g 1-1 simazine) by up to 86±18% (S8) after incubation for 15 d at 10°C. Biodegradation of 25 ?g 1-1 atrazine and 28 ?g 1-1 simazine in surface water amended with 0.5 g 1-1 GAC and inoculated with isolate WT1 was 50±4% (atrazine) and 38±4% (simazine) after 21 d at 10°C. Biodegradation by WT1 attached to 0.5 g GAC in surface water (0.5 ?g 1-1 atrazine and 6 ?g 1-1 simazine) was increased from zero atrazine and 23±7.6% simazine to 40±5.3% atrazine and 71±5.6% simazine following transfer of bioaugmented GAC into fresh surface water. Inoculation of GAC filters with selected strains has potential as a biotreatment for surface water containing s-triazine herbicides. © 1994.
Details
- Title
- Biodegradation of s-triazine herbicides at low concentrations in surface waters
- Authors
- S J Feakin (Author) - University of Kent, United KingdomE Blackburn (Author) - University of Kent, United KingdomRichard G Burns (Author) - University of Kent, United Kingdom
- Publication details
- Water Research, Vol.28(11), pp.2289-2296
- Publisher
- IWA Publishing
- Date published
- 1994
- DOI
- 10.1016/0043-1354(94)90044-2
- ISSN
- 0043-1354
- Organisation Unit
- University of the Sunshine Coast, Queensland; Office of the Deputy Vice-Chancellor (Research and Innovation)
- Language
- English
- Record Identifier
- 99449550402621
- Output Type
- Journal article
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