Modern approaches for the study of bioremediation of s-triazine herbicides in agricultural soils
Modern approaches for the study of bioremediation of s-triazine herbicides in agricultural soils
The extensive use of s-triazine herbicides in diverse countries causes environmental and health concern. Simazine and atrazine are s-triazines widely used in agriculture and forestry. Although, natural dissipation of s-triazines in soils by physicochemical processes has been described, the main mechanism for their removal is biological degradation by microorganisms. Bioremediation is a successful strategy for the removal of i-triazines in soil. For bioaugmentation processes, s-triazine-degrading bacteria are required, which isolation from agricultural soils was described in this report. Studies of s-triazine adsorption and leaching in soil are useful to determine the bioavailability of these herbicides. The detection of s-triazine-degrading catabolic activity by most-probable-number (MPN) and the reduction of the respiration indicator 2,3,5-triphenyl-2H-tetrazolium chloride (TTC) were presented. The relative abundances of s-triazine catabolic genes in soil were analyzed by the MPN-PCR technique. Culture-independent molecular methods such as FISH, T-RFLP and clone libraries are useful to study the effects of herbicide application and bioaugmentation on soil microbial communities and their dynamics. These experimental methods allow the design of biotechnological strategies for the clean-up of s-triazine contaminated soils.
19-30
Hernandez Garcia, Marcela
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Morgante, V.
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Flores, C.
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Villalobos, P.
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Gonzalez, M.
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Miralles, P.
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Dinamarca, A.
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Seeger, M.
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2008
Hernandez Garcia, Marcela
e73477e7-cf3e-4f50-97c8-4494c5b05cd0
Morgante, V.
78aa114c-78f1-4434-977f-72984b0f515d
Flores, C.
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Villalobos, P.
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Gonzalez, M.
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Miralles, P.
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Dinamarca, A.
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Seeger, M.
a5b75037-97d0-41df-a164-c8f2cc762838
Hernandez Garcia, Marcela, Morgante, V., Flores, C., Villalobos, P., Gonzalez, M., Miralles, P., Dinamarca, A. and Seeger, M.
(2008)
Modern approaches for the study of bioremediation of s-triazine herbicides in agricultural soils.
Journal of soil science and plant nutrition, 8 (2), .
(doi:10.4067/S0718-27912008000200004).
Abstract
The extensive use of s-triazine herbicides in diverse countries causes environmental and health concern. Simazine and atrazine are s-triazines widely used in agriculture and forestry. Although, natural dissipation of s-triazines in soils by physicochemical processes has been described, the main mechanism for their removal is biological degradation by microorganisms. Bioremediation is a successful strategy for the removal of i-triazines in soil. For bioaugmentation processes, s-triazine-degrading bacteria are required, which isolation from agricultural soils was described in this report. Studies of s-triazine adsorption and leaching in soil are useful to determine the bioavailability of these herbicides. The detection of s-triazine-degrading catabolic activity by most-probable-number (MPN) and the reduction of the respiration indicator 2,3,5-triphenyl-2H-tetrazolium chloride (TTC) were presented. The relative abundances of s-triazine catabolic genes in soil were analyzed by the MPN-PCR technique. Culture-independent molecular methods such as FISH, T-RFLP and clone libraries are useful to study the effects of herbicide application and bioaugmentation on soil microbial communities and their dynamics. These experimental methods allow the design of biotechnological strategies for the clean-up of s-triazine contaminated soils.
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Published date: 2008
Organisations:
Centre for Biological Sciences
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Local EPrints ID: 400794
URI: http://eprints.soton.ac.uk/id/eprint/400794
ISSN: 0718-9516
PURE UUID: a62e2d74-2808-49ac-8fc2-74960c548a07
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Date deposited: 30 Sep 2016 10:22
Last modified: 15 Mar 2024 02:29
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Author:
Marcela Hernandez Garcia
Author:
V. Morgante
Author:
C. Flores
Author:
P. Villalobos
Author:
M. Gonzalez
Author:
P. Miralles
Author:
A. Dinamarca
Author:
M. Seeger
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