TY - JOUR
T1 - Acclimation of a microbial community to degrade a combination of organochlorine herbicides in a biofilm reactor
AU - Nava-Arenas, Ixchel
AU - Ruiz-Ordaz, Nora
AU - Galindez-Mayer, Juvencio
AU - Ramos-Monroy, Oswaldo
AU - Juárez-Ramírez, Cleotilde
AU - Curiel-Quesada, Everardo
AU - Poggi-Varaldo, Héctor
PY - 2012
Y1 - 2012
N2 - When microbial communities are exposed to a changing or stressing environment, they adjust their metabolic activity; usually, the changes result in acclimated communities that are more able to survive and function under repeated applications of the stressing condition. In this work, the variation of the biodegradation kinetics during the acclimation of a microbial community fixed in a packed-bed biofilm reactor that mimics an aerobic biobarrier, was followed at several operational conditions along four thousand hours. The presence of eight genes involved in the biodegradation of four herbicides was also examined during acclimation of the microbial community. Those genes were atzA, atzB, atzC, and atzD encoding enzymes of the catabolic pathway of atrazine and simazine; the tfdA, tfdC and tfdD genes that encode enzymes of the catabolic pathway of 2,4-dichlorophenoxyacetic acid, and the puhB gene encoding the first enzyme of the degradation of diuron. The acclimation of the microbial consortium was manifested by changes in its metabolic activity, evaluated through quantitative parameters. By using the volumetric removal rates of COD and TOC RV,COD and RV,TOC, and the values of cell concentration, the variation in the specific removal rates RX,COD and RX,TOC was estimated along the bioprocess. The change in these values, joined to the gradual improvement of the specific removal rates RX of the four herbicides, indicate the long-term acclimation of the microbial consortium.
AB - When microbial communities are exposed to a changing or stressing environment, they adjust their metabolic activity; usually, the changes result in acclimated communities that are more able to survive and function under repeated applications of the stressing condition. In this work, the variation of the biodegradation kinetics during the acclimation of a microbial community fixed in a packed-bed biofilm reactor that mimics an aerobic biobarrier, was followed at several operational conditions along four thousand hours. The presence of eight genes involved in the biodegradation of four herbicides was also examined during acclimation of the microbial community. Those genes were atzA, atzB, atzC, and atzD encoding enzymes of the catabolic pathway of atrazine and simazine; the tfdA, tfdC and tfdD genes that encode enzymes of the catabolic pathway of 2,4-dichlorophenoxyacetic acid, and the puhB gene encoding the first enzyme of the degradation of diuron. The acclimation of the microbial consortium was manifested by changes in its metabolic activity, evaluated through quantitative parameters. By using the volumetric removal rates of COD and TOC RV,COD and RV,TOC, and the values of cell concentration, the variation in the specific removal rates RX,COD and RX,TOC was estimated along the bioprocess. The change in these values, joined to the gradual improvement of the specific removal rates RX of the four herbicides, indicate the long-term acclimation of the microbial consortium.
KW - Acclimation
KW - Biodegradation
KW - Biofilm reactor
KW - Herbicides
KW - Microbial consortium
UR - http://www.scopus.com/inward/record.url?scp=84871708332&partnerID=8YFLogxK
U2 - 10.30638/eemj.2012.218
DO - 10.30638/eemj.2012.218
M3 - Artículo
SN - 1582-9596
VL - 11
SP - 1753
EP - 1761
JO - Environmental Engineering and Management Journal
JF - Environmental Engineering and Management Journal
IS - 10
ER -