000 02140cam a2200349 a 4500
003 EG-GiCUC
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008 140903s2013 ua h f m 000 0 eng d
040 _aEG-GiCUC
_beng
_cEG-GiCUC
041 0 _aeng
049 _aDeposite
097 _aPh.D
099 _aCai01.07.06.Ph.D.2013.Os.A
100 0 _aOsama Mohammad Mostafa Darwesh
245 1 0 _aApplication of nanostructured microbial catalysts for bioremediation of some organic wastes /
_cOsama Mohammad Mostafa Darwesh ; Supervised Mohamed Zakaria Sedik , Olfat Sayed Barakat , Hassan Moawad Abdelall
246 1 5 _aاستخدام المحفزات الميكروبية المرتبطة بتركيبات نانومترية للمعالجة الحيوية لبعض الملوثات العضوية
260 _aCairo :
_bOsama Mohammad Mostafa Darwesh ,
_c2013
300 _a155 P. :
_bfacsimiles ;
_c25cm
502 _aThesis (Ph.D.) - Cairo University - Faculty of Agriculture - Department of Microbiology
520 _aThis study focuses on the isolation, screening of bacterial isolates and azo dye removal by bacteria isolated from dumping site of textile industry wastewater as well as using nanotechnology applications to enhance the bioremediation process. Fourteen isolates were isolated and used for further experiments. One of them was the most efficient in decolourization of Reactive Blue (RB) azo dye. This isolate was identified by morphological, biochemical and 16s rDNA sequences as Pseudomonas aeruginosa strain OS4 (NCBI accession number: KC762943). Bioremediation of azo dyes was found to occur efficiently under two sequential phases; starting with anoxic phase and followed by aerobic one
530 _aIssued also as CD
653 4 _aBioremediation
653 4 _aPrototype bioreactor
653 4 _aPseudomonas aeruginosa strain OS4
700 0 _aHassan Moawad Abdelall ,
_eSupervisor
700 0 _aMohamed Zakaria Sedik ,
_eSupervisor
700 0 _aOlfat Sayed Barakat ,
_eSupervisor
856 _uhttp://172.23.153.220/th.pdf
905 _aNazla
_eRevisor
905 _aSamia
_eCataloger
942 _2ddc
_cTH
999 _c47129
_d47129