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Skatole remediation potential of R hodopseudomonas palustris WKU ‐ KDNS 3 isolated from an animal waste lagoon
Author(s) -
Sharma N.,
Doerner K.C.,
Alok P.C.,
Choudhary M.
Publication year - 2015
Publication title -
letters in applied microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.698
H-Index - 110
eISSN - 1472-765X
pISSN - 0266-8254
DOI - 10.1111/lam.12379
Subject(s) - rhodopseudomonas palustris , skatole , environmental remediation , animal waste , environmental chemistry , wastewater , rhodopseudomonas , environmental science , chemistry , biology , waste management , bacteria , ecology , contamination , environmental engineering , botany , photosynthesis , biochemistry , genetics , indole test , engineering
Skatole (3MI) is a major contributor to the malodor emission resulting from ruminant and human faeces. The remediation of malodor has been a major challenge for the animal production industry. In this investigation, a pure culture of purple nonsulphur bacterium capable of degrading 3MI was isolated from a swine waste lagoon using an enrichment technique and identified as Rhodopseudomonas palustris WKU‐KDNS3 based on 16S rRNA analysis and UV‐visible spectroscopy. The cell structure of the organism was confirmed by transmission electron microscopy. Growth profile and 3MI removal pattern were determined using media supplemented with 0·1 μ mol 3MI under short‐term and long‐term aerobic growth conditions. The organism grew on 3MI media as luxuriantly as control (without 3MI). Growth of R. palustris WKU‐KDNS3 demonstrated a significant reduction in the level of 3MI (>48%) in 72 h. The level of 3MI dropped further by >93% of the total concentration present in the medium in 21 days. Skatole remediation potential of R. palustris WKU‐KDNS3 can be judiciously utilized in various animal and industrial waste treatment systems. Significance and Impact of the Study Odour pollution is a serious environmental problem, particularly in the agriculture industry, and technologies based on chemical remediation are less effective and cost prohibitive. In this study, the newly isolated Rhodopseudomonas palustris strain WKU‐KDNS3 causes biodegradation of 3‐methylindole (skatole), which is one of the most offensive odorants present in wastewater lagoons. Aerobic degradation of this widely spread aromatic pollutant by Rhodopseudomonas strain is a significant finding that enhances the present understanding about metabolic versatility of purple photosynthetic nonsulphur bacteria. The remediation potential of R. palustris WKU‐KDNS3 can also be gainfully utilized in various waste treatment facilities.