Assessing Bacterial Diversity in Tropical Bovine Cow Dung Through Illumina Sequencing
Bacterial community in cow dung
Olanike Buraimoh
a:1:{s:5:"en_US";s:20:"University of Lagos";}Keywords:
Illumina platform, Cow dung, 16S rRNA, Community, Microbiota, FirmicutesReferences
ADEBUSOYE S.A., ILORI M.O., AMUND O.O., TENIOLA O.D., OLATOPE S.O. 2007. Microbial degradation of petroleum hydrocarbons in a polluted tropical stream. World J Microbiol Biotechnol., 23:1149–1159 Google Scholar
Available from: https://www.nass.usda.gov/Charts_and_Maps/Cattle/ Google Scholar
BASAK A.B., LEE M.W. 2001a. Efficacy of cow dung for controlling root rot and Fusarium wilt diseases of cucumber plant. Abstract published in the 2001 Korean Society of Plant Pathology annual meeting and international conference, held on 25-30th October 2001, Kyongju TEMF hotel, Korea, p.49. Google Scholar
BASAK A.B., MIN WOONG LEE,TAE SOO LEE. 2002. Inhibitive Activity of Cow Urine and Cow Dung against Sclerotinia sclerotiorum of Cucumber Mycobiol., 30(3): 175-179 Google Scholar
ENCARNA V.Z., TRINIDAD D.M., MARGARITA P., RAU R., RAMO´N R.M., TOMA G.V. 2004. Paenibacillus favisporus sp. nov., a xylanolytic bacterium isolated from cow faeces. Int J Syst Evol Microbiol., 54:59–64 Google Scholar
ERICKSON M.C., LIAO J., JIANG X., DOYLE M.P. 2014. Inactivation of pathogens during aerobic composting of fresh and aged dairy manure and different carbon amendments. J Food Prot., 77:1911–1918. https://doi.org/10.4315/0362-028X.JFP-14-194 Google Scholar
GIRIJA D., DEEPA K., XAVIER F., ANTHONY I., SHIDHI P.R. 2013..Analysis of cowdung mircrobiota- Metagenomic approach. India J. Biotechnol., 12:372-378 Google Scholar
GOTELLI N.J., COLWELL R.K. 2001. Estimating species richness. In: Magurran AE, McGill BJ (eds). Frontiers in Measuring Biodiversity. New York: Oxford University Press, 39–54. Google Scholar
GREEN J.L., BOHANNAN B.J., WHITAKER R.J. 2008. Microbial biogeography: from Taxonomy to traits. Sci., 320(5879):1039–1043. Google Scholar
GUPTA1 K.K., ANEJA K.R., RANA D. 2016. Status of cow dung as a bioresource for sustainable development Bioresour. Bioprocess., 3:28. DOI 10.1186/s40643-016-0105-9 Google Scholar
KALPANA B., DINESH K.M. 2019. Decoding multifarious role of cow dung bacteria in mobilization of zinc fractions along with growth promotion of C. annuum L. Scientific Reports, 9:14232 Google Scholar
LOWRY C.A., HOLLIS J.H., DE VRIES A., PAN B., BRUNET L.R., HUNT J.R.F., LIGHTMAN S.L. 2007. Identification of an immune-responsive mesolimbocortical serotonergic system: potential role in regulation of emotional behavior. Neuroscience 146:756–772 Google Scholar
MASELLA A.P., BARTRAM A.K., TRUSZKOWSKI J.M., BROWN D.G., NEUFELD J.D. 2012. PANDAseq: paired-end assembler for illumina sequences. BMC Bioinformatics 13:31. Google Scholar
PANDEY P.K., KASS P.H., SOUPIR M.L., BISWAS S., SINGH V.P. 2014. Contamination of water resources by pathogenic bacteria. AMB Express., 4:1. https://doi.org/10.1186/s13568-014-0051 Google Scholar
RADA V., VLKOVA E., NEVORAL J., TROJANOVA I. 2006. Comparison of bacterial flora and enzymatic activity in faeces of infants and calves. FEMS Microbiol Lett., 258:25-28. Google Scholar
RAMACHANDRAN V., JAGANATHAN R., CHINNAMBEDU R.S. 2016. Biocontrol and Other Beneficial Activities of Bacillus subtilis Strains Isolated from Cow Dung, Soil Compost and Soil Rhizosphere Microflora. Bacteriology and Virology Research., 1: 31-35 Google Scholar
RANDHAWA GK, KULLAR JS. 2011. Bioremediation of pharmaceuticals, pesticides,and petrochemicals with gomeya/cow dung. ISRN Pharmacol. doi:10.5402/2011/362459 Google Scholar
SAWANT AA., HEGDE N.V., STRALEY B.A., DONALDSON S.C., LOVE B.C., KNABEL S.J., JAYARAO B.M. 2007. Antimicrobial resistant enteric bacteria from dairy cattle. Appl Environ Microbiol., 73:156–163 Google Scholar
SHARMA C.K. 2011. Biogas—a boon for India. Biofuels 2:3. Google Scholar
SWAIN M.R., RAY R.C., NAUTIYAL C.S. 2008. Biocontrol efficacy of Bacillus subtilis strains isolated from cowdung against post-harvest yam (Discorea rotundat L) pathogens. Curr. Issue Microbiol., 57:407-411. Google Scholar
U.S. Department of Agriculture (USDA). National Agricultural Statistics Service. 2016. Google Scholar
UMANU G., NWACHUKWU S.C.U., OLASODE O.K. 2013. Effects of cow dung on microbial degradation of motor oil in lagoon water. GJBB., 2:542–548 Google Scholar
VIJAYARAGHAVAN P., VIJAYAN A., ARUN A., JENISHA J., VINCENT S.G.P. 2012. Cow dung: a potential biomass substrate for the production of detergent-stable dehairing protease by alkaliphilic Bacillus subtilis strain VV. Springer plus 1:76 Google Scholar
a:1:{s:5:"en_US";s:20:"University of Lagos";}
