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Journal of Arid Land  2017, Vol. 9 Issue (1): 153-159    DOI: 10.1007/s40333-016-0026-7     CSTR: 32276.14.s40333-016-0026-7
Orginal Article     
Fecal microbiota of three bactrian camels (Camelus ferus and Camelus bactrianus) in China by high throughput sequencing of the V3-V4 region of the 16S rRNA gene
Lei YUAN1, Aladaer QI2,3,*(), Yun CHENG1, Guli SAGEN1, Yuan QU4, Bin LIU3
1 Xinjiang Lop Nor Wild Camel National Nature Reserve, Urumqi 830011, China
2 Animal Science Department, Xinjiang Agricultural University, Urumqi 830052, China
3 Key Laboratory of Biogeography and Bioresources in Arid Land, Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, Urumqi 830011, China
4 The People’s Hospital of Xinjiang Uygur Autonomous Region, Urumqi 830001, China;
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Abstract  

This study aimed to reveal the microbial diversity in the fecal samples of bactrian camels using the 16S rRNA sequencing analysis on the Illumina MiSeq platform. Three fecal samples were collected from two geographical regions in China. Operational taxonomic unit (OTU) clustering was performed by identifying an OTU at 97% sequence identity. The alpha and beta diversities were applied to estimate the differences in microbial diversity among the three fecal samples. Totally, 4409, 3151 and 4075 OTUs in the fecal samples were identified in the Lop Nor wild camel (Camelus ferus), the domestic camel (C. bactrianus) and Dunhuang wild camel (C. ferus), respectively. The majority of bactreria were affiliated with phylum Firmicutes and Bacteroidetes in the three samples. The wild camels had higher gastrointestinal tract microbial diversity than the domestic one, while the microbial composition of the Lop Nor wild camel shared higher similarity with domestic camel at the genus and family levels than that of the Dunhuang wild camel did. Our results may provide a theoretical basis for assessing their health conditions and may thus be useful for protecting the critically endangered species of C. ferus.



Key wordsbactrian camels      Camelus ferus      fecal microbiota      16S rRNA      high-throughput sequencing     
Received: 25 March 2016      Published: 31 July 2017
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Cite this article:

Lei YUAN, Aladaer QI, Yun CHENG, Guli SAGEN, Yuan QU, Bin LIU. Fecal microbiota of three bactrian camels (Camelus ferus and Camelus bactrianus) in China by high throughput sequencing of the V3-V4 region of the 16S rRNA gene. Journal of Arid Land, 2017, 9(1): 153-159.

URL:

http://jal.xjegi.com/10.1007/s40333-016-0026-7     OR     http://jal.xjegi.com/Y2017/V9/I1/153

1 B?ckhed F, Ding H, Wang T, et al.2004. The gut microbiota as an environmental factor that regulates fat storage. Proceedings of the National Academy Sciences of the United States of America, 101(44): 15718-15723.
2 Chao A.1984. Nonparametric estimation of the number of classes in a population. Scandinavian Journal of Statistics, 11: 265-270.
3 Chao A, Shen T J.2003. Nonparametric estimation of Shannon’s index of diversity when there are unseen species in sample. Environmental and Ecological Statistics, 10(4): 429-443.
4 Chao A, Shen T J.2004. Nonparametric prediction in species sampling. Journal of Agricultural, Biological, and Environmental Statistics, 9(3): 253-269.
5 Costa M C, Arroyo LG, Allen-Vercoe E, et al.2012. Comparison of the fecal microbiota of healthy horses and horses with colitis by high throughput sequencing of the V3-V5 region of the 16S rRNA gene. PLoS ONE, 7(7): e41484.
6 Hamady M, Lozupone C, Knight R.2010. Fast UniFrac: facilitating high-throughput phylogenetic analyses of microbial communities including analysis of pyrosequencing and PhyloChip data. The ISME Journal, 4(1): 17-27.
7 Hare J.2004. The wild Bactrian camel; a critically endangered species. Endangered Species Update, 21(1): 32-35.
8 Ji R, Cui P, Ding F, et al.2009. Monophyletic origin of domestic bactrian camel (Camelus bactrianus) and its evolutionary relationship with the extant wild camel (Camelus bactrianus ferus). Animal Genetics, 40(4): 377-382.
9 King E E, Smith R P, St-Pierre B, et al.2011. Differences in the rumen methanogen populations of lactating Jersey and Holstein dairy cows under the same diet regimen. Applied and Environmental Microbiology, 77(16): 5682-5687.
10 Mizrahi-Man O, Davenport E R, Gilad Y.2013. Taxonomic classification of bacterial 16S rRNA genes using short sequencing reads: evaluation of effective study designs. PLoS ONE, 8(1): e53608.
11 Samsudin A A, Evans P N, Wright A D G, et al.2011. Molecular diversity of the foregut bacteria community in the dromedary camel (Camelus dromedarius). Environmental Microbiology, 13(11): 3024-3035.
12 Schloss P D, Westcott S L, Ryabin T, et al.2009. Introducing mothur: open-source, platform-independent, community-supported software for describing and comparing microbial communities. Applied and Environmental Microbiology, 75(23): 7537-7541.
13 Whitford M F, Teather R M, Forster R J.2001. Phylogenetic analysis of methanogens from the bovine rumen. BMC Microbiology, 1(1): 5.
14 Wolf M, Müller T, Dandekar T, et al.2004. Phylogeny of Firmicutes with special reference to Mycoplasma (Mollicutes) as inferred from phosphoglycerate kinase amino acid sequence data. International Journal of Systematic and Evolutionary Microbiology, 54(3): 871-875.
15 Wright A D G, Toovey A F, Pimm C L.2006. Molecular identification of methanogenic archaea from sheep in Queensland, Australia reveal more uncultured novel archaea. Anaerobe, 12(3): 134-139.
16 Wright A D G, Auckland C H, Lynn D H.2007. Molecular diversity of methanogens in feedlot cattle from Ontario and Prince Edward Island, Canada. Applied and Environmental Microbiology, 73(13): 4206-4210.
17 Wright A D G, Ma X L, Obispo N E.2008. Methanobrevibacter phylotypes are the dominant methanogens in sheep from Venezuela. Microbial Ecology, 56(2): 390-394.
18 Wu X Y, Zhang H H, Chen J, et al.2016. Comparison of the fecal microbiota of dholes high-throughput Illumina sequencing of the V3-V4 region of the 16S rRNA gene. Applied Microbiology and Biotechnology, 100(8): 3577-3586.
19 Yuan L, Ma H, Cheng Y, et al.2015. Qualitative study of wild camels (Camelus ferus) home range in Lop Nur, China. Biodiversity Science, 23(3): 314-320. (in Chinese)
20 Zhao Y P, Li B, Bai D Y, et al.2016. Comparison of fecal microbiota of Mongolian and Thoroughbred Horses by high-throughput sequencing of the V4 Region of the 16S rRNA gene. Asian-Australasian Journal of Animal Sciences, 29(9): 1345-1352.