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PeerJ  2015 

Sampling locality is more detectable than taxonomy or ecology in the gut microbiota of the brood-parasitic Brown-headed Cowbird (Molothrus ater)

DOI: 10.7717/peerj.321

Keywords: Gut microbiota,Brood parasite,Nature vs. nurture

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Abstract:

Brown-headed Cowbirds (Molothrus ater) are the most widespread avian brood parasite in North America, laying their eggs in the nests of approximately 250 host species that raise the cowbird nestlings as their own. It is currently unknown how these heterospecific hosts influence the cowbird gut microbiota relative to other factors, such as the local environment and genetics. We test a Nature Hypothesis (positing the importance of cowbird genetics) and a Nurture Hypothesis (where the host parents are most influential to cowbird gut microbiota) using the V6 region of 16S rRNA as a microbial fingerprint of the gut from 32 cowbird samples and 16 potential hosts from nine species. We test additional hypotheses regarding the influence of the local environment and age of the birds. We found no evidence for the Nature Hypothesis and little support for the Nurture Hypothesis. Cowbird gut microbiota did not form a clade, but neither did members of the host species. Rather, the physical location, diet and age of the bird, whether cowbird or host, were the most significant categorical variables. Thus, passerine gut microbiota may be most strongly influenced by environmental factors. To put this variation in a broader context, we compared the bird data to a fecal microbiota dataset of 38 mammal species and 22 insect species. Insects were always the most variable; on some axes, we found more variation within cowbirds than across all mammals. Taken together, passerine gut microbiota may be more variable and environmentally determined than other taxonomic groups examined to date.

References

[1]  Abecia L, Fondevila M, Balcells J, McEwan NR. 2007. The effect of lactating rabbit does on the development of the caecal microbial community in the pups they nurture. Journal of Applied Microbiology 103:557-564
[2]  Anderson KE, Russell JA, Moreau CS, Kautz S, Sullam KE, Hu Y, Basinger U, Mott BM, Buck N, Wheeler DE. 2012. Highly similar microbial communities are shared among related and trophically similar ant species. Molecular Ecology 21:2282-2296
[3]  Bckhed F, Ley R, Sonnenburg J, Peterson D, Gordon J. 2005. Host-bacterial mutualism in the human intestine. Science 307:1915-1920
[4]  Bailey MT, Walton JC, Dowd SE, Weil ZM, Nelson RJ. 2010. Photoperiod modulates gut bacteria composition in male Siberian hamsters Phodopus sungorus. Brain, Behavior, and Immunity 24:577-584
[5]  Banks JC, Cary SC, Hogg ID. 2009. The phylogeography of Adelie penguin faecal flora. Environmental Microbiology 11:577-588
[6]  Benson AK, Kelly SA, Legge R, Ma F, Low SJ, Kim J, Zhang M, Oh PL, Nehrenberg D, Hua K, Kachman SD, Moriyama EN, Walter J, Peterson DA, Pomp D. 2010. Individuality in gut microbiota composition is a complex polygenic trait shaped by multiple environmental and host genetic factors. Proceedings of the National Academy of Sciences of the United States of America 107:18933-18938
[7]  Brucker RM, Bordenstein SR. 2013. The hologenomic basis of speciation: gut bacteria cause hybrid lethality in the genus Nasonia. Science 341:667-669
[8]  Caporaso JG, Kuczynski J, Stombaugh J, Bittinger K, Bushman FD, Costello EK, Fierer N, Pea AG, Goodrich JK, Gordon JI, Huttley GA, Kelley ST, Knights D, Koenig JE, Ley RE, Lozupone CA, Mcdonald D, Muegge BD, Pirrung M, Reeder J, Sevinsky JR, Turnbaugh PJ, Walters WA, Widmann J, Yatsunenko T, Zaneveld J, Knight R. 2010. QIIME allows analysis of high-throughput community sequencing data. Nature Methods 7:335-336
[9]  Claesson MJ, Jeffery IB, Conde S, Power SE, O’Connor EM, Cusack S, Harris HMB, Coakley M, Lakshminarayanan B, O’Sullivan O, Fitzgerald GF, Deane J, O’Connor M, Harnedy N, O’Connor K, O’Mahony D, van Sinderen D, Wallace M, Brennan L, Stanton C, Marchesi JR, Fitzgerald AP, Shanahan F, Hill C, Ross RP, O’Toole PW. 2012. Gut microbiota composition correlates with diet and health in the elderly. Nature 488:178-184
[10]  Clarke KR. 1993. Non-parametric multivariate analysis of changes in community structure. Australian Journal of Ecology 18:117-143
[11]  Clarridge JE. 2004. Impact of 16S rRNA gene sequence analysis for identification of bacteria on clinical microbiology and infectious diseases. Clinical Microbiology Reviews 17:840-862
[12]  Clemente JC, Ursell LK, Parfrey LW, Knight R. 2012. The impact of the gut microbiota on human health: an integrative view. Cell 148:1258-1270
[13]  Colman DR, Toolson EC, Takacs-Vesbach CD. 2012. Do diet and taxonomy influence insect gut bacterial communities? Molecular Ecology 21:5124-5137
[14]  Cook MI, Beissinger SR, Toranzos GA, Arendt WJ. 2005. Incubation reduces microbial growth on eggshells and the opportunity for trans-shell infection. Ecology Letters 8:532-537
[15]  Dethlefsen L, Eckburg P, Bik E, Relman D. 2006. Assembly of the human intestinal microbiota. Trends in Ecology & Evolution 21:517-523
[16]  Dewar ML, Arnould JPY, Dann P, Trathan P, Groscolas R, Smith S. 2013. Interspecific variations in the gastrointestinal microbiota in penguins. MicrobiologyOpen 2:195-204
[17]  Dominguez-Bello MG, Blaser M. 2011. The human microbiota as a marker for migrations of individuals and populations. Annual Review of Anthropology 40:451-474
[18]  Gloor GB, Hummelen R, Macklaim JM, Dickson RJ, Fernandes AD, MacPhee R, Reid G. 2010. Microbiome profiling by illumina sequencing of combinatorial sequence-tagged PCR products. PLoS ONE 5(10):e15406
[19]  Godoy-Vitorino F, Goldfarb KC, Brodie EL, Garcia-Amado MA, Michelangeli F, Domínguez-Bello MG. 2010. Developmental microbial ecology of the crop of the folivorous hoatzin. The ISME Journal 4:611-620
[20]  Godoy-Vitorino F, Leal SJ, Díaz WA, Rosales J, Goldfarb KC, García-Amado MA, Michelangeli F, Brodie EL, Domínguez-Bello MG. 2012. Differences in crop bacterial community structure between hoatzins from different geographical locations. Research in Microbiology 163:211-220
[21]  Goslee SC, Urban DL. 2007. The ecodist package for dissimilarity-based analysis of ecological data. Journal of Statistical Software 22:1-19
[22]  Gündüz E, Douglas AE. 2009. Symbiotic bacteria enable insect to use a nutritionally inadequate diet. Proceedings of the Royal Society B: Biological Sciences 276:987-991
[23]  Hahn C, Reisen WK. 2011. Heightened exposure to parasites favors the evolution of immunity in brood parasitic cowbirds. Evolutionary Biology 38:214-224
[24]  Hahn DC, Smith GW. 2011. Life history trade-offs between longevity and immunity in the parasitic brown-headed Cowbird? Open Evolution Journal 5:8-13
[25]  Heijtz RD, Wang S, Anuar F, Qian Y, Bjorkholm B, Samuelsson A, Hibberd ML, Forssberg H, Pettersson S. 2011. Normal gut microbiota modulates brain development and behavior. Proceedings of the National Academy of Sciences of the United States of America 108:3047-3052
[26]  Huber T, Faulkner G, Hugenholtz P. 2004. Bellerophon: a program to detect chimeric sequences in multiple sequence alignments. Bioinformatics 20:2317-2319
[27]  Kilner RM, Madden JR, Hauber ME. 2004. Brood parasitic cowbird nestlings use host young to procure resources. Science 305:877-879
[28]  Klomp JE, Murphy MT, Smith SB, McKay JE, Ferrera I, Reysenbach AL. 2008. Cloacal microbial communities of female spotted towhees Pipilo maculatus: microgeographic variation and individual sources of variability. Journal of Avian Biology 39:530-538
[29]  Kohl KD. 2012. Diversity and function of the avian gut microbiota. Journal of Comparative Physiology B 182:591-602
[30]  Kozlovic D, Knapton R, Barlow J. 1996. Unsuitability of the house finch as a host of the brown-headed Cowbird. The Condor 98:253-258
[31]  Kyle P, Kyle G. 1993. An evaluation of the role of microbial flora in the salivary transfer technique for hand-rearing chimney swifts. Wildlife Rehabilitation 8:65-71
[32]  Lee S, Sung J, Lee J, Ko GP. 2011. A comparison of the gut microbiota of healthy adult twins living Korea and United States. Applied and Environmental Microbiology 77:7433-7437
[33]  Ley R, Hamady M, Lozupone C, Turnbaugh P, Ramey R, Bircher J, Schlegel M, Tucker T, Schrenzel M, Knight R. 2008. Evolution of mammals and their gut microbes. Science 320:1647-1651
[34]  Ley R, Peterson D, Gordon J. 2006. Ecological and evolutionary forces shaping microbial diversity in the human intestine. Cell 124:837-848
[35]  Lowther PE. 1993. Brown-headed Cowbird (Molothrus ater) In: Poole A, ed. The birds of North America. Ithaca, New York: The Birds of North America Online. vol. 47
[36]  Lowther PE. 2013. Lists of victims and hosts of the parasitic cowbirds (Molothrus). Available at http://fieldmuseum.org/explore/brood-parasitism-host-lists
[37]  Lozupone C, Knight R. 2005. UniFrac: a new phylogenetic method for comparing microbial communities. Applied and Environmental Microbiology 71:8228-8235
[38]  Lozupone CA, Stombaugh JI, Gordon JI, Jansson JK, Knight R. 2012. Diversity, stability and resilience of the human gut microbiota. Nature 489:220-230
[39]  Lucas FS, Heeb P. 2005. Environmental factors shape cloacal bacterial assemblages in great tit Parus major and blue tit P. caeruleus nestlings. Journal of Avian Biology 36:510-516
[40]  McArdle BH, Anderson MJ. 2001. Fitting multivariate models to community data: a comment on distance-based redundancy analysis. Ecology 82:290-297
[41]  Moreno J, Briones V, Merino S, Ballesteros C, Sanz JJ, Tomás G, Brittingham M. 2003. Beneficial effects of cloacal bacteria on growth and fledging size in nestling pied flycatchers (Ficedula hypoleuca) in Spain. Auk 120:784-790
[42]  Muegge B, Kuczynski J, Knights D, Clemente J, Gonzalez A, Fontana L, Henrissat B, Knight R, Gordon J. 2011. Diet drives convergence in gut microbiome functions across mammalian phylogeny and within humans. Science 332:970-974
[43]  Ochman H, Worobey M, Kuo C-H, Ndjango J-BN, Peeters M, Hahn BH, Hugenholtz P. 2010. Evolutionary relationships of wild hominids recapitulated by gut microbial communities. PLoS Biology 8:e1000546
[44]  Oksanen J, Blanchet FG, Kindt R, Legendre P, Minchin PR, O’Hara RB, Simpson GL, Solymos P, Stevens MHH, Wagner H. 2011. Vegan: community ecology package (R package version 2.0-2). Available at http://CRAN.R-project.org/package=vegan
[45]  Ortega C. 1998. Cowbirds and other brood parasites. Tucson: University of Arizona Press.
[46]  Ortega C, Cruz A. 1992. Differential growth patterns of nestling brown-headed cowbirds and yellow-headed blackbirds. The Auk 109:368-376
[47]  Price MN, Dehal PS, Arkin AP. 2009. FastTree: computing large minimum-evolution trees with profiles instead of a distance matrix. Molecular Biology and Evolution 26:1641-1650
[48]  Quinn G, Keough M. 2002. Experimental design and data analysis for biologists. Cambridge: Cambridge University Press.
[49]  R Development Core Team. 2010. R: a language for statistical computing. R Foundation for Statistical Computing, Vienna, Austria
[50]  Ruiz-Rodriguez M, Valdivia E, Soler JJ, Martin-Vivaldi M, Martin-Platero AM, Martinez-Bueno M. 2009a. Symbiotic bacteria living in the hoopoe’s uropygial gland prevent feather degradation. Journal of Experimental Biology 212:3621-3626
[51]  Ruiz-Rodriguez M, Lucas FS, Heeb P, Soler JJ. 2009b. Differences in intestinal microbiota between avian brood parasites and their hosts. Biological Journal of the Linnean Society 96:406-414
[52]  Schloss PD, Handelsman J. 2005. Introducing DOTUR, a computer program for defining operational taxonomic units and estimating species richness. Applied and Environmental Microbiology 71:1501-1506
[53]  Schloss PD, Westcott SL, Ryabin T, Hall JR, Hartmann M, Hollister EB, Lesniewski RA, Oakley BB, Parks DH, Robinson CJ, Sahl JW, Stres B, Thallinger GG, Van Horn DJ, Weber CF. 2009. Introducing mothur: open-source, platform-independent, community-supported software for describing and comparing microbial communities. Applied and Environmental Microbiology 75:7537-7541
[54]  Scupham A. 2007. Succession in the intestinal microbiota of preadolescent turkeys. FEMS Microbiology Ecology 60:136-147
[55]  Scupham A. 2009. Campylobacter colonization of the turkey intestine in the context of microbial community development. Applied and Environmental Microbiology 75:3564-3571
[56]  Sekirov I, Russell SL, Antunes LCM, Finlay BB. 2010. Gut microbiota in health and disease. Physiological Reviews 90:859-904
[57]  Sharon G, Segal D, Ringo JM, Hefetz A, Zilber-Rosenberg I, Rosenberg E. 2010. Commensal bacteria play a role in mating preference of Drosophila melanogaster. Proceedings of the National Academy of Sciences of the United States of America 107:20051-20056
[58]  Spaw CD, Rohwer S. 1987. A comparative study of eggshell thickness in cowbirds and other passerines. The Condor 89:307-318
[59]  Turnbaugh PJ, Quince C, Faith JJ, Mchardy AC, Yatsunenko T, Niazi F, Affourtit J, Egholm M, Henrissat B, Knight R, Gordon JI. 2010. Organismal, genetic, and transcriptional variation in the deeply sequenced gut microbiomes of identical twins. Proceedings of the National Academy of Sciences of the United States of America 107:7503-7508
[60]  Vaishampayan PA, Kuehl JV, Froula JL, Morgan JL, Ochman H, Francino MP. 2010. Comparative metagenomics and population dynamics of the gut microbiota in mother and infant. Genome Biology and Evolution 2:53-66
[61]  van Dongen W, White J, Brandl H, Moodley Y, Merkling T, Leclaire S, Blanchard P, Danchin é, Hatch S, Wagner R. 2013. Age-related differences in the cloacal microbiota of a wild bird species. BMC Ecology 13:11
[62]  Walter J, Ley R. 2011. The human gut microbiome: ecology and recent evolutionary changes. Annual Review of Microbiology 65:411-429
[63]  Wang Q, Garrity G, Tiedje JM, Cole JR. 2007. Naive Bayesian classifier for rapid assignment of rRNA sequences into the new bacterial taxonomy. Applied and Environmental Microbiology 73:5261-5267
[64]  Woolfenden BE, Gibbs HL, Sealy SG, McMaster DG. 2003. Host use and fecundity of individual female brown-headed cowbirds. Animal Behaviour 66:95-106
[65]  Zilber-Rosenberg I, Rosenberg E. 2008. Role of microorganisms in the evolution of animals and plants: the hologenome theory of evolution. FEMS Microbiology Reviews 32:723-735
[66]  Zoetendal EG, Akkermans ADL, Akkermans-van Vliet WM, de Visser JAGM, de Vos WM. 2001. The host genotype affects the bacterial community in the human gastronintestinal tract. Microbial Ecology in Health and Disease 13:129-134

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