Effects of long-term isolation on genetic variation and within-island population genetic structure in Christmas Island (Indian Ocean) seabirds

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• 作者：James A. Morris-Pocock (1)
  Janos C. Hennicke (2) (3)
  Vicki L. Friesen (1)
  
• 关键词：Abbott’s booby ; Christmas Island ; Christmas Island frigatebird ; Cryptic population structure ; Fregata ; Population decline ; Sula
• 刊名：Conservation Genetics
• 出版年：2012
• 出版时间：December 2012
• 年：2012
• 卷：13
• 期：6
• 页码：1469-1481
• 全文大小：368KB
• 参考文献：1. Abbott CL, Double MC, Trueman JWH, Robinson A, Cockburn A (2005) An unusual source of mitochondrial heteroplasmy: duplicate mitochondrial control regions in / Thalassarche albatrosses. Mol Ecol 14:3605-613 CrossRef
  2. Akst EP, Boersma PD, Fleischer RC (2002) A comparison of genetic diversity between the Galápagos Penguin and the Magellanic Penguin. Cons Gen 3:375-83 CrossRef
  3. Andrews C (1900) A monograph of Christmas Island (Indian Ocean): physical features and geology. British Museum, London
  4. Baker AJ, Marshall HD (1997) Mitochondrial control-region sequences as tools for understanding the evolution of avian taxa. In: Mindell DP (ed) Avian molecular systematics and evolution. Academic Press, New York, pp 51-2 CrossRef
  5. Barlow EJ, Daunt F, Wanless S, álvarez D, Reid JM, Cavers S (2011) Weak large-scale population genetic structure in a philopatric seabird, the European Shag / Phalacrocorax aristotelis. Ibis 153:768-78 CrossRef
  6. BirdLife International (2011) Important Bird Areas factsheet: Christmas Island. http://www.birdlife.org. Accessed on 17 November 2011
  7. Boessenkool S, Star B, Seddon PJ, Waters JM (2010) Temporal genetic samples indicate small effective population size of the endangered yellow-eyed penguin. Conserv Genet 11:539-46 CrossRef
  8. Bourne W (1976) On subfossil bones of Abbott’s booby / Sula abbotti from the Mascarene Islands, with a note on the proportions and distribution of the Sulidae. Ibis 118:119-23 CrossRef
  9. Brook BW, Tonkyn DW, O’Grady JJ, Frankham R (2002) Contribution of inbreeding to extinction risk in threatened species. Conserv Ecol 6:16
  10. Claussen J (2005) Native plants of Christmas Island. Flora Aust Suppl Ser 22:1-46
  11. Clement M, Posada D, Crandall KA (2000) tcs : a computer program to estimate gene genealogies. Mol Ecol 9:1657-659 CrossRef
  12. Commonwealth of Australia (2001) Background information for the Abbott’s Booby, / Papasula abbotti Recovery Plan. Department of the Environment and Heritage, Canberra
  13. Cornuet JM, Luikart G (1996) Description and power analysis of two tests for detecting recent population bottlenecks from allele frequency data. Genetics 144:2001-014
  14. Dearborn DC, Hailer F, Fleischer RC (2008) Microsatellite primers for relatedness and population structure in great frigatebirds (Pelecaniformes: Fregatidae). Mol Ecol Resour 8:1399-401 CrossRef
  15. Drummond AJ, Rambaut A (2007) BEAST: Bayesian evolutionary analysis by sampling trees. BMC Evol Biol 7:214-21 CrossRef
  16. Duffie C, Glenn TC, Vargas FH, Parker PG (2009) Genetic structure within and between island populations of the flightless cormorant ( / Phalacrocorax harrisi). Mol Ecol 18:2103-111 CrossRef
  17. Eda M, Kuro-O M, Higuchi H, Hasegawa H, Koike H (2010) Mosaic gene conversion after a tandem duplication of mtDNA sequence in Diomedeidea (albatrosses). Genes Genet Syst 85:129-39 CrossRef
  18. Ellegren H, Moore S, Robinson N, Byrne K, Ward W, Sheldon BC (1997) Microsatellite evolution—a reciprocal study of repeat lengths at homologous loci in cattle and sheep. Mol Biol Evol 14:854-60 CrossRef
  19. Evanno G, Regnaut S, Goudet J (2005) Detecting the number of clusters of individuals using the sortware structure : a simulation study. Mol Ecol 14:2611-620 CrossRef
  20. Evans SR, Sheldon BC (2008) Interspecific patterns of genetic diversity in birds: correlations with extinction risk. Conserv Biol 22:1016-025 CrossRef
  21. Excoffier L, Smouse P, Quattro J (1992) Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data. Genetics 131:479-91
  22. Excoffier L, Laval G, Scneider S (2005) Arlequin (version 3.0): an integrated software package for population genetics data analysis. Evol Bioinform Online 1:47-0
  23. Faircloth BC, Ramos A, Drummond H, Gowaty PA (2009) Isolation and characterization of microsatellite loci from blue-footed boobies ( / Sula nebouxii). Conserv Genet Resour 1:159-62 CrossRef
  24. Fleischer RC, Boarman WI, Gonzalez EG et al (2008) As the raven flies: using genetic data to infer the history of invasive common raven ( / Corvus corax) populations in the Mojave Desert. Mol Ecol 17:464-74 CrossRef
  25. Franklin IR, Frankham R (1998) How large must populations be to retain evolutionary potential? Anim Conserv 1:69-3 CrossRef
  26. Friesen VL, Birt TP, Piatt JF, Golightly RT, Newman SH, Hébert PN, Congdon BC, Gissing G (2005) Population genetic structure and conservation of marbled murrelets ( / Brachyramphus marmoratus). Conserv Genet 6:607-14 CrossRef
  27. Garnett ST, Szabo JK, Dutson G (2011) The action plan for Australian birds 2010. CSIRO Publishing, Collingwood
  28. Guindon S, Gascuel O (2003) A simple, fast and accurate method to estimate large phylogenies by maximum likelihood. Syst Biol 52:696-04 CrossRef
  29. Hailer F, Schreiber EA, Miller JM, Levin II, Parker PG, Chesser RT, Fleischer RC (2011) Long-term isolation of a highly mobile seabird on the Galapagos. Proc Roy Soc Lond B Bio 278:817-25 CrossRef
  30. Hall TA (1999) BioEdit: a user friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucl Acids Symp Ser 41:95-8
  31. Hill R, Dunn A (2004) National recovery plan for the Christmas Island frigatebird / Fregata andrewsi. Commonwealth of Australia, Canberra
  32. Holderegger R, Kamm U, Gugerli F (2006) Adaptive vs. neutral genetic diversity: implications for landscape genetics. Landsc Ecol 21:797-07 CrossRef
  33. Huyvaert KP, Anderson DJ (2004) Limited natal dispersal in Nazca boobies / Sula granti. J Avian Biol 35:46-3 CrossRef
  34. Ibarguchi G, Gaston AJ, Friesen VL (2011) Philopatry, morphological divergence, and kin groups: structuring in thick-billed murres / Uria lomvia within a colony in Arctic Canada. J Avian Biol 42:134-50 CrossRef
  35. IUCN (2011) IUCN Red List of Threatened Species. Version 2011.2. http://www.iucnredlist.org. Accessed 17 November 2011
  36. Kennedy M, Spencer HG (2004) Phylogenies of the frigatebirds (Fregatidae) and tropicbirds (Phaethonidae), two divergent groups of the traditional order Pelecaniformes, inferred from mitochondrial DNA sequences. Mol Phylogenet Evol 31:31-8 CrossRef
  37. Kimura M (1980) A simple method for measuring evolutionary rates of base substitutions through comparative studies of nucleotide sequences. J Mol Evol 16:111-20 CrossRef
  38. Kuhner MK (2006) lamarc 2.0: maximum likelihood and Bayesian estimation of population parameters. Bioinformatics 22:768-70 CrossRef
  39. Lambert DM, Ritchie PA, Millar CD, Holland B, Drummond AJ, Baroni C (2002) Rates of evolution in ancient DNA from Adélie penguins. Science 295:2270-273 CrossRef
  40. Lande R (1995) Mutation and conservation. Conserv Biol 9:782-91 CrossRef
  41. Lawrence HA, Scofield RP, Crockett DE, Millar CD, Lambert DM (2008) Ancient genetic variation in one of the world’s rarest seabirds. Heredity 101:543-47 CrossRef
  42. Luikart G, Ryman N, Tallmon DA, Schwartz MK, Allendorf FW (2010) Estimation of census and effective population sizes: the increasing usefulness of DNA-based approaches. Conserv Genet 11:355-73 CrossRef
  43. Lumsden L, Schulz M, Ashton R, Middleton D (2007) Investigation of threats to the Christmas Island Pipistrelle. A report to the Department of the Environment and Water Resources. Arthur Rylah Institute for Environmental Research, Department of Sustainability and Environment. Heidelberg, Victoria
  44. Milot E, Weimerskirch H, Duchesne P, Bernatchez L (2007) Surviving with low genetic diversity: the case of albatrosses. Proc R Soc Lond B Biol Sci 274:779-87 CrossRef
  45. Milot E, Weimerskirch H, Bernatchez L (2008) The seabird paradox: dispersal, genetic structure and population dynamics in a highly mobile, but philopatric albatross species. Mol Ecol 17:1658-673 CrossRef
  46. Molecular Ecology Resources Primer Development Consortium, An J, Bechet A et al (2010) Permanent genetic resources added to Molecular Ecology Resources Database 1(October), pp. 2009-0, November 2009. Mol Ecol Resour 10:404-08 CrossRef
  47. Morris-Pocock JA, Steeves TE, Estela FA, Anderson DJ, Friesen VL (2010a) Comparative phylogeography of brown ( / Sula leucogaster) and red-footed boobies ( / S. sula): the influence of physical barriers and habitat preference on gene flow in pelagic seabirds. Mol Phylogenet Evol 54:883-96 CrossRef
  48. Morris-Pocock JA, Taylor SA, Birt TP, Friesen VL (2010b) Concerted evolution of duplicated mitochondrial control regions in three related seabird species. BMC Evol Biol 10:14 CrossRef
  49. Morris-Pocock JA, Anderson DJ, Friesen VL (2011) Mechanisms of global diversification in the brown booby ( / Sula leucogaster) revealed by uniting statistical phylogeographic and multilocus phylogenetic methods. Mol Ecol 20:2835-850 CrossRef
  50. Munilla I, Arcos JM, Oro D, álvarez D, Leyenda PM, Velando A (2011) Mass mortality of seabirds in the aftermath of the / Prestige oil spill. Ecosphere 2:83 CrossRef
  51. Narum SR (2006) Beyond Bonferroni: less conservative analyses for conservation genetics. Conserv Genet 7:783-87 CrossRef
  52. Nei M (1987) Molecular evolutionary genetics. Columbia University Press, New York
  53. Nelson JB (1974) The distribution of Abbott’s booby / Sula abbotti. Ibis 116:368-69 CrossRef
  54. Nelson JB (1978) The Sulidae: gannets and boobies. Oxford University Press, Oxford
  55. Nelson JB (2005) Pelicans, cormorants and their allies. Oxford University Press, Oxford
  56. Nims BD, Vargas FH, Merkel J, Parker PG (2008) Low genetic diversity and lack of population structure in the endangered Galápagos penguin ( / Spheniscus mendiculus). Conserv Genet 9:1413-420 CrossRef
  57. Ohta T, Kimura M (1973) A model of mutation appropriate to estimate the number of electrophoretically detectable alleles in a finite population. Genetic Res 22:201-04 CrossRef
  58. Patterson SA, Morris-Pocock JA, Friesen VL (2011) A multilocus phylogeny of the Sulidae (Aves: Pelecaniformes). Mol Phylogenet Evol 58:181-91 CrossRef
  59. Peery MZ, Hall LA, Sellas A, Beissinger ST, Moritz C, Bérubé M et al (2010) Genetic analyses of historic and modern marbled murrelets suggest decoupling of migration and gene flow after habitat fragmentation. Proc R Soc Lond B Biol Sci 277:697-06 CrossRef
  60. Posada D (2008) jModelTest: phylogenetic model averaging. Mol Biol Evol 25:1253-256 CrossRef
  61. Primmer CR, M?ller AP, Ellegren H (1996) A wide-range survey of cross-species microsatellite amplification in birds. Mol Ecol 5:365-78
  62. Pritchard JK, Stephens M, Donnelly P (2000) Inference of population structure using multilocus genotype data. Genetics 155:945-59
  63. Rains D, Weimerskirch H, Burg TM (2011) Piecing together the global population puzzle of wandering albatrosses: genetic analysis of the Amsterdam albatross / Diomedea amsterdamensis. J Avian Biol 42:69-9 CrossRef
  64. Reed DH, Frankham R (2001) How closely correlated are molecular and quantitative measures of genetic variation? A meta-analysis. Evolution 55:1095-103
  65. Reville BJ, Tranter JD, Yorkston HD (1990) Conservation of the endangered Abbott’s booby on Christmas Island 1983-989. Australian National Parks Wildlife Service, Occasional Paper no. 20, Canberra
  66. Ritchie PA, Millar CA, Gibb GC, Baroni C, Lambert DM (2004) Ancient DNA enables timing of the Pleistocene origin and Holocene expansion of two Adélie penguin lineages in Antarctica. Mol Biol Evol 21:240-48 CrossRef
  67. Sambrook JD, Russell W (2001) Molecular cloning: a laboratory manual, 3rd edn. Cold Spring Harbor Laboratory Press, New York
  68. Schreiber EA, Burger J (2002) Biology of marine birds. CRC Press, Boca Raton
  69. Spennemann DHR (1998) Excessive exploitation of central Pacific seabird populations at the turn of the 20th century. Mar Ornithol 26:49-7
  70. Steadman DW (1989) Extinction of birds in Eastern Polynesia: a review of the record, and comparisons with other Pacific island groups. J Archaeol Sci 16:177-05 CrossRef
  71. Steadman DW, Pahlavan DS, Kirch PV (1990) Extinction, biogeography, and human exploitation of birds on Tikopia and Anuta, Polynesian outliers in the Solomon Islands. Bishop Mus Occas Pap 30:118-53
  72. Steeves TE, Anderson DJ, Friesen VL (2005) A role for nonphysical barriers to gene flow in the diversification of a highly vagile seabird, the masked booby ( / Sula dactylatra). Mol Ecol 14:3877-887 CrossRef
  73. Steeves TE, Holdaway RN, Hale ML, McLay E, McAllan IAW, Christian M, Hauber ME, Bunce M (2010) Merging ancient and modern DNA: extinct seabird taxon rediscovered in the North Tasman Sea. Biol Lett 6:94-7 CrossRef
  74. Stoddart DR (1981) Abbott’s booby on assumption. Atoll Res Bull 255:27-2
  75. Stokes T (1988) A review of the birds of Christmas Island, Indian Ocean. Australian National Parks Wildlife Service, Occasional Paper no. 16, Canberra
  76. Tajima F (1983) Evolutionary relationships of DNA sequences in finite populations. Genetics 105:437-60
  77. Tajima F (1989) Statistical method for testing the neutral mutation hypothesis by DNA polymorphism. Genetics 123:585-95
  78. Taylor SA, Morris-Pocock JA, Sun Z, Friesen VL (2010) Isolation and characterization of ten microsatellite loci in Blue-footed ( / Sula nebouxii) and Peruvian Boobies ( / S. variegata). J Ornithol 151:525-28 CrossRef
  79. Taylor SA, Maclagen L, Anderson DJ, Friesen VL (2011a) Could specialization to cold-water upwelling systems influence gene flow and population differentiation in marine organisms? A case study using the blue-footed booby, / Sula nebouxii. J Biogeogr 38:883-93 CrossRef
  80. Taylor SA, Zavalaga CB, Luna-Jorquera G, Simeone A, Anderson DJ, Friesen VL (2011b) Panmixia and high genetic diversity in a Humboldt Current endemic, the Peruvian Booby ( / Sula variegata). J Ornithol 152:623-30 CrossRef
  81. Thompson JD, Higgins DG, Gibson TJ (1994) ClustalW: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice. Nucl Acids Res 22:4673-680 CrossRef
  82. Traill LW, Brook BW, Frankham RR, Bradshaw CJA (2010) Pragmatic population viability targets in a rapidly changing world. Biol Conserv 143:28-4 CrossRef
  83. Voris HK (2000) Maps of Pleistocene sea levels in Southeast Asia: shorelines, river systems and time durations. J Biogeogr 27:1153-167 CrossRef
  84. Wanless RM, Angel A, Cuthbert RJ, Hilton GM, Ryan PG (2007) Can predation by invasive mice drive seabird extinctions? Biol Lett 3:241-44 CrossRef
  85. Weimerskirch H, Brothers N, Jouventin P (1997) Population dynamics of wandering albatross / Diomedea exulans and Amsterdam albatross / D. amsterdamensis in the Indian Ocean and their relationships with long-line fisheries: conservation implications. Biol Conserv 79:257-70 CrossRef
  86. Yorkston HD, Green PT (1997) The breeding distribution and status of Abbott’s booby (Sulidae: / Papasula abbotti) on Christmas Island, Indian Ocean. Biol Conserv 79:293-01 CrossRef
  
• 作者单位：James A. Morris-Pocock (1)
  Janos C. Hennicke (2) (3)
  Vicki L. Friesen (1)
  
  1. Department of Biology, Queen’s University, Kingston, ON, K7L 3N6, Canada
  2. Department of Animal Ecology and Conservation, Biozentrum Grindel, Universit?t Hamburg, Martin-Luther-King Platz 3, 20146, Hamburg, Germany
  3. Centre d’Etudes Biologiques de Chizé, CNRS UPR 1934, 79360, Villiers-en-Bois, France
  
• ISSN：1572-9737

文摘

Seabirds endemic to remote oceanic islands face several unique threats to their population viability. Christmas Island is a small oceanic island with remarkable seabird biodiversity, including two endangered endemics: Christmas Island frigatebirds (Fregata andrewsi) and Abbott’s boobies (Papasula abbotti). Christmas Island seabirds are currently threatened by habitat destruction at breeding sites due to phosphate mining and by the adverse effects of the invasive yellow crazy ant (Anoplolepis gracilipes); however, conservation initiatives are limited by a paucity of genetic data on the breeding seabirds. To address this shortcoming, we collected genetic samples from five breeding seabird species, including the two endemics. We surveyed mitochondrial and nuclear genetic diversity, estimated effective population sizes, and tested whether species had undergone recent or long-term effective population size decline. Effective population sizes for Christmas Island frigatebirds and Abbott’s boobies were both low (approximately 5,000 and 2,100 individuals, respectively). Moreover, four out of the five species appeared to have undergone long-term population decline, suggesting that mitigation of the threats to population viability of Christmas Island seabirds is critical. We also detected cryptic population genetic structure within Abbott’s booby, perhaps due to in situ divergence on Christmas Island or due to the influx of individuals from an extirpated colony. Within-island differentiation may be common among endemic seabird species due to high levels of natal philopatry, and we suggest that careful consideration of population genetic structure on small geographic scales is crucial when designing conservation initiatives.