Abstract
Due to declines in the Alaska breeding population, the Steller’s eider (Polysticta stelleri) was listed as threatened in North America in 1997. Periodic non-breeding in Russia and Alaska has hampered field-based assessments of behavioral patterns critical to recovery plans, such as levels of breeding site fidelity and movements among three regional populations: Atlantic-Russia, Pacific-Russia and Alaska. Therefore, we analyzed samples from across the species range with seven nuclear microsatellite DNA loci and cytochrome b mitochondrial (mt)DNA sequence data to infer levels of interchange among sampling areas and patterns of site fidelity. Results demonstrated low levels of population differentiation within Atlantic and Pacific nesting areas, with higher levels observed between these regions, but only for mtDNA. Bayesian analysis of microsatellite data from wintering and molting birds showed no signs of sub-population structure, even though band-recovery data suggests multiple breeding areas are present. We observed higher estimates of F-statistics for female mtDNA data versus male data, suggesting female-biased natal site fidelity. Summary statistics for mtDNA were consistent with models of historic population expansion. Lack of spatial structure in Steller’s eiders may result largely from insufficient time since historic population expansions for behaviors, such as natal site fidelity, to isolate breeding areas genetically. However, other behaviors such as the periodic non-breeding observed in Steller’s eiders may also play a more contemporary role in genetic homogeneity, especially for microsatellite loci.
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Anderson MG, Rhymer JM, Rowher FC (1992). Philopatry dispersal and the genetic structure of waterfowl populations. In: Batt BD, Afton AD, Anderson MG, Ankney CD, Johnson DH, Kadlec JA, Krapu GL. (eds). Ecology and Management of Breeding Waterfowl. University of Minnesota Press, Minneapolis Minnesota , pp. 365–395
Anonymous (1997) Endangered and threatened wildlife and plants: threatened status for the Alaska breeding population of the Steller’s eider. U.S. Federal Register 62 (112): 31748–31757
Aris-Brosou S, Excoffier L (1996) The impact of population expansion and mutation rate heterogeneity on DNA sequence polymorphism. Mol. Biol. Evol. 13: 494–504
Avise JC, Alisauskas RT, Nelson WS, Ankney CD (1992) Matriarchal population genetic structure in an avian species with female natal philopatry. Evolution, 46, 1804–1096
Avise JC (2000) Phylogeography: The History and Formation of Species. Harvard University Press, Cambridge, Massachusetts
Buchholz WG, Pearce JM, Pierson BJ, Scribner KT (1998) Dinucleotide repeat polymorphisms in waterfowl (family Anatidae): characterization of a sex-linked (Z-specific) and 14 bi-parentally inherited loci. J. Anim. Genet., 29: 323–325
Burnham KP, Anderson DR (1998) Model selection and inference: a practical information-theoretic approach. Springer-Verlag, New York, New York
Callen DF, Thompson AD, Shen Y, Phillips HA, Richards RI, Mulley JC, Sutherland GR (1993) Incidence and origin of "null" alleles in the (AC)n microsatellite markers. Am. J. Hum. Genet., 52: 922–927
Camphuysen CJ, Berrevoets CM, Cremers HJ, Dekinga A, Dekker R, Ens BJ, van der Have TM, Kats RK, Kuiken T, Leopold MF (2002) Mass mortality of common eiders (Somateria mollissima) in the Dutch Wadden Sea, winter 1999/2000: starvation in a commercially exploited wetland of international importance. Biol. Conserv. 106: 303–317
Clement M, Posada D, Crandall D (2000) TCS: a computer programme to estimate gene genealogies. Mol. Ecol., 9: 1657
Congdon BC, Piatt JH, Martin K, Friesen VL (2000) Mechanisms of population differentiation in marbled murrelets: historical versus contemporary processes. Evolution 54: 974–986
Cronin MA, Grand JB, Esler D, Derksen DV, Scribner KT (1996) Breeding populations of northern pintails have similar mitochondrial DNA. Can. J. Zool. 74: 992–999
Dau CP, Flint PL, Petersen MR (2000) Distribution of recoveries of Steller’s eiders banded on the lower Alaska Peninsula, Alaska. J. Field Ornith. 71: 541–548
Donne-Gousse C, Laudet V, Hanni C (2002) A molecular phylogeny of Anseriformes based on mitochondrial DNA analysis. Mol. Phylogen. Evol. 23: 339–356
Eggert LS, Mundy NI, Woodruff DS (2004) Population structure of loggerhead shrikes in the California Channel Islands. Mol. Ecol. 13: 2121–2133
Fields R, Scribner KT (1997) Isolation and characterization of novel waterfowl microsatellite loci, cross-species comparisons and research applications. Mol. Ecol., 6: 160–164
Flint PL, Herzog MP (1999) Breeding of Steller’s eiders, Polysticta stelleri, on the Yukon-Kuskokwim Delta, Alaska. Can. Field Nat. 113: 306–308
Flint PL, Fowler AC, Rockwell RF (1999) Modeling bird mortality associated with the M/V Citrus oil spill off St. Paul Island, Alaska. Ecol. Model. 117: 261–267
Flint PL, Petersen MR, Dau CP, Hines JE, Nichols JD (2000) Annual survival and site fidelity of Steller’s eiders molting along the Alaska Peninsula. J. Wild. Manag. 64:261–268
Fredrickson LH (2001) Steller’s eider (Polysticta stelleri). In: Poole A, Gill F (eds), The Birds of North America, No. 571. The Academy of Natural Sciences, Philadelphia Pennsylvania
Fu YX (1997) Statistical tests on neutrality of mutations against population growth, hitchhiking and background selection. Genetics 147: 915–925
Gay L, Defos Du Ray P, Mondain-Monval JY, Crochet PA (2004) Phylogeography of a game species: the red-crested pochard (Netta rufina) and consequences for its management. Mol. Ecol. 13: 1035–1045
Guo SW, Thompson EA (1992) Performing the exact test of Hardy-Weinberg proportion for multiple alleles. Biometrics, 48: 361–372
Haavie J, Saetre GP, Moum T (2000) Discrepancies in population differentiation at microsatellites, mitochondrial DNA and plumage colour in the pied flycatcher – inferring evolutionary processes. Mol. Ecol. 9: 1137–1148
Hewitt G (2000) The genetic legacy of the Quaternary ice ages. Nature 405: 907–913
Hodges JI, Eldridge WD (2001) Aerial surveys of eiders and other waterbirds on the eastern Arctic coast of Russia. Wildfowl 52: 127–142
Jones RD (1965) Returns from Steller’s eiders banded at Izembek Bay, Alaska. The Wildfowl Trust 16: 83–85
Kertell K (1991) Disappearance of the Steller’s eider from the Yukon-Kuskokwim Delta, Alaska. Arctic 44: 177–187
Kvist L, Ruokonen M, Lumme J, Orell M (1999) The colonization history and present-day population structure of the European great tit (Parus major major). Heredity 82: 495–502
Lanctot RB, Goatcher B, Scribner KT, Talbot S, Pierson B, Esler D, Zwiefelhofer D (1999) Harlequin duck recovery from the Exxon Valdez oil spill: A population genetics perspective. Auk, 116: 781–791
Liebers D, Helbig AJ (2002) Phylogeography and colonization history of lesser black-backed gulls (Larus fuscus) as revealed by mtDNA sequences. J. Evol. Bio., 15: 1021–1033
Lopez JV, Yuhki N, Masuda R, Modi M, O’Brien SJ (1994) Numt, a recent transfer and tandem amplification of mitochondrial DNA to the nuclear genome of the domestic cat. J. Mol. Evol., 39: 174–190
Mallek EJ (2002) Aerial breeding pair surveys of the Arctic Coastal Plain of Alaska, 2001. Unpubl. report. US Fish and Wildlife Service, Fairbanks, Alaska
McCracken KG, Sheldon FH (1997) Avian vocalizations and phylogenetic signal. Proc. Nat. Acad. Sci. USA, 94: 3833–3836
McCracken KG, Johnson WP, Sheldon FH (2001) Molecular population genetics, phylogeography, and conservation biology of the mottled duck (Anas fulvigula). Conserv. Genet. 2: 87–102
Mehl KR, Alisauskas RT, Hobson KA, Kellett DK. (2004) To winter east or west? Heterogeneity in winter philopatry in a central-arctic population of King Eiders. Condor 106: 241–251
Nei M (1987) Molecular Evolutionary Genetics. Columbia University Press New York, New York
Nei M, Tajima F (1983) Maximum likelihood estimation of the number of nucleotide substitutions from restriction site data. Genetics 105: 207–217
Nesje M, Røed KH, Lifjeld JT, Lindberg P, Steen OF (2000) Genetic relationships in the peregrine falcon (Falco peregrinus) analyzed by microsatellite DNA markers. Mol. Ecol. 9: 53–60
Niemuth ND, Solberg JW (2003) Response of waterbirds to number of wetlands in the Prairie Pothole region of North Dakota, U.S.A. Waterbirds 26: 233–238
Nygård TB, Larsen BH, Follestad A, Strann KB (1988) Numbers and distribution of wintering waterfowl in Norway. Wildfowl 39: 164–176
Nygård TB, Frantzen B, Svazas S (1995) Steller’s eiders Polysticta stelleri wintering in Europe: numbers, distribution, and origin. Wildfowl 46: 140–155
Pearce JM, Pierson BJ, Talbot SL, Derksen DV, Kraege D, Scribner KT (2000) A genetic evaluation of morphology used to identify harvested Canada geese. J. Wild. Manag. 64: 863–874
Pearce JM, Talbot SL, Pierson BJ, Scribner KT, Dickson DL, Mosbech A (2004) Lack of spatial genetic structure among nesting and wintering king eiders. Condor 106: 229–240
Petersen MR (1981) Populations, feeding ecology and molt of Steller’s eiders. Condor 83: 256–262
Petersen MR, Bustnes JO, Systad GH (2005) Distribution patterns of Steller’s eiders Polysticta stelleri in northern Norway and northwest Russia. J. Avian Bio., 37, In Press
Posada D, Crandall KA (1998) Modeltest: testing the model of DNA substitution. Bioinformatics 14: 817–818
Pritchard JK, Stephens M, Donnelly PJ (2000) Inference of population structure using multilocus genotype data. Genetics 155: 945–959
Quakenbush LT, Day RH, Anderson BA, Pitelka FA, McCaffery BJ (2002) Historical and present breeding season distribution of Steller’s eiders in Alaska. West. Birds 33: 99–120
Quakenbush LT, Suydam R, Obritschkewitsch T, Deering M (2004) Breeding biology of Steller’s eiders (Polysticta stelleri) near Barrow, Alaska, 1991–1999. Arctic 57: 166–182
Raymond M, Rousset F (1995) GENEPOP Version 3.2a: Population genetics software for exact tests and ecumenicism. J. Hered. 86: 248–249
Robertson GJ, Cooke F (1999) Winter philopatry in migratory waterfowl. Auk 116: 20–34
Roeder AD, Marshall RK, Mitchelson AJ, Visagathilagar T, Ritchie PA, Love DR, Pakai TJ, McPartlan HC, Murray ND, Robinson NA, Kerry KR, Lambert DM (2001) Gene flow on the ice: genetic differentiation among Adelie penguin colonies around Antarctica. Mol. Ecol. 10: 1645–1656
Rogers AR (1995) Genetic evidence for a Pleistocene population explosion. Evolution 49: 608–615
Rogers AA, Harpending HC (1992) Population growth makes waves in the distribution of pairwise genetic differences. Mol. Biol. Evol. 9: 552–569
Rozas J, Rozas R (1999) DNASP, version 3.1. An integrated programme for molecular population genetics and molecular evolution analysis. Bioinformatics 15: 174–175
Schneider S, Roessli D, Excoffier L (2000) Arlequin Version 2.0: A Software for Population Genetics Data Analysis. Genetics and Biometry Laboratory, Department of Anthropology, University of Geneva, Switzerland
Scribner KT, Petersen MR, Fields RL, Talbot SL, Pearce JM, Chesser RK (2001) Sex-biased gene flow in spectacled eiders (Anatidae): inferences from molecular markers with contrasting modes of inheritance. Evolution 55: 2105–2115
Scribner KT, Talbot SL, Pearce JM, Pierson BJ, Bollinger KS, Derksen DV (2003) Phylogeography of Canada geese (Branta canadensis) in Western North America. Auk 120: 889–907
Sefc KM, Payne RB, Sorenson MD (2003) Microsatellite amplification from museum feather samples: effects of fragment size and template concentration on genotyping errors. Auk 120, 982–989
Solovieva DV, Phil S, Fox AD, Bustnes JO (1998) Steller’s eider (Polysticta stelleri). In: The Birds of the Western Palearctic (eds. Perrins CM, Snow DW). Oxford University Press
Solovieva DV (1999) Biology and Bioenergetics of the Steller’s Eide (Polysticta stelleri). Ph.D. dissertation, Russian Academy of Sciences, Zoological Institute, St. Petersburg, Russia
Sorenson MD, Quinn TW (1998) Numts: a challenge for avian systematics and population biology. Auk 115: 214–221
Sorenson MD, Ast JC, Dimcheff DE, Yuri T, Mindell DP (1999) Primers for a PCR-based approach to mitochondrial genome sequencing in birds and other vertebrates. Mol. Phylogen. Evol. 12: 105–114
Spruell P, Hemmingsen AR, Howell PJ, Kanada N, Allendorf FW (2003) Conservation genetics of bull trout: Geographic distribution of variation at microsatellite loci. Conserv. Genet. 4: 17–29
Tajima F (1989) The amount of DNA polymorphism maintained in a finite population when the neutral mutation rate varies among sites. Genetics. 143: 1457–1465
Tamura K, Nei M (1993) Estimation of the number of nucleotide substitutions in the control region of mitochondrial DNA in humans and chimpanzees. Mol. Biol. Evol. 10: 512–526
Templeton AR, Crandall KA, Sing CF (1992) A cladistic analysis of phenotypic association with haplotypes inferred from restriction endonuclease mapping III Cladogram estimation. Genetics. 132: 619–633
Tiedemann R, Paulus KB, Scheer M, Von Kistowski KG, Skirnisson K, Bloch D, Dam M (2004) Mitochondrial DNA and microsatellite variation in the eider duck (Somateria mollissima) indicate stepwise postglacial colonization of Europe and limited current long-distance dispersal. Mol. Ecol. 13: 1481–1494
U.S.Fish and Wildlife Service and National Marine Fisheries Service (1996) Policy regarding the recognition of distinct vertebrate population segments under the Endangered Species Act. U.S. Federal Register 61: 4721–4725
Wahlund S (1928) Composition of populations from the perspective of the theory of heredity. Hereditas 11: 65–105
Weir BS, Cockerham CC (1984) Estimating F-statistics for the analysis of population structure. Evolution 38: 1358–1370
Zink RM, Drovetski SV, Rohwer S (2002) Phylogeographic patterns in the great spotted woodpecker Dendrocopos major across Eurasia. J. Avian Biol. 33: 175–178
Acknowledgments
We thank the following individuals for providing samples: P. Flint (US Geological Survey), B.␣Anderson (Alaska Biological Research, Inc.), R.␣Suydam (North Slope Borough), L. Quakenbush (Alaska Department of Fish and Game), A. Degtyarev (Yakutsk Institute of Biology), D. Solovieva (Lena Delta State Nature Reserve), C. Dau, P.␣Martin, T. Obirschkiwitz, T. Swem, N. Rojek (US Fish and Wildlife Service), and J.O. Bustnes (Norwegian Institute for Nature Research). K. Sage assisted with laboratory analyses. P. Flint, R. Lanctot, D. Esler, D. Derksen, members of the Steller’s eider Recovery Team, and two anonymous reviewers provided constructive comments on this manuscript. Financial support for analysis was provided by the US Fish and Wildlife Service, the Alaska SeaLife Center, and the US Geological Survey.
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Pearce, J., Talbot, S., Petersen, M. et al. Limited genetic differentiation among breeding, molting, and wintering groups of the threatened Steller’s eider: the role of historic and contemporary factors. Conserv Genet 6, 743–757 (2005). https://doi.org/10.1007/s10592-005-9034-4
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DOI: https://doi.org/10.1007/s10592-005-9034-4