Dr. Matt Reudink

Professor



Faculty of Science

Thompson Rivers University


Linking Isotopes and Panmixia: High Within-Colony Variation in Feather δ2H, δ13C, and δ15N across the Range of the American White Pelican


Journal article


M. Reudink, C. Kyle, A. McKellar, C. Somers, Robyn L F Reudink, T. K. Kyser, S. Franks, J. Nocera
PLoS ONE, 2016

Semantic Scholar DOI PubMedCentral PubMed
Cite

Cite

APA   Click to copy
Reudink, M., Kyle, C., McKellar, A., Somers, C., Reudink, R. L. F., Kyser, T. K., … Nocera, J. (2016). Linking Isotopes and Panmixia: High Within-Colony Variation in Feather δ2H, δ13C, and δ15N across the Range of the American White Pelican. PLoS ONE.


Chicago/Turabian   Click to copy
Reudink, M., C. Kyle, A. McKellar, C. Somers, Robyn L F Reudink, T. K. Kyser, S. Franks, and J. Nocera. “Linking Isotopes and Panmixia: High Within-Colony Variation in Feather δ2H, δ13C, and δ15N across the Range of the American White Pelican.” PLoS ONE (2016).


MLA   Click to copy
Reudink, M., et al. “Linking Isotopes and Panmixia: High Within-Colony Variation in Feather δ2H, δ13C, and δ15N across the Range of the American White Pelican.” PLoS ONE, 2016.


BibTeX   Click to copy

@article{m2016a,
  title = {Linking Isotopes and Panmixia: High Within-Colony Variation in Feather δ2H, δ13C, and δ15N across the Range of the American White Pelican},
  year = {2016},
  journal = {PLoS ONE},
  author = {Reudink, M. and Kyle, C. and McKellar, A. and Somers, C. and Reudink, Robyn L F and Kyser, T. K. and Franks, S. and Nocera, J.}
}

Abstract

Complete panmixia across the entire range of a species is a relatively rare phenomenon; however, this pattern may be found in species that have limited philopatry and frequent dispersal. American white pelicans (Pelecanus erythrorhyncos) provide a unique opportunity to examine the role of long-distance dispersal in facilitating gene flow in a species recently reported as panmictic across its broad breeding range. This species is also undergoing a range expansion, with new colonies arising hundreds of kilometers outside previous range boundaries. In this study, we use a multiple stable isotope (δ2H, δ13C, δ15N) approach to examine feather isotopic structuring at 19 pelican colonies across North America, with the goal of establishing an isotopic basemap that could be used for assigning individuals at newly established breeding sites to source colonies. Within-colony isotopic variation was extremely high, exceeding 100‰ in δ2H within some colonies (with relatively high variation also observed for δ13C and δ15N). The high degree of within-site variation greatly limited the utility of assignment-based approaches (42% cross-validation success rate; range: 0–90% success). Furthermore, clustering algorithms identified four likely isotopic clusters; however, those clusters were generally unrelated to geographic location. Taken together, the high degree of within-site isotopic variation and lack of geographically-defined isotopic clusters preclude the establishment of an isotopic basemap for American white pelicans, but may indicate that a high incidence of long-distance dispersal is facilitating gene flow, leading to genetic panmixia.





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