MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY.

We employ mitochondrial (mt) DNA markers to examine the matrilineal component of population genetic structure in the snow goose Chen caerulescens. From banding returns, it is known that females typically nest at their natal or prior nest site, whereas males pair with females on mixed wintering groun...

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Main Authors:	Avise, John C, Alisauskas, Ray T, Nelson, William S, Ankney, C Davison
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	eScholarship, University of California 1992
Subjects:	Gene flow matrilines mitochondrial DNA natal homing phylogeography population structure Evolutionary Biology Ecology Arctic Baffin Island Wrangel Island Baffin
Online Access:	https://escholarship.org/uc/item/2fk0p7tj

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record_format	openpolar
spelling	ftcdlib:oai:escholarship.org/ark:/13030/qt2fk0p7tj 2023-05-15T15:12:02+02:00 MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY. Avise, John C Alisauskas, Ray T Nelson, William S Ankney, C Davison 1084 - 1096 1992-08-01 application/pdf https://escholarship.org/uc/item/2fk0p7tj unknown eScholarship, University of California qt2fk0p7tj https://escholarship.org/uc/item/2fk0p7tj CC-BY CC-BY Evolution, vol 46, iss 4 Gene flow matrilines mitochondrial DNA natal homing phylogeography population structure Evolutionary Biology Ecology article 1992 ftcdlib 2019-12-06T23:53:29Z We employ mitochondrial (mt) DNA markers to examine the matrilineal component of population genetic structure in the snow goose Chen caerulescens. From banding returns, it is known that females typically nest at their natal or prior nest site, whereas males pair with females on mixed wintering grounds and mediate considerable nuclear gene flow between geographically separate breeding colonies. Despite site philopatry documented for females, mtDNA markers show no clear distinctions between nesting populations across the species' range from Wrangel Island, USSR to Baffin Island in the eastern Canadian Arctic. Two major mtDNA clades (as well as rare haplotypes) are distributed widely and provide one of the few available examples of a phylogeographic pattern in which phylogenetic discontinuity in a gene tree exists without obvious geographic localization within a species' range. The major mtDNA clades may have differentiated in Pleistocene refugia, and colonized current nesting sites through recent range expansion via pulsed or continual low-level dispersal by females. The contrast between results of banding returns and mtDNA distributions in the snow goose raises general issues regarding population structure: direct contemporary observations on dispersal and gene flow can in some cases convey a misleading impression of phylogeographic population structure, because they fail to access the evolutionary component of population connectedness; conversely, geographic distributions of genetic markers can provide a misleading impression of contemporary dispersal and gene flow because they retain a record of evolutionary events and past demographic parameters that may differ from those of the present. An understanding of population structure requires integration of both evolutionary (genetic) and contemporary (direct observational) perspectives. Article in Journal/Newspaper Arctic Baffin Island Baffin Wrangel Island University of California: eScholarship Arctic Baffin Island Wrangel Island ENVELOPE(-179.385,-179.385,71.244,71.244)
institution	Open Polar
collection	University of California: eScholarship
op_collection_id	ftcdlib
language	unknown
topic	Gene flow matrilines mitochondrial DNA natal homing phylogeography population structure Evolutionary Biology Ecology
spellingShingle	Gene flow matrilines mitochondrial DNA natal homing phylogeography population structure Evolutionary Biology Ecology Avise, John C Alisauskas, Ray T Nelson, William S Ankney, C Davison MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY.
topic_facet	Gene flow matrilines mitochondrial DNA natal homing phylogeography population structure Evolutionary Biology Ecology
description	We employ mitochondrial (mt) DNA markers to examine the matrilineal component of population genetic structure in the snow goose Chen caerulescens. From banding returns, it is known that females typically nest at their natal or prior nest site, whereas males pair with females on mixed wintering grounds and mediate considerable nuclear gene flow between geographically separate breeding colonies. Despite site philopatry documented for females, mtDNA markers show no clear distinctions between nesting populations across the species' range from Wrangel Island, USSR to Baffin Island in the eastern Canadian Arctic. Two major mtDNA clades (as well as rare haplotypes) are distributed widely and provide one of the few available examples of a phylogeographic pattern in which phylogenetic discontinuity in a gene tree exists without obvious geographic localization within a species' range. The major mtDNA clades may have differentiated in Pleistocene refugia, and colonized current nesting sites through recent range expansion via pulsed or continual low-level dispersal by females. The contrast between results of banding returns and mtDNA distributions in the snow goose raises general issues regarding population structure: direct contemporary observations on dispersal and gene flow can in some cases convey a misleading impression of phylogeographic population structure, because they fail to access the evolutionary component of population connectedness; conversely, geographic distributions of genetic markers can provide a misleading impression of contemporary dispersal and gene flow because they retain a record of evolutionary events and past demographic parameters that may differ from those of the present. An understanding of population structure requires integration of both evolutionary (genetic) and contemporary (direct observational) perspectives.
format	Article in Journal/Newspaper
author	Avise, John C Alisauskas, Ray T Nelson, William S Ankney, C Davison
author_facet	Avise, John C Alisauskas, Ray T Nelson, William S Ankney, C Davison
author_sort	Avise, John C
title	MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY.
title_short	MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY.
title_full	MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY.
title_fullStr	MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY.
title_full_unstemmed	MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY.
title_sort	matriarchal population genetic structure in an avian species with female natal philopatry.
publisher	eScholarship, University of California
publishDate	1992
url	https://escholarship.org/uc/item/2fk0p7tj
op_coverage	1084 - 1096
long_lat	ENVELOPE(-179.385,-179.385,71.244,71.244)
geographic	Arctic Baffin Island Wrangel Island
geographic_facet	Arctic Baffin Island Wrangel Island
genre	Arctic Baffin Island Baffin Wrangel Island
genre_facet	Arctic Baffin Island Baffin Wrangel Island
op_source	Evolution, vol 46, iss 4
op_relation	qt2fk0p7tj https://escholarship.org/uc/item/2fk0p7tj
op_rights	CC-BY
op_rightsnorm	CC-BY
_version_	1766342781551247360

MATRIARCHAL POPULATION GENETIC STRUCTURE IN AN AVIAN SPECIES WITH FEMALE NATAL PHILOPATRY.

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