Long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms.

Disentangling the contemporary and historical factors underlying the spatial distributions of species is a central goal of biogeography. For species with broad distributions but little capacity to actively disperse, disconnected geographical distributions highlight the potential influence of passive...

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Main Authors: Hotaling, Scott, Shain, Daniel H, Lang, Shirley A, Bagley, Robin K, Tronstad, Lusha M, Weisrock, David W, Kelley, Joanna L
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2019
Subjects:
Biological Sciences
Ecology
Evolutionary Biology
Genetics
Alaska
Animals
Biological Evolution
Ecosystem
Genetic Structures
Genetic Variation
Ice Cover
Oligochaeta
Oregon
Phylogeny
Phylogeography
restriction-site-associated DNA sequencing
Pacific Northwest
Mesenchytraeus solifugus
global change biology
annelid
Agricultural and Veterinary Sciences
Medical and Health Sciences
Agricultural
veterinary and food sciences
Environmental sciences
Pacific
glacier
glaciers
Ice Sheet
Online Access:https://escholarship.org/uc/item/7ds3j8sp
id ftcdlib:oai:escholarship.org:ark:/13030/qt7ds3j8sp
record_format openpolar
spelling ftcdlib:oai:escholarship.org:ark:/13030/qt7ds3j8sp 2023-11-12T04:17:24+01:00 Long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms. Hotaling, Scott Shain, Daniel H Lang, Shirley A Bagley, Robin K Tronstad, Lusha M Weisrock, David W Kelley, Joanna L 20190983 2019-06-26 application/pdf https://escholarship.org/uc/item/7ds3j8sp unknown eScholarship, University of California qt7ds3j8sp https://escholarship.org/uc/item/7ds3j8sp public Proceedings of the Royal Society B, vol 286, iss 1905 Biological Sciences Ecology Evolutionary Biology Genetics Alaska Animals Biological Evolution Ecosystem Genetic Structures Genetic Variation Ice Cover Oligochaeta Oregon Phylogeny Phylogeography restriction-site-associated DNA sequencing Pacific Northwest Mesenchytraeus solifugus global change biology annelid Agricultural and Veterinary Sciences Medical and Health Sciences Agricultural veterinary and food sciences Environmental sciences article 2019 ftcdlib 2023-10-16T18:05:06Z Disentangling the contemporary and historical factors underlying the spatial distributions of species is a central goal of biogeography. For species with broad distributions but little capacity to actively disperse, disconnected geographical distributions highlight the potential influence of passive, long-distance dispersal (LDD) on their evolutionary histories. However, dispersal alone cannot completely account for the biogeography of any species, and other factors-e.g. habitat suitability, life history-must also be considered. North American ice worms ( Mesenchytraeus solifugus) are ice-obligate annelids that inhabit coastal glaciers from Oregon to Alaska. Previous studies identified a complex biogeographic history for ice worms, with evidence for genetic isolation, unexpectedly close relationships among geographically disjunct lineages, and contemporary migration across large (e.g. greater than 1500 km) areas of unsuitable habitat. In this study, we analysed genome-scale sequence data for individuals from most of the known ice worm range. We found clear support for divergence between populations along the Pacific Coast and the inland flanks of the Coast Mountains (mean FST = 0.60), likely precipitated by episodic ice sheet expansion and contraction during the Pleistocene. We also found support for LDD of ice worms from Alaska to Vancouver Island, perhaps mediated by migrating birds. Our results highlight the power of genomic data for disentangling complex biogeographic patterns, including the presence of LDD. Article in Journal/Newspaper glacier glaciers Ice Sheet Alaska University of California: eScholarship Pacific
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
topic Biological Sciences
Ecology
Evolutionary Biology
Genetics
Alaska
Animals
Biological Evolution
Ecosystem
Genetic Structures
Genetic Variation
Ice Cover
Oligochaeta
Oregon
Phylogeny
Phylogeography
restriction-site-associated DNA sequencing
Pacific Northwest
Mesenchytraeus solifugus
global change biology
annelid
Agricultural and Veterinary Sciences
Medical and Health Sciences
Agricultural
veterinary and food sciences
Environmental sciences
spellingShingle Biological Sciences
Ecology
Evolutionary Biology
Genetics
Alaska
Animals
Biological Evolution
Ecosystem
Genetic Structures
Genetic Variation
Ice Cover
Oligochaeta
Oregon
Phylogeny
Phylogeography
restriction-site-associated DNA sequencing
Pacific Northwest
Mesenchytraeus solifugus
global change biology
annelid
Agricultural and Veterinary Sciences
Medical and Health Sciences
Agricultural
veterinary and food sciences
Environmental sciences
Hotaling, Scott
Shain, Daniel H
Lang, Shirley A
Bagley, Robin K
Tronstad, Lusha M
Weisrock, David W
Kelley, Joanna L
Long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms.
topic_facet Biological Sciences
Ecology
Evolutionary Biology
Genetics
Alaska
Animals
Biological Evolution
Ecosystem
Genetic Structures
Genetic Variation
Ice Cover
Oligochaeta
Oregon
Phylogeny
Phylogeography
restriction-site-associated DNA sequencing
Pacific Northwest
Mesenchytraeus solifugus
global change biology
annelid
Agricultural and Veterinary Sciences
Medical and Health Sciences
Agricultural
veterinary and food sciences
Environmental sciences
description Disentangling the contemporary and historical factors underlying the spatial distributions of species is a central goal of biogeography. For species with broad distributions but little capacity to actively disperse, disconnected geographical distributions highlight the potential influence of passive, long-distance dispersal (LDD) on their evolutionary histories. However, dispersal alone cannot completely account for the biogeography of any species, and other factors-e.g. habitat suitability, life history-must also be considered. North American ice worms ( Mesenchytraeus solifugus) are ice-obligate annelids that inhabit coastal glaciers from Oregon to Alaska. Previous studies identified a complex biogeographic history for ice worms, with evidence for genetic isolation, unexpectedly close relationships among geographically disjunct lineages, and contemporary migration across large (e.g. greater than 1500 km) areas of unsuitable habitat. In this study, we analysed genome-scale sequence data for individuals from most of the known ice worm range. We found clear support for divergence between populations along the Pacific Coast and the inland flanks of the Coast Mountains (mean FST = 0.60), likely precipitated by episodic ice sheet expansion and contraction during the Pleistocene. We also found support for LDD of ice worms from Alaska to Vancouver Island, perhaps mediated by migrating birds. Our results highlight the power of genomic data for disentangling complex biogeographic patterns, including the presence of LDD.
format Article in Journal/Newspaper
author Hotaling, Scott
Shain, Daniel H
Lang, Shirley A
Bagley, Robin K
Tronstad, Lusha M
Weisrock, David W
Kelley, Joanna L
author_facet Hotaling, Scott
Shain, Daniel H
Lang, Shirley A
Bagley, Robin K
Tronstad, Lusha M
Weisrock, David W
Kelley, Joanna L
author_sort Hotaling, Scott
title Long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms.
title_short Long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms.
title_full Long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms.
title_fullStr Long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms.
title_full_unstemmed Long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms.
title_sort long-distance dispersal, ice sheet dynamics and mountaintop isolation underlie the genetic structure of glacier ice worms.
publisher eScholarship, University of California
publishDate 2019
url https://escholarship.org/uc/item/7ds3j8sp
op_coverage 20190983
geographic Pacific
geographic_facet Pacific
genre glacier
glaciers
Ice Sheet
Alaska
genre_facet glacier
glaciers
Ice Sheet
Alaska
op_source Proceedings of the Royal Society B, vol 286, iss 1905
op_relation qt7ds3j8sp
https://escholarship.org/uc/item/7ds3j8sp
op_rights public
_version_ 1782334312765456384

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