Anhydrobiosis and Freezing-Tolerance:Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats

Anhydrobiotic animals can survive the loss of both free and bound water from their cells. While in this state they are also resistant to freezing. This physiology adapts anhydrobiotes to harsh environments and it aids their dispersal. Panagrolaimus davidi, a bacterial feeding anhydrobiotic nematode...

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Published in:PLOS ONE
Main Authors: McGill, Lorraine, Shannon, Adam, Pisani, Davide, Felix, Marie-Anne, Ramløv, Hans, Dix, Ilona, Wharton, David, Burnell, Ann
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
anhydrobiosis
cryobiosis
Nematoda
Antarctica
recrystallisation inhibition
Nematode
Antarctic
Ross Island
Surtsey
Antarc*
Iceland
Online Access:https://forskning.ruc.dk/da/publications/bfd92fbd-e7a6-4ee1-bad1-e9fe3b19645e
https://doi.org/10.1371/journal.pone.0116084
https://rucforsk.ruc.dk/ws/files/54241282/journal.pone.0116084.pdf
http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0116084
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record_format openpolar
spelling fturoskildefispu:oai:pure.atira.dk:publications/bfd92fbd-e7a6-4ee1-bad1-e9fe3b19645e 2023-05-15T13:31:47+02:00 Anhydrobiosis and Freezing-Tolerance:Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats McGill, Lorraine Shannon, Adam Pisani, Davide Felix, Marie-Anne Ramløv, Hans Dix, Ilona Wharton, David Burnell, Ann 2015-03-06 application/pdf https://forskning.ruc.dk/da/publications/bfd92fbd-e7a6-4ee1-bad1-e9fe3b19645e https://doi.org/10.1371/journal.pone.0116084 https://rucforsk.ruc.dk/ws/files/54241282/journal.pone.0116084.pdf http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0116084 eng eng info:eu-repo/semantics/openAccess McGill , L , Shannon , A , Pisani , D , Felix , M-A , Ramløv , H , Dix , I , Wharton , D & Burnell , A 2015 , ' Anhydrobiosis and Freezing-Tolerance : Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats ' , P L o S One . https://doi.org/10.1371/journal.pone.0116084 anhydrobiosis cryobiosis Nematoda Antarctica recrystallisation inhibition Nematode article 2015 fturoskildefispu https://doi.org/10.1371/journal.pone.0116084 2022-12-11T06:57:32Z Anhydrobiotic animals can survive the loss of both free and bound water from their cells. While in this state they are also resistant to freezing. This physiology adapts anhydrobiotes to harsh environments and it aids their dispersal. Panagrolaimus davidi, a bacterial feeding anhydrobiotic nematode isolated from Ross Island Antarctica, can survive intracellular ice formation when fully hydrated. A capacity to survive freezing while fully hydrated has also been observed in some other Antarctic nematodes. We experimentally determined the anhydrobiotic and freezing-tolerance phenotypes of 24 Panagrolaimus strains from tropical, temperate, continental and polar habitats and we analysed their phylogenetic relationships. We found that several other Panagrolaimus isolates can also survive freezing when fully hydrated and that tissue extracts from these freezing-tolerant nematodes can inhibit the growth of ice crystals. We show that P. davidi belongs to a clade of anhydrobiotic and freezing-tolerant panagrolaimids containing strains from temperate and continental regions and that P. superbus, an early colonizer at Surtsey island, Iceland after its volcanic formation, is closely related to a species from Pennsylvania, USA. Ancestral state reconstructions show that anhydrobiosis evolved deep in the phylogeny of Panagrolaimus. The early-diverging Panagrolaimus lineages are strongly anhydrobiotic but weakly freezing-tolerant, suggesting that freezing tolerance is most likely a derived trait. The common ancestors of the davidi and the superbus clades were anhydrobiotic and also possessed robust freezing tolerance, along with a capacity to inhibit the growth and recrystallization of ice crystals. Unlike other endemic Antarctic nematodes, the life history traits of P. davidi do not show evidence of an evolved response to polar conditions. Thus we suggest that the colonization of Antarctica by P. davidi and of Surtsey by P. superbus may be examples of recent “ecological fitting” of freezing-tolerant anhydrobiotic propagules to ... Article in Journal/Newspaper Antarc* Antarctic Antarctica Iceland Ross Island Surtsey Roskilde University Research Portal (RUC) Antarctic Ross Island Surtsey ENVELOPE(-20.608,-20.608,63.301,63.301) PLOS ONE 10 3 e0116084
institution Open Polar
collection Roskilde University Research Portal (RUC)
op_collection_id fturoskildefispu
language English
topic anhydrobiosis
cryobiosis
Nematoda
Antarctica
recrystallisation inhibition
Nematode
spellingShingle anhydrobiosis
cryobiosis
Nematoda
Antarctica
recrystallisation inhibition
Nematode
McGill, Lorraine
Shannon, Adam
Pisani, Davide
Felix, Marie-Anne
Ramløv, Hans
Dix, Ilona
Wharton, David
Burnell, Ann
Anhydrobiosis and Freezing-Tolerance:Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats
topic_facet anhydrobiosis
cryobiosis
Nematoda
Antarctica
recrystallisation inhibition
Nematode
description Anhydrobiotic animals can survive the loss of both free and bound water from their cells. While in this state they are also resistant to freezing. This physiology adapts anhydrobiotes to harsh environments and it aids their dispersal. Panagrolaimus davidi, a bacterial feeding anhydrobiotic nematode isolated from Ross Island Antarctica, can survive intracellular ice formation when fully hydrated. A capacity to survive freezing while fully hydrated has also been observed in some other Antarctic nematodes. We experimentally determined the anhydrobiotic and freezing-tolerance phenotypes of 24 Panagrolaimus strains from tropical, temperate, continental and polar habitats and we analysed their phylogenetic relationships. We found that several other Panagrolaimus isolates can also survive freezing when fully hydrated and that tissue extracts from these freezing-tolerant nematodes can inhibit the growth of ice crystals. We show that P. davidi belongs to a clade of anhydrobiotic and freezing-tolerant panagrolaimids containing strains from temperate and continental regions and that P. superbus, an early colonizer at Surtsey island, Iceland after its volcanic formation, is closely related to a species from Pennsylvania, USA. Ancestral state reconstructions show that anhydrobiosis evolved deep in the phylogeny of Panagrolaimus. The early-diverging Panagrolaimus lineages are strongly anhydrobiotic but weakly freezing-tolerant, suggesting that freezing tolerance is most likely a derived trait. The common ancestors of the davidi and the superbus clades were anhydrobiotic and also possessed robust freezing tolerance, along with a capacity to inhibit the growth and recrystallization of ice crystals. Unlike other endemic Antarctic nematodes, the life history traits of P. davidi do not show evidence of an evolved response to polar conditions. Thus we suggest that the colonization of Antarctica by P. davidi and of Surtsey by P. superbus may be examples of recent “ecological fitting” of freezing-tolerant anhydrobiotic propagules to ...
format Article in Journal/Newspaper
author McGill, Lorraine
Shannon, Adam
Pisani, Davide
Felix, Marie-Anne
Ramløv, Hans
Dix, Ilona
Wharton, David
Burnell, Ann
author_facet McGill, Lorraine
Shannon, Adam
Pisani, Davide
Felix, Marie-Anne
Ramløv, Hans
Dix, Ilona
Wharton, David
Burnell, Ann
author_sort McGill, Lorraine
title Anhydrobiosis and Freezing-Tolerance:Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats
title_short Anhydrobiosis and Freezing-Tolerance:Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats
title_full Anhydrobiosis and Freezing-Tolerance:Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats
title_fullStr Anhydrobiosis and Freezing-Tolerance:Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats
title_full_unstemmed Anhydrobiosis and Freezing-Tolerance:Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats
title_sort anhydrobiosis and freezing-tolerance:adaptations that facilitate the establishment of panagrolaimus nematodes in polar habitats
publishDate 2015
url https://forskning.ruc.dk/da/publications/bfd92fbd-e7a6-4ee1-bad1-e9fe3b19645e
https://doi.org/10.1371/journal.pone.0116084
https://rucforsk.ruc.dk/ws/files/54241282/journal.pone.0116084.pdf
http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0116084
long_lat ENVELOPE(-20.608,-20.608,63.301,63.301)
geographic Antarctic
Ross Island
Surtsey
geographic_facet Antarctic
Ross Island
Surtsey
genre Antarc*
Antarctic
Antarctica
Iceland
Ross Island
Surtsey
genre_facet Antarc*
Antarctic
Antarctica
Iceland
Ross Island
Surtsey
op_source McGill , L , Shannon , A , Pisani , D , Felix , M-A , Ramløv , H , Dix , I , Wharton , D & Burnell , A 2015 , ' Anhydrobiosis and Freezing-Tolerance : Adaptations That Facilitate the Establishment of Panagrolaimus Nematodes in Polar Habitats ' , P L o S One . https://doi.org/10.1371/journal.pone.0116084
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1371/journal.pone.0116084
container_title PLOS ONE
container_volume 10
container_issue 3
container_start_page e0116084
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