Genomics: applications to Antarctic ecosystems

Biological research in Antarctica has made considerable progress in science over recent decades. As little as 50 years ago, there was scant knowledge even of the species inhabiting the region. Since then, understanding has developed rapidly, across diverse disciplines including physiology, biochemis...

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Published in:Polar Biology
Main Authors: Peck, L S, Clark, M S, Clarke, A, Cockell, C S, Convey, P, Detrich, H W, Fraser, K P P, Johnston, I A, Methe, B A, Murray, A E, Romisch, K, Rogers, A D
Format: Article in Journal/Newspaper
Language:English
Published: 2005
Subjects:
STRATOSPHERIC OZONE DEPLETION
BIVALVE LATERNULA-ELLIPTICA
AMINO-ACID-SEQUENCE
CLIMATE-CHANGE
NOTOTHENIOID FISHES
SOUTHERN-OCEAN
COLD ADAPTATION
GENE-EXPRESSION
A(4)-LACTATE DEHYDROGENASES
METHANOCOCCOIDES-BURTONII
Antarctic
Southern Ocean
Antarc*
Antarctica
Polar Biology
Online Access:https://research-portal.st-andrews.ac.uk/en/researchoutput/genomics-applications-to-antarctic-ecosystems(4ddb55b7-1f82-41f5-81fd-4f23a527dc8c).html
https://doi.org/10.1007/s00300-004-0671-8
http://www.scopus.com/inward/record.url?scp=20244386700&partnerID=8YFLogxK
http://www.st-andrews.ac.uk/~fmrg/documents/259.pdf
id ftunstandrewcris:oai:research-portal.st-andrews.ac.uk:publications/4ddb55b7-1f82-41f5-81fd-4f23a527dc8c
record_format openpolar
spelling ftunstandrewcris:oai:research-portal.st-andrews.ac.uk:publications/4ddb55b7-1f82-41f5-81fd-4f23a527dc8c 2024-06-23T07:46:35+00:00 Genomics: applications to Antarctic ecosystems Peck, L S Clark, M S Clarke, A Cockell, C S Convey, P Detrich, H W Fraser, K P P Johnston, I A Methe, B A Murray, A E Romisch, K Rogers, A D 2005-04 https://research-portal.st-andrews.ac.uk/en/researchoutput/genomics-applications-to-antarctic-ecosystems(4ddb55b7-1f82-41f5-81fd-4f23a527dc8c).html https://doi.org/10.1007/s00300-004-0671-8 http://www.scopus.com/inward/record.url?scp=20244386700&partnerID=8YFLogxK http://www.st-andrews.ac.uk/~fmrg/documents/259.pdf eng eng https://research-portal.st-andrews.ac.uk/en/researchoutput/genomics-applications-to-antarctic-ecosystems(4ddb55b7-1f82-41f5-81fd-4f23a527dc8c).html info:eu-repo/semantics/restrictedAccess Peck , L S , Clark , M S , Clarke , A , Cockell , C S , Convey , P , Detrich , H W , Fraser , K P P , Johnston , I A , Methe , B A , Murray , A E , Romisch , K & Rogers , A D 2005 , ' Genomics: applications to Antarctic ecosystems ' , Polar Biology , vol. 28 , no. 5 , pp. 351-365 . https://doi.org/10.1007/s00300-004-0671-8 STRATOSPHERIC OZONE DEPLETION BIVALVE LATERNULA-ELLIPTICA AMINO-ACID-SEQUENCE CLIMATE-CHANGE NOTOTHENIOID FISHES SOUTHERN-OCEAN COLD ADAPTATION GENE-EXPRESSION A(4)-LACTATE DEHYDROGENASES METHANOCOCCOIDES-BURTONII article 2005 ftunstandrewcris https://doi.org/10.1007/s00300-004-0671-8 2024-06-13T00:25:25Z Biological research in Antarctica has made considerable progress in science over recent decades. As little as 50 years ago, there was scant knowledge even of the species inhabiting the region. Since then, understanding has developed rapidly, across diverse disciplines including physiology, biochemistry, ecology and biogeography. Some dramatic global-scale discoveries and advances have been made, including the characterisation of antifreeze proteins from notothenioid fish and the finding that some fish lack a heat shock response, the identification of microbial communities living within the surface layers of rocks and description of the simplest faunal communities known, the identification that possibly the fastest environmental and ecological change on earth is occurring in Antarctic lakes, and that the biodiversity of the Southern Ocean is much greater than previously thought. Findings such as these have made biology in cold extreme environments one of the most stimulating areas for research in recent decades. Now, the advent and widespread applicability of the novel genomic technologies promise to move us into a period of equally, or possibly even more, rapid advance. At present, genomic information on Antarctic species is limited mainly to a number of fish species and microbes. However, an increasing number of Antarctic genomics projects are being funded and will significantly increase the amount of molecular information available on a much wider range of species in the near future. Hence it is timely to review progress so far in the use of genomic methods in Antarctic research and identify exciting prospects for dramatic future advances. Article in Journal/Newspaper Antarc* Antarctic Antarctica Polar Biology Southern Ocean University of St Andrews: Research Portal Antarctic Southern Ocean Polar Biology 28 5 351 365
institution Open Polar
collection University of St Andrews: Research Portal
op_collection_id ftunstandrewcris
language English
topic STRATOSPHERIC OZONE DEPLETION
BIVALVE LATERNULA-ELLIPTICA
AMINO-ACID-SEQUENCE
CLIMATE-CHANGE
NOTOTHENIOID FISHES
SOUTHERN-OCEAN
COLD ADAPTATION
GENE-EXPRESSION
A(4)-LACTATE DEHYDROGENASES
METHANOCOCCOIDES-BURTONII
spellingShingle STRATOSPHERIC OZONE DEPLETION
BIVALVE LATERNULA-ELLIPTICA
AMINO-ACID-SEQUENCE
CLIMATE-CHANGE
NOTOTHENIOID FISHES
SOUTHERN-OCEAN
COLD ADAPTATION
GENE-EXPRESSION
A(4)-LACTATE DEHYDROGENASES
METHANOCOCCOIDES-BURTONII
Peck, L S
Clark, M S
Clarke, A
Cockell, C S
Convey, P
Detrich, H W
Fraser, K P P
Johnston, I A
Methe, B A
Murray, A E
Romisch, K
Rogers, A D
Genomics: applications to Antarctic ecosystems
topic_facet STRATOSPHERIC OZONE DEPLETION
BIVALVE LATERNULA-ELLIPTICA
AMINO-ACID-SEQUENCE
CLIMATE-CHANGE
NOTOTHENIOID FISHES
SOUTHERN-OCEAN
COLD ADAPTATION
GENE-EXPRESSION
A(4)-LACTATE DEHYDROGENASES
METHANOCOCCOIDES-BURTONII
description Biological research in Antarctica has made considerable progress in science over recent decades. As little as 50 years ago, there was scant knowledge even of the species inhabiting the region. Since then, understanding has developed rapidly, across diverse disciplines including physiology, biochemistry, ecology and biogeography. Some dramatic global-scale discoveries and advances have been made, including the characterisation of antifreeze proteins from notothenioid fish and the finding that some fish lack a heat shock response, the identification of microbial communities living within the surface layers of rocks and description of the simplest faunal communities known, the identification that possibly the fastest environmental and ecological change on earth is occurring in Antarctic lakes, and that the biodiversity of the Southern Ocean is much greater than previously thought. Findings such as these have made biology in cold extreme environments one of the most stimulating areas for research in recent decades. Now, the advent and widespread applicability of the novel genomic technologies promise to move us into a period of equally, or possibly even more, rapid advance. At present, genomic information on Antarctic species is limited mainly to a number of fish species and microbes. However, an increasing number of Antarctic genomics projects are being funded and will significantly increase the amount of molecular information available on a much wider range of species in the near future. Hence it is timely to review progress so far in the use of genomic methods in Antarctic research and identify exciting prospects for dramatic future advances.
format Article in Journal/Newspaper
author Peck, L S
Clark, M S
Clarke, A
Cockell, C S
Convey, P
Detrich, H W
Fraser, K P P
Johnston, I A
Methe, B A
Murray, A E
Romisch, K
Rogers, A D
author_facet Peck, L S
Clark, M S
Clarke, A
Cockell, C S
Convey, P
Detrich, H W
Fraser, K P P
Johnston, I A
Methe, B A
Murray, A E
Romisch, K
Rogers, A D
author_sort Peck, L S
title Genomics: applications to Antarctic ecosystems
title_short Genomics: applications to Antarctic ecosystems
title_full Genomics: applications to Antarctic ecosystems
title_fullStr Genomics: applications to Antarctic ecosystems
title_full_unstemmed Genomics: applications to Antarctic ecosystems
title_sort genomics: applications to antarctic ecosystems
publishDate 2005
url https://research-portal.st-andrews.ac.uk/en/researchoutput/genomics-applications-to-antarctic-ecosystems(4ddb55b7-1f82-41f5-81fd-4f23a527dc8c).html
https://doi.org/10.1007/s00300-004-0671-8
http://www.scopus.com/inward/record.url?scp=20244386700&partnerID=8YFLogxK
http://www.st-andrews.ac.uk/~fmrg/documents/259.pdf
geographic Antarctic
Southern Ocean
geographic_facet Antarctic
Southern Ocean
genre Antarc*
Antarctic
Antarctica
Polar Biology
Southern Ocean
genre_facet Antarc*
Antarctic
Antarctica
Polar Biology
Southern Ocean
op_source Peck , L S , Clark , M S , Clarke , A , Cockell , C S , Convey , P , Detrich , H W , Fraser , K P P , Johnston , I A , Methe , B A , Murray , A E , Romisch , K & Rogers , A D 2005 , ' Genomics: applications to Antarctic ecosystems ' , Polar Biology , vol. 28 , no. 5 , pp. 351-365 . https://doi.org/10.1007/s00300-004-0671-8
op_relation https://research-portal.st-andrews.ac.uk/en/researchoutput/genomics-applications-to-antarctic-ecosystems(4ddb55b7-1f82-41f5-81fd-4f23a527dc8c).html
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1007/s00300-004-0671-8
container_title Polar Biology
container_volume 28
container_issue 5
container_start_page 351
op_container_end_page 365
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