Cenozoic evolution of Antarctic glaciation, the circum-Antarctic Ocean, and their impact on global paleoceanography, J Geophys Res, vol.82, pp.3843-60, 1977. ,
The Antarctic ice sheet during the last glacial maximum and its subsequent retreat history: a review, Quat Sci Rev, vol.21, pp.49-70, 2002. ,
Sea-level changes at the LGM from ice-dynamic reconstructions of the Greenland and Antarctic ice sheets during the glacial cycles, Quat Sci Rev, vol.21, pp.203-234, 2002. ,
On the origin of Antarctic marine benthic community structure, Trends Ecol Evol, vol.20, pp.534-574, 2005. ,
Benthic community response to iceberg scouring at an intensely disturbed shallow water site at Adelaide Island, Antarctica Mar Ecol Prog Ser, vol.355, pp.85-94, 2008. ,
Udekem d'Acoz C, Biogegographic atlas of the Southern Ocean, pp.328-52, 2014. ,
On the origin and trigger of the Notothenioid adaptive radiation, PLoS One, vol.6, pp.1-9, 2011. ,
Identification of the notothenioid sister lineage illuminates the biogeographic history of an Antarctic adaptive radiation, BMC Evol Biol, vol.15, 2015. ,
Glycoproteins as biological antifreeze agents in Antarctic fishes, Science, vol.172, pp.1152-1157, 1971. ,
Animals and Environmental Fitness: Physiological and Biochemical Aspects of Adaptation and Ecology, pp.583-607, 1980. ,
Tracking the evolutionary loss of hemoglobin expression by the white-blooded Antarctic icefishes, Gene, vol.295, pp.185-91, 2002. ,
A genomic fossil reveals key steps in hemoglobin loss by the Antarctic Icefishes, Mol Biol Evol, vol.23, pp.2008-2024, 2006. ,
Molecular ecophysiology of Antarctic notothenioid fishes, Philos Trans R Soc B: Biol Sci, vol.362, pp.2215-2247, 2007. ,
Ancient climate change, antifreeze, and the evolutionary diversification of Antarctic fishes, Proc Natl Acad Sci, vol.109, pp.3434-3443, 2012. ,
Phylogenetic analysis of Antarctic notothenioids illuminates the utility of RADseq for resolving Cenozoic adaptive radiations, Mol Phylogenet Evol, vol.129, pp.268-79, 2018. ,
Tracking the elusive monophyly of nototheniid fishes (Teleostei) with multiple mitochondrial and nuclear markers, Mar Genomics, vol.8, pp.49-58, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01544914
Diversity and disparity through time in the adaptive radiation of Antarctic notothenioid fishes, J Evol Biol, vol.28, pp.376-94, 2015. ,
Teleostei: Acanthomorpha): inferences from mitochondrial and nuclear gene sequences, Phylogenetics of notothenioid fishes, vol.47, pp.832-872, 2008. ,
Fishes on the Antarctic continental shelf: evolution of a marine species flock?, J Fish Biol, vol.57, pp.84-102, 2000. ,
Parallel ecological diversification in Antarctic notothenioid fishes as evidence for adaptive radiation: ecological diversification in Notothenioids, Mol Ecol, vol.20, pp.4707-4728, 2011. ,
Is the species flock concept operational? Antarctic Shelf Case PLoS ONE, vol.8, p.68787, 2013. ,
Chromosome studies on fish of the suborder Notothenioidei collected in the Weddell Sea during EPOS 3 cruise, Cybium, vol.15, pp.271-89, 1991. ,
Cytotaxonomy of antarctic teleosts of the Pagothenia/Trematomus complex (Nototheniidae, Perciformes), Polar Biol, vol.12, pp.553-561, 1992. ,
Cytogenetic diversity of notothenioid fish from the Ross Sea: historical overview and updates, Hydrobiologia, vol.761, pp.373-96, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01544905
, Cold Fusion: Massive Karyotype Evolution in the Antarctic Bullhead Notothen Notothenia coriiceps. G3 (Genes|Genomes|Genetics, vol.7, pp.2195-207, 2017.
Antarctic fish chromosome banding: significance for evolutionary studies, Cybium, vol.21, pp.399-409, 1997. ,
Pericentromeric organization at the fusion point of mouse Robertsonian translocation chromosomes, Proc Natl Acad Sci, vol.98, pp.171-176, 2001. ,
The nature of the diversity of Antarctic fishes, Polar Biol, vol.28, pp.93-107, 2005. ,
Genome duplication in the teleost fish Tetraodon nigroviridis reveals the early vertebrate proto-karyotype, Nature, vol.431, pp.946-57, 2004. ,
URL : https://hal.archives-ouvertes.fr/hal-00427605
Reconstruction of the vertebrate ancestral genome reveals dynamic genome reorganization in early vertebrates, Genome Res, vol.17, pp.1254-65, 2007. ,
Chromosome evolution at the origin of the ancestral vertebrate genome, Genome Biol, vol.19, 2018. ,
URL : https://hal.archives-ouvertes.fr/hal-02415626
Evolution by gene duplication, vol.9 ,
, , p.160, 1970.
The chromosomes of salmonid fishes, Biol Rev, vol.62, pp.197-214, 1987. ,
Vertebrate genome evolution and the zebrafish gene map, Nat Genet, vol.18, pp.345-354, 1998. ,
The Zebrafish genome: Genetics and Genomics, Methods in Cell Biology, pp.61898-61899, 1999. ,
Medaka genomics: a bridge between mutant phenotype and gene function, Mech Dev, vol.121, pp.619-647, 2004. ,
The zebrafish gene map defines ancestral vertebrate chromosomes, Genome Res, vol.15, pp.1307-1321, 2005. ,
Reconstruction of a 450-my-old ancestral vertebrate protokaryotype, Trends Genet, vol.22, pp.203-213, 2006. ,
Zebrafish hox clusters and vertebrate genome evolution, Science, vol.282, pp.1711-1715, 1998. ,
Genome duplication, a trait shared by 22,000 species of ray-finned fish, Genome Res, vol.13, pp.382-90, 2003. ,
Duplication events and the evolution of segmental identity, Evol Dev, vol.7, pp.556-67, 2005. ,
Did genome duplication drive the origin of teleosts? A comparative study of diversification in ray-finned fishes, BMC Evol Biol, vol.9, p.194, 2009. ,
Cytogenetic analysis of platyfish (Xiphophorus maculatus) shows location of major and minor rDNA on chromosomes: cytogenetic analysis of platyfish, Hereditas, vol.141, pp.333-340, 2005. ,
The medaka draft genome and insights into vertebrate genome evolution, Nature, vol.447, pp.714-723, 2007. ,
Karyotyping and cytogenetic mapping of Atlantic cod (Gadus morhua Linnaeus, 1758), Anim Genet, vol.43, pp.746-52, 2012. ,
Karyotypes in six species of Pufferfishes genus Takifugu (Tetraodontidae, Tetraodontiformes), Fish Sci, vol.61, pp.594-602, 1995. ,
Turnover of sex chromosomes in the stickleback fishes (Gasterosteidae), PLoS Genet, vol.5, p.1000391, 2009. ,
Karyotype differentiation between two stickleback species (Gasterosteidae), Cytogenet Genome Res, vol.135, pp.150-159, 2011. ,
Classical and molecular cytogenetics of the pufferfish Tetraodon nigroviridis, Chromosom Res, vol.7, pp.655-62, 1999. ,
Karyotypes of basal lineages in notothenioid fishes: the genus Bovichtus, Polar Biol, vol.29, pp.1071-1077, 2006. ,
Mapping of ?-and ?-globin genes on Antarctic fish chromosomes by fluorescence in-situ hybridization, Chromosom Res, vol.11, pp.633-673, 2003. ,
Chromosome differentiation in the subantarctic Bovichtidae species Cottoperca gobio (Günther, 1861) and Pseudaphritis urvillii (Valenciennes, 1832) (Pisces, Perciformes), Antarct Sci, vol.7, pp.381-387, 1995. ,
Chromosomal characteristics of the temperate notothenioid fish Eleginops maclovinus (Cuvier), Polar Biol, vol.31, pp.629-663, 2008. ,
Cytogenetics of the Antarctic icefish Champsocephalus gunnari Lönnberg, 1905 (Channichthyidae, Notothenioidei), Comp Biochem Physiol A Physiol, vol.118, pp.1087-94, 1997. ,
Karyotype and genome size of zoarcids and notothenioids (Taleostei, Perciformes) from the Ross Sea: cytotaxonomic implications, Polar Biol, vol.16, pp.559-64, 1996. ,
The chromosomal complement of the artedidraconid fish Histiodraco velifer (Perciformes: Notothenioidei) from Terra Nova Bay, Ross Sea Cytogenet Genome Res, vol.101, pp.29-32, 2003. ,
Chromosome change and the evolution in the Antarctic fish suborder Notothenioidei, Antarct Sci, vol.12, pp.334-376, 2000. ,
A multiple sex-chromosome system in Antarctic ice-fishes, Polar Biol, vol.11, pp.655-61, 1992. ,
Mobilization of retrotransposons as a cause of chromosomal diversification and rapid speciation: the case for the Antarctic teleost genus Trematomus, BMC Genomics, vol.19, 2018. ,
URL : https://hal.archives-ouvertes.fr/hal-01921023
Insertion hot spots of DIRS1 Retrotransposon and chromosomal diversifications among the Antarctic Teleosts Nototheniidae, Int J Mol Sci, vol.20, 2019. ,
URL : https://hal.archives-ouvertes.fr/hal-02325484
Adaptive radiation in Antarctic notothenioid fish: studies of genomic change at chromosomal level, Ital J Zool, vol.67, pp.115-136, 2000. ,
Modes of Animal Speciation, Annual Review of Ecology and Systematics. Ann Rev Ecol Systematics, vol.6, pp.339-64, 1975. ,
Modes of speciation in orthopteroid insects, Bolletino di zoologia, vol.47, pp.83-94, 1980. ,
Speciation by monobrachial centric fusions, Proc Natl Acad Sci, vol.83, pp.8245-8253, 1986. ,
Chromosomal rearrangements and speciation, Trends Ecol Evol, vol.16, pp.351-359, 2001. ,
Genome enablement of the notothenioidei: genome size estimates from 11 species and BAC libraries from 2 representative taxa, J Exp Zool B Mol Dev Evol, vol.314, pp.369-81, 2010. ,
Antarctic Notothenioid fishes: genomic resources and strategies for analyzing an adaptive radiation, Integr Comp Biol, vol.50, pp.1009-1026, 2010. ,
The genome sequence of the Antarctic bullhead notothen reveals evolutionary adaptations to a cold environment, Genome Biol, vol.15, p.468, 2014. ,
Antarctic blackfin icefish genome reveals adaptations to extreme environments, Nat Ecol Evol, vol.3, pp.469-78, 2019. ,
Estimating divergence times of notothenioid fishes using a fossilcalibrated molecular clock, Antarct Sci, vol.16, pp.37-44, 2004. ,
Cytogenetics of speciation, Aust J Entomol, vol.9, pp.1-6, 1970. ,
Chain processes in chromosomal speciation, Syst Zool, vol.27, p.285, 1978. ,
A new Robertsonian fusion in the multiple chromosome polymorphism of a mediterranean population of Gobius paganellus (Gobiidae, Perciformes), Heredity, vol.55, pp.255-60, 1985. ,
Chromosomal divergence in house mice in the light of palaeontology: a colonization-related event?, Quat Int, vol.19, pp.21-26, 1993. ,
Rapid chromosomal evolution in island mice: environmental genetics, Nature, vol.403, p.158, 2000. ,
Evolution of rRNA gene clusters and telomeric repeats during explosive genome repatterning in Taterillus X (Rodentia, Gerbillinae), Cytogenet Genome Res, vol.103, pp.94-103, 2003. ,
Chromosomal variation in THE house mouse: chromosomal variation in the house mouse, Biol J Linn Soc, vol.84, pp.535-63, 2005. ,
A role for a neosex chromosome in stickleback speciation, Nature, vol.461, pp.1079-83, 2009. ,
Bouvet Islands) sectors of the Southern Ocean, Comparative cytogenetic studies of the Nototheniidae (Teleostei: Acanthomorpha) from the Indian (Kerguelen-Heard Plateau) and Atlantic, vol.35, pp.109-130, 2011. ,
Phylogenetic footprints of an Antarctic radiation: the Trematominae (Notothenioidei, Teleostei), Mol Phylogenet Evol, vol.65, pp.87-101, 2012. ,
Recent Rapid Regional Climate Warming on the Antarctic Peninsula, Clim Chang, vol.32, pp.243-74, 2003. ,
Rapid climate change in the ocean west of the Antarctic Peninsula during the second half of the 20th century: rapid ocean climate change at the wap, Geophys Res Lett, vol.32, p.19604, 2005. ,
Warming of the Antarctic ice-sheet surface since the 1957 International Geophysical Year, Nature, vol.8, pp.459-62, 2009. ,
Climate change and Southern Ocean ecosystems I: how changes in physical habitats directly affect marine biota, Glob Chang Biol, vol.20, pp.3004-3029, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-00997457
Cephalic Kidney and Spleen Cell Culture in Antarctic Teleosts, Fish Cytogenetic Techniques, pp.74-81, 2015. ,
Rapid generation of whole chromosome painting probes (WCPs) by chromosome microdissection, Genomics, vol.22, pp.101-108, 1994. ,
, Standard Fluorescence in situ Hybridization Procedures. Fish Cytogenet Tech: Ray-Fin Fishes Chondrichthyans, pp.103-120, 2015.
Extraction of high molecular weight DNA from molluscs, Trends Genet, vol.9, p.407, 1993. ,
, Publisher's Note
, Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations