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Keith Crandall (1996)
Multiple interspecies transmissions of human and simian T-cell leukemia/lymphoma virus type I sequences.Molecular biology and evolution, 13 1
R. Swain, Amm Richardson, M. Hortle (1982)
Revison of the Tasmanian genus of freshwater crayfish Astacopsis Huxley (Decapoda : Parastacidae)Marine and Freshwater Research, 33
Horwitz Horwitz (1988)
Sea‐level fluctuations and the distributions of some freshwater crayfishes of the genus Engaeus (Decapoda; Parastacidae) in the bass Strait areaAust. J. Mar. Freshw. Res., 39
Swain Swain, Richardson Richardson, Hortle Hortle (1982)
Revision of the Tasmanian genus of freshwater crayfish Astacopsis Huxley (Decapoda: Parastacidae)Aust. J. Mar. Freshw. Res., 33
E. Riek (1969)
The Australian freshwater crayfish (Crustacea : Decapoda : Parastacidae), with descriptions of a new speciesAustralian Journal of Zoology, 17
Toon Toon, Pérez‐Losada Pérez‐Losada, Schweitzer Schweitzer, Feldmann Feldmann, Carlson Carlson, Crandall Crandall (2010)
Gondwanan radiation of the southern hemisphere crayfishes (Decapoda: Parastacidae)evidence from fossils and molecules
Growns Growns (1995)
Astacopsis gouldi Clark in streams of the Gog Range, northern Tasmaniathe effects of catchment disturbance, 129
M. Hasegawa, H. Kishino, T. Yano (2005)
Dating of the human-ape splitting by a molecular clock of mitochondrial DNAJournal of Molecular Evolution, 22
Richardson Richardson, Doran Doran, Hansen Hansen (2006)
The geographic ranges of Tasmanian crayfishextent and pattern, 15
Anthony Martin, T. Rich, G. Poore, Mark Schultz, C. Austin, L. Kool, P. Vickers-Rich (2008)
Fossil evidence in Australia for oldest known freshwater crayfish of GondwanaGondwana Research, 14
Thuy Nguyen, M. Meewan, S. Ryan, C. Austin (2002)
Genetic diversity and translocation in the marron, Cherax tenuimanus (Smith): implications for management and conservationFisheries Management and Ecology, 9
Hidetoshi Shimodaira, M. Hasegawa (1999)
Multiple Comparisons of Log-Likelihoods with Applications to Phylogenetic InferenceMolecular Biology and Evolution, 16
J. Maniloff (2002)
Phylogeny and Evolution
A. Templeton (2001)
Using phylogeographic analyses of gene trees to test species status and processesMolecular Ecology, 10
Crozier (1997)
Preserving the information content of speciesgenetic diversity, phylogeny, and conservation worth, 28
O. Folmer, M. Black, W. Hoeh, R. Lutz, R. Vrijenhoek (1994)
DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates.Molecular marine biology and biotechnology, 3 5
Davies (2005)
Astacopsis gouldi clarkhabitat characteristics and relative abundance of juveniles, 16
(2002)
PAUP 4.0b10 Phylogenetic analysis using parsimony and other methods. Sunderland: Sinauer Associations
(1983)
The International Union for the Conservation of Nature Invertebrate Red Data Book. Gland: IUCN
Song Song, Buhay Buhay, Whiting Whiting, Crandall Crandall (2008)
Many species in oneDNA barcoding overestimates the number of species when nuclear mitochondrial pseudogenes are coamplified, 105
(2002)
PAUP Ã 4.0b10 Phylogenetic analysis using parsimony and other methods
(2011)
c 2010 The Authors. Animal Conservation c 2010 The Zoological Society of London
(2005)
Molecular phylogenetics for conservation biology
J. Kohen, J. Merrick (1998)
Limited usage of freshwater crayfishes (genus Euastacus) by Aborigines in eastern New South Wales: Records and comments, 1998
(1996)
IUCN red list categories
P. Horwitz (1988)
Sea-level fluctuations and the distributions of some freshwater crayfishes of the genus Engaeus (Decapoda; Parastacidae) in the bass strait areaMarine and Freshwater Research, 39
J. Thompson, T. Gibson, F. Plewniak, F. Jeanmougin, D. Higgins (1997)
The CLUSTAL_X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools.Nucleic acids research, 25 24
R. Crozier (1992)
Genetic diversity and the agony of choiceBiological Conservation, 61
(1996)
Biogeographical affinities of Macrocrustacean groups in northeast Tasmania
P. Librado, J. Rozas (2009)
DnaSP v5: a software for comprehensive analysis of DNA polymorphism dataBioinformatics, 25 11
Heather Shull, M. Pérez‐Losada, D. Blair, K. Sewell, E. Sinclair, S. Lawler, M. Ponniah, K. Crandall (2005)
Phylogeny and biogeography of the freshwater crayfish Euastacus (Decapoda: Parastacidae) based on nuclear and mitochondrial DNA.Molecular phylogenetics and evolution, 37 1
D. Posada, K. Crandall (1998)
MODELTEST: testing the model of DNA substitutionBioinformatics, 14 9
(1996)
Population genetics of theMurray river crayfish Euastacus armatus
J. Fetzner, K. Crandall (2003)
LINEAR HABITATS AND THE NESTED CLADE ANALYSIS: AN EMPIRICAL EVALUATION OF GEOGRAPHIC VERSUS RIVER DISTANCES USING AN OZARK CRAYFISH (DECAPODA: CAMBARIDAE), 57
Crandall (2009)
Avoidance of extinction through nonexistencethe use of museum specimens and molecular genetics to determine the taxonomic status of an endangered freshwater crayfish, 10
Librado Librado, Rozas Rozas (2009)
DnaSP v5a software for comprehensive analysis of DNA polymorphism data, 25
D. Swofford, D. Swofford, D. Swofford (2002)
PAUP*: Phylogenetic analysis using parsimony (*and other methods), Version 4.0b10
(2000)
The monophyletic origin of freshwater crayfish estimated from Animal Conservation
D. Chapple, J. Keogh, M. Hutchinson (2005)
Substantial genetic substructuring in southeastern and alpine Australia revealed by molecular phylogeography of the Egernia whitii (Lacertilia: Scincidae) species groupMolecular Ecology, 14
(1987)
The aquaculture potential of the giant freshwater crayfish, Astacopsis gouldi
Matthew Webb, A. Richardson (2004)
A RADIO TELEMETRY STUDY OF MOVEMENT IN THE GIANT TASMANIAN FRESHWATER CRAYFISH, ASTACOPSIS GOULDI., 14
(1993)
Empirical tests of some predictions from coalescence theory
Hojun Song, J. Buhay, M. Whiting, K. Crandall (2008)
Many species in one: DNA barcoding overestimates the number of species when nuclear mitochondrial pseudogenes are coamplifiedProceedings of the National Academy of Sciences, 105
A. Toon, M. Pérez‐Losada, C. Schweitzer, R. Feldmann, Michaela Carlson, K. Crandall (2010)
Gondwanan radiation of the Southern Hemisphere crayfishes (Decapoda: Parastacidae): evidence from fossils and moleculesJournal of Biogeography, 37
R. Crozier (1997)
Preserving the Information Content of Species: Genetic Diversity, Phylogeny, and Conservation WorthAnnual Review of Ecology, Evolution, and Systematics, 28
P. Davies, L. Cook, S. Munks, J. Meggs (2005)
Astacopsis gouldi Clark: habitat characteristics and relative abundance of juveniles, 16
Bedatou (2008)
Crayfish burrows from Late Jurassic-Late Cretaceous continental deposits of PatagoniaArgentina. Their palaeoecological, palaeoclimatic and palaeobiogeograhical significance, 257
Alison Whiting, S. Lawler, P. Horwitz, K. Crandall (2000)
Biogeographic regionalization of Australia: assigning conservation priorities based on endemic freshwater crayfish phylogeneticsAnimal Conservation, 3
(1996)
Population genetics of theMurray river crayfish
P. Horwitz (1994)
Distribution and conservation status of the Tasmanian giant freshwater lobster Astacopsis gouldi (Decadopa: Parastacidae)Biological Conservation, 69
J. Buhay, Gerald Moni, Nathaniel Mann, K. Crandall (2007)
Molecular taxonomy in the dark: evolutionary history, phylogeography, and diversity of cave crayfish in the subgenus Aviticambarus, genus Cambarus.Molecular phylogenetics and evolution, 42 2
Ziheng Yang, R. Nielsen, N. Goldman, Anne-Mette Pedersen (2000)
Codon-substitution models for heterogeneous selection pressure at amino acid sites.Genetics, 155 1
Horwitz Horwitz (1995)
The conservation status of Australian freshwater Crayfisha review and update, 10
F. Tajima (1983)
Evolutionary relationship of DNA sequences in finite populations.Genetics, 105 2
(1983)
The International Union for the Conservation of Nature Invertebrate Red Data Book
K. Crandall, H. Robison, J. Buhay (2009)
Avoidance of extinction through nonexistence: the use of museum specimens and molecular genetics to determine the taxonomic status of an endangered freshwater crayfishConservation Genetics, 10
Amm Richardson, N. Doran, B. Hansen (2006)
The geographic ranges of Tasmanian crayfish: extent and pattern
E. Sinclair, J. Fetzner, J. Buhay, K. Crandall (2004)
PROPOSAL TO COMPLETE A PHYLOGENETIC TAXONOMY AND SYSTEMATIC REVISION FOR FRESHWATER CRAYFISH (ASTACIDEA)
P. Unmack (2001)
Biogeography of Australian freshwater fishesJournal of Biogeography, 28
K. Crandall, J. Fetzner, S. Lawler, M. Kinnersley, C. Austin (1999)
PHYLOGENETIC RELATIONSHIPS AMONG THE AUSTRALIAN AND NEW ZEALAND GENERA OF FRESHWATER CRAYFISHES (DECAPODA:PARASTACIDAE)Australian Journal of Zoology, 47
(1994)
Distribution and conservation status of the Tasmanian giant freshwater lobster Astacopsis gouldi (Decapoda: Parastacidae)
K. Crandall, Alan Templeton (1993)
Empirical tests of some predictions from coalescent theory with applications to intraspecific phylogeny reconstruction.Genetics, 134 3
(1993)
A survey of the giant freshwater crayfish, Astacopsis gouldi Clarke, to identify processes potentially threatening its populations in the Gog Range, northern Tasmania
Fetzner Fetzner, Crandall Crandall (2003)
Linear habitats and the nested clade analysisan empirical evaluation of geographic versus river distances using than Ozark crayfish (Decapoda: Cambaridae), 57
R. Rader, M. Belk, D. Shiozawa, K. Crandall (2005)
Empirical tests for ecological exchangeabilityAnimal Conservation, 8
Schultz Schultz, Ierodiaconou Ierodiaconou, Smith Smith, Horwitz Horwitz, Richardson Richardson, Crandall Crandall, Austin Austin (2008)
Sea‐level changes and palaeo‐rangesreconstruction of ancient shorelines and river drainages and the phylogeography of the Australian land crayfish Engaeus sericatus Clark (Decapoda: Parastacidae), 17
(2008)
Sea-level changes and palaeo-ranges: reconstruction of ancient shorelines and river drainages and the phylogeography of the Australian land crayfish Engaeus
Posada Posada, Crandall Crandall (2001)
Intraspecific gene genealogiestrees grafting into networks, 16
Emilio Bedatou, Ricardo Melchor, E. Bellosi, J. Genise (2008)
Crayfish burrows from Late Jurassic–Late Cretaceous continental deposits of Patagonia: Argentina. Their palaeoecological, palaeoclimatic and palaeobiogeographical significancePalaeogeography, Palaeoclimatology, Palaeoecology, 257
Goldman Goldman, Anderson Anderson, Rodrigo Rodrigo (2000)
Likelihood‐based tests of topologies in phylogeneticsSyst. Zool., 49
K. Crandall (2009)
A multifaceted approach to species conservationAnimal Conservation, 12
MARK Schultz, D. Ierodiaconou, S. Smith, P. Horwitz, A. Richardson, K. Crandall, C. Austin (2008)
Sea‐level changes and palaeo‐ranges: reconstruction of ancient shorelines and river drainages and the phylogeography of the Australian land crayfish Engaeus sericatus Clark (Decapoda: Parastacidae)Molecular Ecology, 17
N. Goldman, Jon Anderson, A. Rodrigo (2000)
Likelihood-based tests of topologies in phylogenetics.Systematic biology, 49 4
D. Posada, K. Crandall (2001)
Intraspecific gene genealogies: trees grafting into networks.Trends in ecology & evolution, 16 1
Alan Templeton, K. Crandall, C. Sing (1992)
A cladistic analysis of phenotypic associations with haplotypes inferred from restriction endonuclease mapping and DNA sequence data. III. Cladogram estimation.Genetics, 132 2
F. Tajima (1989)
Statistical method for testing the neutral mutation hypothesis by DNA polymorphism.Genetics, 123 3
Hansen Hansen, Adams Adams, Krasnicki Krasnicki, Richardson Richardson (2002)
Substantial allozyme diversity in the freshwater crayfish Parastacoides tasmanicus supports extensive cryptic speciationInvert. Taxon., 15
D. Spielman, B. Brook, R. Frankham (2004)
Most species are not driven to extinction before genetic factors impact them.Proceedings of the National Academy of Sciences of the United States of America, 101 42
K. Crandall, J. Fitzpatrick, D. Faith (1996)
CRAYFISH MOLECULAR SYSTEMATICS: USING A COMBINATION OF PROCEDURES TO ESTIMATE PHYLOGENYSystematic Biology, 45
Felsenstein Felsenstein (1985)
Confidence limits on phylogeniesan approach using the bootstrap, 39
K. Crandall, O. Bininda-Emonds, G. Mace, R. Wayne (2000)
Considering evolutionary processes in conservation biology.Trends in ecology & evolution, 15 7
Yang Yang (1997)
PAMLa program package for phylogenetic analysis by maximum likelihood, 13
(2006)
Hobart: Threatened Species Section, Department of Primary Industries and Water
E. Sinclair, M. Pérez‐Losada, K. Crandall (2005)
Phylogeny and Conservation: Molecular phylogenetics for conservation biology
Thompson Thompson, Gibson Gibson, Plewniak Plewniak, Jeanmougin Jeanmougin, Higgins Higgins (1997)
The ClustalX windows interfaceflexible strategies for multiple sequence alignment aided by quality analysis tools, 24
Buhay (2007)
Molecular taxonomy in the darkevolutionary history, phylogeography, and diversity of cave crayfish in the subgenus Aviticambarus, genus Cambarus, 42
K. Crandall (1994)
Intraspecific Cladogram Estimation: Accuracy at Higher Levels of DivergenceSystematic Biology, 43
Mark Schultz, S. Smith, A. Richardson, P. Horwitz, K. Crandall, C. Austin (2007)
Cryptic diversity in Engaeus Erichson, Geocharax Clark and Gramastacus Riek (Decapoda:Parastacidae) revealed by mitochondrial 16S rDNA sequencesInvertebrate Systematics, 21
B. Hansen, M. Adams, T. Krasnicki, Amm Richardson (2001)
Substantial allozyme diversity in the freshwater crayfish Parastacoides tasmanicus supports extensive cryptic speciationInvertebrate Systematics, 15
Ziheng Yang (1997)
PAML: a program package for phylogenetic analysis by maximum likelihoodComputer applications in the biosciences : CABIOS, 13 5
G. Watterson (1975)
On the number of segregating sites in genetical models without recombination.Theoretical population biology, 7 2
(1987)
The aquaculture potential of the giant freshwater crayfish
Keith Crandal, D. Harris, J. Fetzner (2000)
The monophyletic origin of freshwater crayfish estimated from nuclear and mitochondrial DNA sequencesProceedings of the Royal Society of London. Series B: Biological Sciences, 267
S. Woolley, D. Posada, K. Crandall (2008)
A Comparison of Phylogenetic Network Methods Using Computer SimulationPLoS ONE, 3
(2000)
c 2010 The Authors. Animal Conservation c 2010 The Zoological Society of London nuclear and mitochondrial DNA sequences
D. Maddison, W. Maddison (2003)
MacClade 4: analysis of phy-logeny and character evolution
(1995)
The conservation status of Australian freshwater Crayfish: a review and update
P. Hamr (1992)
A REVISION OF THE TASMANIAN FRESHWATER CRAYFISH GENUS ASTACOPSIS HUXLEY (DECAPODA: PARASTACIDAE)., 126
(2005)
Phylogeny of the freshwater crayfish Euastacus (Decapoda: Parastacidae) based on four nuclear and mitochondrial DNA genes.Mol
I. Growns (1995)
Astacopsis gouldi Clark in streams of the Gog Range, northern Tasmania:the effects of catchment disturbance, 129
J. Felsenstein (1985)
CONFIDENCE LIMITS ON PHYLOGENIES: AN APPROACH USING THE BOOTSTRAPEvolution, 39
M. Clement, D. Posada, K. Crandall (2000)
TCS: a computer program to estimate gene genealogiesMolecular Ecology, 9
(1994)
Faunal breaks in Tasmania and their significance for invertebrate conservation
S. Lawler, K. Crandall (1998)
The relationship of the Australian freshwater crayfish genera Euastacus and Astacopsis, 119
(2006)
Giant Freshwater Lobster Astacopsis gouldi Recovery Plan 2006–2010
S. Wells, R. Pyle, N. Collins (1983)
The IUCN invertebrate red data book
Crandall (1996)
Crayfish molecular systematicsusing a combination of procedures to estimate phylogeny, 45
Posada Posada, Crandall Crandall (1998)
Modeltesttesting the model of DNA substitution, 14
(2005)
Phylogeny of the freshwater crayfish Euastacus ( Decapoda : Parastacidae ) based on four nuclear and mitochondrial DNA genes
Whiting Whiting, Lawler Lawler, Horwitz Horwitz, Crandall Crandall (2000)
Biogeographic regionalization of Australiaassigning conservation priorities based on endemic freshwater crayfish phylogenetics, 3
Mark Pagani, Lisa Sloan, Ellen Thomas, Katharina Billups (2001)
Sea Level Change Through the Last Glacial Cycle
Nguyen Nguyen, Meewan Meewan, Ryan Ryan, Austin Austin (2001)
Genetic diversity and translocation in the marron Cherax tenuimanus (Smith)implications for management and conservation, 8
Clement (2000)
TCSa computer program to estimate gene genealogies, 9
P. Sinnayah, E. Jobst, J. Rathner, A. Caldera-Siu, Luciana Tonelli-Lemos, A. Eusterbrock, P. Enriori, E. Pothos, K. Grove, M. Cowley (2008)
Feeding Induced by Cannabinoids Is Mediated Independently of the Melanocortin SystemPLoS ONE, 3
Crandall (1994)
Intraspecific cladogram estimationaccuracy at higher levels of divergence, 43
Dhn Munasinghe, N. Murphy, C. Austin (2003)
UTILITY OF MITOCHONDRIAL DNA SEQUENCES FROM FOUR GENE REGIONS FOR SYSTEMATIC STUDIES OF AUSTRALIAN FRESHWATER CRAYFISH OF THE GENUS CHERAX (DECAPODA: PARASTACIDAE), 23
The giant Tasmanian freshwater crayfish Astacopsis gouldi prized by fisherman, is the world's largest freshwater invertebrate. Astacopsis gouldi is known only from river drainages in northern Tasmania. A narrow distribution, pollution of habitat and over‐harvesting has led to the rapid decline of populations and subsequent loss from a number of drainages. We collected mitochondrial DNA sequences to assess population structure and genetic diversity from throughout the species' distribution. We found a lineage from north‐eastern Tasmania, which was genetically divergent compared with the remaining distribution in north‐western Tasmania. Populations from the remaining distribution, including haplotypes found across a noted faunal barrier (Tamar River), were genetically homogeneous with <1% sequence divergence. This finding is concordant with a hypothesis of more interconnected drainages associated with lower sea levels in the past. The new cryptic lineage from north‐east Tasmania requires further investigation and may be of extremely high conservation value. Conservation efforts for A. gouldi, combining habitat restoration with in situ management of wild populations and some population augmentation into once occupied rivers, will also have a positive impact for conservation of freshwater ecosystems in northern Tasmania.
Animal Conservation – Wiley
Published: Feb 1, 2011
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