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RESEARCH ARTICLE (Open Access)

Multi-gene insights into the taxonomy and conservation of Tasmania’s galaxiid fishes

Mark Adams A B , Michael P. Hammer C , Peter J. Unmack D , Tarmo A. Raadik E , Charlotte Jense F and Christopher P. Burridge https://orcid.org/0000-0002-8185-6091 F *
+ Author Affiliations
- Author Affiliations

A Evolutionary Biology Unit, South Australian Museum, North Terrace, Adelaide, SA 5000, Australia.

B School of Biological Sciences, The University of Adelaide, Adelaide, SA 5005, Australia.

C Museum & Art Gallery of the Northern Territory, Darwin, NT 0810, Australia.

D Centre for Applied Water Science, Institute for Applied Ecology, University of Canberra, Canberra, ACT 2617, Australia.

E Arthur Rylah Institute for Environmental Research, Department of Environment, Land, Water and Planning, Heidelberg, Vic. 3084, Australia.

F Discipline of Biological Sciences, University of Tasmania, Sandy Bay, Tas. 7001, Australia.

* Correspondence to: chris.burridge@utas.edu.au

Handling Editor: Michael Joy

Marine and Freshwater Research 74(13) 1113-1128 https://doi.org/10.1071/MF22263
Submitted: 6 December 2022  Accepted: 6 July 2023   Published: 28 July 2023

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

Context: Galaxiids are a widespread, southern hemisphere, radiation of mostly obligate freshwater fishes. Tasmania houses a diversity of endemic species of Galaxias and Paragalaxias. Of these, many are at risk of extinction, being landlocked, range-restricted and subject to anthropogenic threats, placing a high-conservation priority on the region.

Aim: Our aim was to synthesise historic and published molecular datasets to provide the sound systematic framework needed to underpin future conservation and taxonomic efforts for Tasmanian galaxiids.

Methods: Novel and published nuclear (allozyme) and matrilineal (cytb) datasets were generated and integrated for every putative Tasmanian galaxiid species lacking a comparable multi-gene assessment.

Key results: The Tasmanian galaxiids are phylogenetically diverse, with molecular data generally supporting the accepted taxonomy, but with potential species-level diversity noted within an alpine radiation of the Galaxias truttaceus complex and further support for synonymy of G. niger within G. brevipinnis.

Conclusions: This study highlights the value of multi-locus studies in both validating species-level taxonomy and resolving taxonomic ambiguities and conservation priorities within Tasmania’s galaxiids.

Implications: Our integrated genetic analyses provide a framework to underpin more in-depth genomic approaches to assess additional cryptic diversity and conservation planning, such as genetic rescue and ex situ population security.

Keywords: allozymes, conservation genetics, cytonuclear discordance, Galaxiidae, landlocked population, mtDNA, Pedder Galaxias, species delimitation.


References

Adams, M, Wedderburn, SD, Unmack, PJ, Hammer, MP, and Johnson, JB (2011). Use of congeneric assessment to reveal the linked genetic histories of two threatened fishes in the Murray–Darling Basin, Australia. Conservation Biology 25, 767–776.
Use of congeneric assessment to reveal the linked genetic histories of two threatened fishes in the Murray–Darling Basin, Australia.Crossref | GoogleScholarGoogle Scholar |

Adams, M, Page, TJ, Hurwood, DA, and Hughes, JM (2013). A molecular assessment of species boundaries and phylogenetic affinities in Mogurnda (Eleotridae): a case study of cryptic biodiversity in the Australian freshwater fishes. Marine and Freshwater Research 64, 920–931.
A molecular assessment of species boundaries and phylogenetic affinities in Mogurnda (Eleotridae): a case study of cryptic biodiversity in the Australian freshwater fishes.Crossref | GoogleScholarGoogle Scholar |

Adams, M, Raadik, TA, Burridge, CP, and Georges, A (2014). Global biodiversity assessment and hyper-cryptic species complexes: more than one species of elephant in the room? Systematic Biology 63, 518–533.
Global biodiversity assessment and hyper-cryptic species complexes: more than one species of elephant in the room?Crossref | GoogleScholarGoogle Scholar |

Allen GR, Midgley SH, Allen M (2002) ‘Field guide to the freshwater fishes of Australia.’ (Western Australian Museum: Perth, WA, Australia)

Andrews, AP (1985). A new species of Galaxias (Pisces: Galaxiidae) from southern Tasmania. Papers and Proceedings of The Royal Society of Tasmania 119, 55–60.
A new species of Galaxias (Pisces: Galaxiidae) from southern Tasmania.Crossref | GoogleScholarGoogle Scholar |

Arthington, AH, Milton, D, and McKay, RJ (1983). Effects of urban development and habitat alterations on the distribution and abundance of native and exotic freshwater fish in the Brisbane region, Queensland. Australian Journal of Ecology 8, 87–101.
Effects of urban development and habitat alterations on the distribution and abundance of native and exotic freshwater fish in the Brisbane region, Queensland.Crossref | GoogleScholarGoogle Scholar |

Baverstock PR, Moritz CM (1996) Project design. In ‘Molecular systematics’, 2nd edn. (Eds DM Hillis, C Moritz, BK Mable) pp. 17–27. (Sinauer Associates: Sunderland, MA, USA)

Berra TM (1998) ‘A natural history of Australia.’ (Academic Press: San Diego, CA, USA)

Bray DJ (2018) Family GALAXIIDAE. In ‘Fishes of Australia’. (Museums Victoria) Available at https://fishesofaustralia.net.au/home/family/126 [Verified 13 July 2023]

Brooks, E, Slender, AL, Cu, S, Breed, MF, and Stangoulis, JCR (2022). A range-wide analysis of population structure and genomic variation within the critically endangered spiny daisy (Acanthocladium dockeri). Conservation Genetics 23, 1027–1037.
A range-wide analysis of population structure and genomic variation within the critically endangered spiny daisy (Acanthocladium dockeri).Crossref | GoogleScholarGoogle Scholar |

Burridge, CP, McDowall, RM, Craw, D, Wilson, MVH, and Waters, JM (2012). Marine dispersal as a pre-requisite for Gondwanan vicariance among elements of the galaxiid fish fauna. Journal of Biogeography 39, 306–321.
Marine dispersal as a pre-requisite for Gondwanan vicariance among elements of the galaxiid fish fauna.Crossref | GoogleScholarGoogle Scholar |

Card, DC, Shapiro, B, Giribet, G, Moritz, C, and Edwards, SV (2021). Museum genomics. Annual Review of Genetics 55, 633–659.
Museum genomics.Crossref | GoogleScholarGoogle Scholar |

Chilcott, S, Freeman, R, Davies, PE, Crook, DA, Fulton, W, Hamr, P, Jarvis, D, and Sanger, AC (2013). Extinct habitat, extant species: lessons learned from conservation recovery actions for the Pedder galaxias (Galaxias pedderensis) in south-west Tasmania, Australia. Marine and Freshwater Research 64, 864–873.
Extinct habitat, extant species: lessons learned from conservation recovery actions for the Pedder galaxias (Galaxias pedderensis) in south-west Tasmania, Australia.Crossref | GoogleScholarGoogle Scholar |

Coleman, RA, Pettigrove, V, Raadik, TA, Hoffmann, AA, Miller, AD, and Carew, ME (2010). Microsatellite markers and mtDNA data indicate two distinct groups in dwarf galaxias, Galaxiella pusilla (Mack) (Pisces: Galaxiidae), a threatened freshwater fish from south-eastern Australia. Conservation Genetics 11, 1911–1928.
Microsatellite markers and mtDNA data indicate two distinct groups in dwarf galaxias, Galaxiella pusilla (Mack) (Pisces: Galaxiidae), a threatened freshwater fish from south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Coleman, RA, Hoffman, AA, and Raadik, TA (2015). A review of Galaxiella pusilla (Mack) (Teleostei: Galaxiidae) in south-eastern Australia with a description of a new species. Zootaxa 4021, 243–281.
A review of Galaxiella pusilla (Mack) (Teleostei: Galaxiidae) in south-eastern Australia with a description of a new species.Crossref | GoogleScholarGoogle Scholar |

Cook, BD, Kennard, MJ, Real, K, Pusey, BJ, and Hughes, JM (2011). Landscape genetic analysis of the tropical freshwater fish Mogurnda mogurnda (Eleotridae) in a monsoonal river basin: importance of hydrographic factors and population history. Freshwater Biology 56, 812–827.
Landscape genetic analysis of the tropical freshwater fish Mogurnda mogurnda (Eleotridae) in a monsoonal river basin: importance of hydrographic factors and population history.Crossref | GoogleScholarGoogle Scholar |

Cook, BD, Adams, M, Unmack, PJ, Burrows, D, Pusey, BJ, Perna, C, and Hughes, JM (2017). Phylogeography of the mouth-brooding freshwater fish Glossamia aprion (Apogonidae) in northern and eastern Australia: historical biogeography and allopatric speciation. Biological Journal of the Linnean Society 121, 833–848.
Phylogeography of the mouth-brooding freshwater fish Glossamia aprion (Apogonidae) in northern and eastern Australia: historical biogeography and allopatric speciation.Crossref | GoogleScholarGoogle Scholar |

Crowl, TA, Townsend, CR, and Mcintosh, AR (1992). The impact of introduced brown and rainbow trout on native fish: the case of Australasia. Reviews in Fish Biology and Fisheries 2, 217–241.
The impact of introduced brown and rainbow trout on native fish: the case of Australasia.Crossref | GoogleScholarGoogle Scholar |

Department of Climate Change, Energy, the Environment and Water (2022) Species Profile and Threats Database: EPBC Act List of Threatened Fauna. Available at https://www.environment.gov.au/cgi-bin/sprat/public/publicthreatenedlist.pl?wanted=fauna [Verified 13 July 2023]

Dudgeon, D, Arthington, AH, Gessner, MO, Kawabata, Z-I, Knowler, DJ, Lévêque, C, Naiman, RJ, Prieur-Richard, A-H, Soto, D, Stiassny, MLJ, and Sullivan, CA (2006). Freshwater biodiversity: importance, threats, status and conservation challenges. Biological Reviews 81, 163–182.
Freshwater biodiversity: importance, threats, status and conservation challenges.Crossref | GoogleScholarGoogle Scholar |

Duncan, JR, and Lockwood, JL (2001). Extinction in a field of bullets: a search for causes in the decline of the world’s freshwater fishes. Biological Conservation 102, 97–105.
Extinction in a field of bullets: a search for causes in the decline of the world’s freshwater fishes.Crossref | GoogleScholarGoogle Scholar |

Faulks, LK, Kerezsy, A, Unmack, PJ, Johnson, JB, and Hughes, JM (2017). Going, going, gone? Loss of genetic diversity in two critically endangered Australian freshwater fishes, Scaturiginichthys vermeilipinnis and Chlamydogobius squamigenus, from Great Artesian Basin springs at Edgbaston, Queensland, Australia. Aquatic Conservation: Marine and Freshwater Ecosystems 27, 39–50.
Going, going, gone? Loss of genetic diversity in two critically endangered Australian freshwater fishes, Scaturiginichthys vermeilipinnis and Chlamydogobius squamigenus, from Great Artesian Basin springs at Edgbaston, Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |

Frankham R, Ballou JD, Ralls K, Eldridge MDB, Dudash MR, Fenster CB, Lacy RC, Sunnucks P (2017) ‘Genetic management of fragmented animal and plant populations.’ (Oxford University Press: Oxford, UK)

Fulton W (1990) ‘Tasmanian freshwater fishes: fauna of Tasmania handbook Number 7.’ (University of Tasmania: Hobart, Tas., Australia)

Georges, A, and Adams, M (1996). Electrophoretic delineation of species boundaries within the short-necked freshwater turtles of Australia (Testudines: Chelidae). Zoological Journal of the Linnean Society 118, 241–260.
Electrophoretic delineation of species boundaries within the short-necked freshwater turtles of Australia (Testudines: Chelidae).Crossref | GoogleScholarGoogle Scholar |

Georges, A, Gruber, B, Pauly, GB, White, D, Adams, M, Young, MJ, Kilian, A, Zhang, X, Shaffer, HB, and Unmack, PJ (2018). Genomewide SNP markers breathe new life into phylogeography and species delimitation for the problematic short-necked turtles (Chelidae: Emydura) of eastern Australia. Molecular Ecology 27, 5195–5213.
Genomewide SNP markers breathe new life into phylogeography and species delimitation for the problematic short-necked turtles (Chelidae: Emydura) of eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Guildea, C, Hitchen, Y, Duffy, R, Dias, PJ, Ledger, JM, Snow, M, and Kennington, WJ (2015). Introgression threatens the survival of the critically endangered freshwater crayfish Cherax tenuimanus (Decapoda: Parastacidae) in the wild. PLoS ONE 10, e0121075.
Introgression threatens the survival of the critically endangered freshwater crayfish Cherax tenuimanus (Decapoda: Parastacidae) in the wild.Crossref | GoogleScholarGoogle Scholar |

Hammer, MP, Adams, M, Unmack, PJ, and Walker, KF (2007). A rethink on Retropinna: conservation implications of new taxa and significant genetic sub-structure in Australian smelts (Pisces: Retropinnidae). Marine and Freshwater Research 58, 327–341.
A rethink on Retropinna: conservation implications of new taxa and significant genetic sub-structure in Australian smelts (Pisces: Retropinnidae).Crossref | GoogleScholarGoogle Scholar |

Hammer, MP, Bice, CM, Hall, A, Frears, A, Watt, A, Whiterod, NS, Beheregaray, LB, Harris, JO, and Zampatti, BP (2013a). Freshwater fish conservation in the face of critical water shortages in the southern Murray–Darling Basin, Australia. Marine and Freshwater Research 64, 807–821.
Freshwater fish conservation in the face of critical water shortages in the southern Murray–Darling Basin, Australia.Crossref | GoogleScholarGoogle Scholar |

Hammer MP, Adams M, Hughes JM (2013b) Evolutionary processes and biodiversity. In ‘Ecology of Australian freshwater fishes’. (Eds K Walker, P Humphries) pp. 49–79. (CSIRO Publishing: Melbourne, Vic., Australia)

Hammer, MP, Unmack, PJ, Adams, M, Raadik, TA, and Johnson, JB (2014). A multigene molecular assessment of cryptic biodiversity in the iconic freshwater blackfishes (Teleostei: Percichthyidae: Gadopsis) of south-eastern Australia. Biological Journal of the Linnean Society 111, 521–540.
A multigene molecular assessment of cryptic biodiversity in the iconic freshwater blackfishes (Teleostei: Percichthyidae: Gadopsis) of south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Hammer, MP, Allen, GR, Martin, KC, Adams, M, Ebner, BC, Raadik, TA, and Unmack, PJ (2018). Revision of the Australian wet tropics endemic rainbowfish genus Cairnsichthys (Atheriniformes: Melanotaeniidae), with description of a new species. Zootaxa 4413, 271–294.
Revision of the Australian wet tropics endemic rainbowfish genus Cairnsichthys (Atheriniformes: Melanotaeniidae), with description of a new species.Crossref | GoogleScholarGoogle Scholar |

Hammer, MP, Allen, GR, Martin, KC, Adams, M, and Unmack, PJ (2019a). Two new species of dwarf rainbowfishes (Atheriniformes: Melanotaeniidae) from northern Australia and southern New Guinea. Zootaxa 4701, 201–234.
Two new species of dwarf rainbowfishes (Atheriniformes: Melanotaeniidae) from northern Australia and southern New Guinea.Crossref | GoogleScholarGoogle Scholar |

Hammer, MP, Adams, M, Thacker, CE, Johnson, JB, and Unmack, PJ (2019b). Comparison of genetic structure in co-occurring freshwater eleotrids (Actinopterygii: Philypnodon) reveals cryptic species, likely translocation and regional conservation hotspots. Molecular Phylogenetics and Evolution 139, 106556.
Comparison of genetic structure in co-occurring freshwater eleotrids (Actinopterygii: Philypnodon) reveals cryptic species, likely translocation and regional conservation hotspots.Crossref | GoogleScholarGoogle Scholar |

Hammer, MP, Taillebois, L, King, AJ, Crook, DA, Wedd, D, Adams, M, Unmack, PJ, Hoese, DF, and Bertozzi, T (2021a). Unravelling the taxonomy and identification of a problematic group of benthic fishes from tropical rivers (Gobiidae: Glossogobius). Journal of Fish Biology 99, 87–100.
Unravelling the taxonomy and identification of a problematic group of benthic fishes from tropical rivers (Gobiidae: Glossogobius).Crossref | GoogleScholarGoogle Scholar |

Hammer, MP, Adams, M, Unmack, PJ, Hassell, KL, and Bertozzi, T (2021b). Surprising Pseudogobius: molecular systematics of benthic gobies reveals new insights into estuarine biodiversity (Teleostei: Gobiiformes). Molecular Phylogenetics and Evolution 160, 107140.
Surprising Pseudogobius: molecular systematics of benthic gobies reveals new insights into estuarine biodiversity (Teleostei: Gobiiformes).Crossref | GoogleScholarGoogle Scholar |

Hardie, SA, Jackson, JE, Barmuta, LA, and White, RWG (2006). Status of galaxiid fishes in Tasmania, Australia: conservation listings, threats and management issues. Aquatic Conservation: Marine and Freshwater Ecosystems 16, 235–250.
Status of galaxiid fishes in Tasmania, Australia: conservation listings, threats and management issues.Crossref | GoogleScholarGoogle Scholar |

Harvey, MS, Rix, MG, Framenau, VW, Hamilton, ZR, Johnson, MS, Teale, RJ, Humphreys, G, and Humphreys, WF (2011). Protecting the innocent: studying short-range endemic taxa enhances conservation outcomes. Invertebrate Systematics 25, 1–10.
Protecting the innocent: studying short-range endemic taxa enhances conservation outcomes.Crossref | GoogleScholarGoogle Scholar |

Hoese, DF, and Hammer, MP (2021). A review of the Glossogobius giuris complex in Australia, with wider discussion on nomenclature and possible synonymies. Zootaxa 4974, 79–115.
A review of the Glossogobius giuris complex in Australia, with wider discussion on nomenclature and possible synonymies.Crossref | GoogleScholarGoogle Scholar |

Humphries, P (1990). Morphological variation in diadromous and landlocked populations of the spotted galaxias, Galaxias truttaceus, in Tasmania, south-eastern Australia. Environmental Biology of Fishes 27, 97–105.
Morphological variation in diadromous and landlocked populations of the spotted galaxias, Galaxias truttaceus, in Tasmania, south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Humphries, P (2009). Wilhelm Blandowski’s contribution to ichthyology of the Murray–Darling Basin, Australia. Proceedings of the Royal Society of Victoria 121, 90–108.
Wilhelm Blandowski’s contribution to ichthyology of the Murray–Darling Basin, Australia.Crossref | GoogleScholarGoogle Scholar |

Jerry, DR (2008). Phylogeography of the freshwater catfish Tandanus tandanus (Plotosidae): a model species to understand evolution of the eastern Australian freshwater fish fauna. Marine and Freshwater Research 59, 351–360.
Phylogeography of the freshwater catfish Tandanus tandanus (Plotosidae): a model species to understand evolution of the eastern Australian freshwater fish fauna.Crossref | GoogleScholarGoogle Scholar |

Jusaitis, M, and Adams, M (2005). Conservation implications of clonality and limited sexual reproduction in the endangered shrub Acanthocladium dockeri (Asteraceae). Australian Journal of Botany 53, 535–544.
Conservation implications of clonality and limited sexual reproduction in the endangered shrub Acanthocladium dockeri (Asteraceae).Crossref | GoogleScholarGoogle Scholar |

Larson, HK, and Hammer, MP (2021). A revision of the gobiid fish genus Pseudogobius (Teleostei, Gobiidae, Tridentigerinae), with description of seven new species from Australia and South-east Asia. Zootaxa 4961, 1–85.
A revision of the gobiid fish genus Pseudogobius (Teleostei, Gobiidae, Tridentigerinae), with description of seven new species from Australia and South-east Asia.Crossref | GoogleScholarGoogle Scholar |

Le Vin, AL, Adam, A, Tedder, A, Arnold, KE, and Mable, BK (2011). Validation of swabs as a non-destructive and relatively non-invasive DNA sampling method in fish. Molecular Ecology Resources 11, 107–109.
Validation of swabs as a non-destructive and relatively non-invasive DNA sampling method in fish.Crossref | GoogleScholarGoogle Scholar |

Leaché, AD, and Oaks, JR (2017). The utility of single nucleotide polymorphism (SNP) data in phylogenetics. Annual Review of Ecology, Evolution, and Systematics 48, 69–84.
The utility of single nucleotide polymorphism (SNP) data in phylogenetics.Crossref | GoogleScholarGoogle Scholar |

Leis, JM, Gomon, MF, and Larson, HK (2007). Australian fish taxonomists – an endangered species. AMSA Bulletin 176, 32–33.

Lintermans, M (2004). Human-assisted dispersal of alien freshwater fish in Australia. New Zealand Journal of Marine and Freshwater Research 38, 481–501.
Human-assisted dispersal of alien freshwater fish in Australia.Crossref | GoogleScholarGoogle Scholar |

Lintermans M (2007) ‘Fishes of the Murray–Darling Basin: an introductory guide.’ (Murray–Darling Basin Commission: Canberra, ACT, Australia)

Lintermans, M, Geyle, HM, Beatty, S, Brown, C, Ebner, BC, Freeman, R, Hammer, MP, Humphreys, WF, Kennard, MJ, Kern, P, Martin, K, Morgan, DL, Raadik, TA, Unmack, PJ, Wager, R, Woinarski, JCZ, and Garnett, ST (2020). Big trouble for little fish: identifying Australian freshwater fishes in imminent risk of extinction. Pacific Conservation Biology 26, 365–377.
Big trouble for little fish: identifying Australian freshwater fishes in imminent risk of extinction.Crossref | GoogleScholarGoogle Scholar |

Lundberg, JG, Kottelat, M, Smith, GR, Stiassny, MLJ, and Gill, AC (2000). So many fishes, so little time: an overview of recent ichthyological discovery in continental waters. Annals of the Missouri Botanical Garden 87, 26–62.
So many fishes, so little time: an overview of recent ichthyological discovery in continental waters.Crossref | GoogleScholarGoogle Scholar |

McDowall, RM, and Frankenberg, RS (1981). The galaxiid fishes of Australia (Pisces: Galaxiidae). Records of the Australian Museum 33, 443–605.
The galaxiid fishes of Australia (Pisces: Galaxiidae).Crossref | GoogleScholarGoogle Scholar |

McDowall RM, Fulton W (1996) Family Galaxiidae: galaxiids. In ‘Freshwater fishes of south-eastern Australia’, 2nd edn. (Ed RM McDowall) pp. 52–77. (Reed Books: Sydney, NSW, Australia)

McFarlane, SE, and Pemberton, JM (2019). Detecting the true extent of introgression during anthropogenic hybridization. Trends in Ecology & Evolution 34, 315–326.
Detecting the true extent of introgression during anthropogenic hybridization.Crossref | GoogleScholarGoogle Scholar |

Merrick JR, Schmida GE (1984) ‘Australian freshwater fishes, biology and management.’ (Griffin Press: Adelaide, SA, Australia)

Miller MA, Pfeiffer W, Schwartz T (2010) Creating the CIPRES Science Gateway for inference of large phylogenetic trees. In ‘Proceedings of the Gateway Computing Environments Workshop (GCE)’, 14 November 2010, New Orleans, LA, USA. INSPEC Accession Number 11705685. (IEEE) https://doi.org/10.1109/GCE.2010.5676129

Morgan, DL, Unmack, PJ, Beatty, SJ, Ebner, BC, Allen, MG, Keleher, JJ, Donaldson, JA, and Murphy, J (2014). An overview of the ‘freshwater fishes’ of Western Australia. Journal of the Royal Society of Western Australia 97, 263–278.

Morgan, DL, Beatty, SJ, Close, PG, Allen, MG, Unmack, PJ, Hammer, MP, and Adams, M (2016). Resolving the taxonomy, range and ecology of biogeographically isolated and critically endangered populations of an Australian freshwater galaxiid, Galaxias truttaceus. Pacific Conservation Biology 22, 350–359.
Resolving the taxonomy, range and ecology of biogeographically isolated and critically endangered populations of an Australian freshwater galaxiid, Galaxias truttaceus.Crossref | GoogleScholarGoogle Scholar |

Mossop, KD, Adams, M, Unmack, PJ, Smith Date, KL, Wong, BBM, and Chapple, DG (2015). Dispersal in the desert: ephemeral water drives connectivity and phylogeography of an arid-adapted fish. Journal of Biogeography 42, 2374–2388.
Dispersal in the desert: ephemeral water drives connectivity and phylogeography of an arid-adapted fish.Crossref | GoogleScholarGoogle Scholar |

Nielsen, JL, Tupper, D, and Thomas, WK (1994). Mitochondrial DNA polymorphism in unique runs of Chinook Salmon (Oncorhynchus tshawytscha) from the Sacramento–San Joaquin River Basin. Conservation Biology 8, 882–884.
Mitochondrial DNA polymorphism in unique runs of Chinook Salmon (Oncorhynchus tshawytscha) from the Sacramento–San Joaquin River Basin.Crossref | GoogleScholarGoogle Scholar |

Ovenden, JR, and White, RW (1990). Mitochondrial and allozyme genetics of incipient speciation in a landlocked population of Galaxias truttaceus (Pisces: Galaxiidae). Genetics 124, 701–716.
Mitochondrial and allozyme genetics of incipient speciation in a landlocked population of Galaxias truttaceus (Pisces: Galaxiidae).Crossref | GoogleScholarGoogle Scholar |

Ovenden, JR, White, RWG, and Adams, M (1993). Mitochondrial and allozyme genetics of two Tasmanian galaxiids (Galaxias auratus and G. tanycephalus, Pisces: Galaxiidae) with restricted lacustrine distributions. Heredity 70, 223–230.
Mitochondrial and allozyme genetics of two Tasmanian galaxiids (Galaxias auratus and G. tanycephalus, Pisces: Galaxiidae) with restricted lacustrine distributions.Crossref | GoogleScholarGoogle Scholar |

Page, TJ, Stevens, MI, Adams, M, Foster, R, Velasco-Castrillón, A, and Humphreys, WF (2018). Multiple molecular markers reinforce the systematic framework of unique Australian cave fishes (Milyeringa: Gobioidei). Australian Journal of Zoology 66, 115–127.
Multiple molecular markers reinforce the systematic framework of unique Australian cave fishes (Milyeringa: Gobioidei).Crossref | GoogleScholarGoogle Scholar |

Pavuk NC (1997) Population genetics of selected whitebait species: Galaxias maculatus (Jenyns) and Lovettia sealii (Johnston). MSc Thesis, University of Tasmania, Hobart, Tas., Australia.

Raadik, TA (2014). Fifteen from one: a revision of the Galaxias olidus Günther, 1866 complex (Teleostei, Galaxiidae) in south-eastern Australia recognises three previously described taxa and describes 12 new species. Zootaxa 3898, 1–198.
Fifteen from one: a revision of the Galaxias olidus Günther, 1866 complex (Teleostei, Galaxiidae) in south-eastern Australia recognises three previously described taxa and describes 12 new species.Crossref | GoogleScholarGoogle Scholar |

Raadik TA (2019a) Upland Galaxias: Galaxias sp. nov. ‘Hunter’. In ‘The IUCN Red List of Threatened Species 2019’. e.T128972888A128972891. (International Union for Conservation of Nature and Natural Resources) Available at https://www.iucnredlist.org/species/128972888/128972891 [Verified 13 July 2023]

Raadik T (2019b) ‘Moroka’ Galaxias: Galaxias sp. nov. ‘Moroka’. In ‘The IUCN Red List of Threatened Species 2019’. e.T128972928A128972932. (International Union for Conservation of Nature and Natural Resources) Available at https://www.iucnredlist.org/species/128972928/128972932 [Verified 13 July 2023]

Raadik T (2019c) Galaxias sp. nov. ‘Morwell’. In ‘The IUCN Red List of Threatened Species 2019’. e.T128972916A128972919. (International Union for Conservation of Nature and Natural Resources) Available at https://www.iucnredlist.org/species/128972916/128972919 [Verified 13 July 2023]

Raadik T (2019d) ‘Yalmy’ Galaxias: Galaxias sp. nov. ‘Yalmy’. In ‘The IUCN Red List of Threatened Species 2019’. e.T128972900A128972908. (International Union for Conservation of Nature and Natural Resources) Available at https://www.iucnredlist.org/species/128972900/128972908 [Verified 13 July 2023]

Reid, AJ, Carlson, AK, Creed, IF, Eliason, EJ, Gell, PA, Johnson, PTJ, Kidd, KA, MacCormack, TJ, Olden, JD, Ormerod, SJ, Smol, JP, Taylor, WW, Tockner, K, Vermaire, JC, Dudgeon, D, and Cooke, SJ (2019). Emerging threats and persistent conservation challenges for freshwater biodiversity. Biological Reviews 94, 849–873.
Emerging threats and persistent conservation challenges for freshwater biodiversity.Crossref | GoogleScholarGoogle Scholar |

Richardson BJ, Baverstock PR, Adams M (1986) ‘Allozyme electrophoresis: a handbook for animal systematics and population studies.’ (Academic Press: Sydney, NSW, Australia)

Schmidt, DJ, Crook, DA, Macdonald, JI, Huey, JA, Zampatti, BP, Chilcott, S, Raadik, TA, and Hughes, JM (2014). Migration history and stock structure of two putatively diadromous teleost fishes, as determined by genetic and otolith chemistry analyses. Freshwater Science 33, 193–206.
Migration history and stock structure of two putatively diadromous teleost fishes, as determined by genetic and otolith chemistry analyses.Crossref | GoogleScholarGoogle Scholar |

Shelley, JJ, Delaval, A, and Le Feuvre, MC (2017). A revision of the grunter genus Syncomistes (Teleostei, Terapontidae, Syncomistes) with descriptions of seven new species from the Kimberley region, northwestern Australia. Zootaxa 4367, 1–103.
A revision of the grunter genus Syncomistes (Teleostei, Terapontidae, Syncomistes) with descriptions of seven new species from the Kimberley region, northwestern Australia.Crossref | GoogleScholarGoogle Scholar |

Shelley, JJ, Swearer, SE, Adams, M, Dempster, T, Le Feuvre, MC, Hammer, MP, and Unmack, PJ (2018). Cryptic biodiversity in the freshwater fishes of the Kimberley endemism hotspot, northwestern Australia. Molecular Phylogenetics and Evolution 127, 843–858.
Cryptic biodiversity in the freshwater fishes of the Kimberley endemism hotspot, northwestern Australia.Crossref | GoogleScholarGoogle Scholar |

Stamatakis, A (2014). RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics 30, 1312–1313.
RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies.Crossref | GoogleScholarGoogle Scholar |

Thacker, CE, Geiger, DL, and Unmack, PJ (2022). Species delineation and systematics of a hemiclonal hybrid complex in Australian freshwaters (Gobiiformes: Gobioidei: Eleotridae: Hypseleotris). Royal Society Open Science 9, 220201.
Species delineation and systematics of a hemiclonal hybrid complex in Australian freshwaters (Gobiiformes: Gobioidei: Eleotridae: Hypseleotris).Crossref | GoogleScholarGoogle Scholar |

Unmack, PJ (2016). Update on saving running river rainbowfish. Fishes of Sahul 30, 1025–1032.

Unmack, PJ, Hammer, MP, Adams, M, and Dowling, TE (2011). A phylogenetic analysis of pygmy perches (Teleostei: Percichthyidae) with an assessment of the major historical influences on aquatic biogeography in southern Australia. Systematic Biology 60, 797–812.
A phylogenetic analysis of pygmy perches (Teleostei: Percichthyidae) with an assessment of the major historical influences on aquatic biogeography in southern Australia.Crossref | GoogleScholarGoogle Scholar |

Unmack, PJ, Bagley, JC, Adams, M, Hammer, MP, and Johnson, JB (2012). Molecular phylogeny and phylogeography of the Australian freshwater fish genus Galaxiella, with an emphasis on dwarf galaxias (G. pusilla). PLoS ONE 7, e38433.
Molecular phylogeny and phylogeography of the Australian freshwater fish genus Galaxiella, with an emphasis on dwarf galaxias (G. pusilla).Crossref | GoogleScholarGoogle Scholar |

Unmack, PJ, Hammer, MP, Adams, M, Johnson, JB, and Dowling, TE (2013). The role of continental shelf width in determining freshwater phylogeographic patterns in south-eastern Australian pygmy perches (Teleostei: Percichthyidae). Molecular Ecology 22, 1683–1699.
The role of continental shelf width in determining freshwater phylogeographic patterns in south-eastern Australian pygmy perches (Teleostei: Percichthyidae).Crossref | GoogleScholarGoogle Scholar |

Unmack, PJ, Sandoval-Castillo, J, Hammer, MP, Adams, M, Raadik, TA, and Beheregaray, LB (2017). Genome-wide SNPs resolve a key conflict between sequence and allozyme data to confirm another threatened candidate species of river blackfishes (Teleostei: Percichthyidae: Gadopsis). Molecular Phylogenetics and Evolution 109, 415–420.
Genome-wide SNPs resolve a key conflict between sequence and allozyme data to confirm another threatened candidate species of river blackfishes (Teleostei: Percichthyidae: Gadopsis).Crossref | GoogleScholarGoogle Scholar |

Unmack, PJ, Adams, M, Bylemans, J, Hardy, CM, Hammer, MP, and Georges, A (2019). Perspectives on the clonal persistence of presumed ‘ghost’ genomes in unisexual or allopolyploid taxa arising via hybridization. Scientific Reports 9, 4730.
Perspectives on the clonal persistence of presumed ‘ghost’ genomes in unisexual or allopolyploid taxa arising via hybridization.Crossref | GoogleScholarGoogle Scholar |

Unmack, PJ, Adams, M, Hammer, MP, Johnson, JB, Gruber, B, Gilles, A, Young, M, and Georges, A (2022). Plotting for change: an analytical framework to aid decisions on which lineages are candidate species in phylogenomic species discovery. Biological Journal of the Linnean Society 135, 117–137.
Plotting for change: an analytical framework to aid decisions on which lineages are candidate species in phylogenomic species discovery.Crossref | GoogleScholarGoogle Scholar |

Verspoor, E, and Hammart, J (1991). Introgressive hybridization in fishes: the biochemical evidence. Journal of Fish Biology 39, 309–334.
Introgressive hybridization in fishes: the biochemical evidence.Crossref | GoogleScholarGoogle Scholar |

Waters, JM, and Wallis, GP (2001). Cladogenesis and loss of the marine life-history phase in freshwater galaxiid fishes (Osmeriformes: Galaxiidae). Evolution 55, 587–597.
Cladogenesis and loss of the marine life-history phase in freshwater galaxiid fishes (Osmeriformes: Galaxiidae).Crossref | GoogleScholarGoogle Scholar |

Waters, JM, and White, RWG (1997). Molecular phylogeny and biogeography of the Tasmanian and New Zealand mudfishes (Salmoniformes: Galaxiidae). Australian Journal of Zoology 45, 39–48.
Molecular phylogeny and biogeography of the Tasmanian and New Zealand mudfishes (Salmoniformes: Galaxiidae).Crossref | GoogleScholarGoogle Scholar |

Waters, JM, Shirley, M, and Closs, GP (2002). Hydroelectric development and translocation of Galaxias brevipinnis: a cloud at the end of the tunnel? Canadian Journal of Fisheries and Aquatic Sciences 59, 49–56.
Hydroelectric development and translocation of Galaxias brevipinnis: a cloud at the end of the tunnel?Crossref | GoogleScholarGoogle Scholar |

Waters, JM, Rowe, DL, Burridge, CP, and Wallis, GP (2010). Gene trees versus species trees: reassessing life-history evolution in a freshwater fish radiation. Systematic Biology 59, 504–517.
Gene trees versus species trees: reassessing life-history evolution in a freshwater fish radiation.Crossref | GoogleScholarGoogle Scholar |

Welsh, SA, Jerry, DR, and Burrows, DW (2014). A new species of freshwater eel-tailed catfish of the genus Tandanus (Teleostei: Plotosidae) from the wet tropics region of eastern Australia. Copeia 2014, 136–142.
A new species of freshwater eel-tailed catfish of the genus Tandanus (Teleostei: Plotosidae) from the wet tropics region of eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Welsh, SA, Jerry, DR, Burrows, DW, and Rourke, ML (2017). A new species of freshwater eel-tailed catfish of the genus Tandanus (Teleostei: Plotosidae) from coastal rivers of mid-northern New South Wales, Australia. Copeia 105, 229–236.
A new species of freshwater eel-tailed catfish of the genus Tandanus (Teleostei: Plotosidae) from coastal rivers of mid-northern New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |

Whiterod, NS, Hammer, MP, Barnes, TC, Tucker, M, Adams, M, and Raadik, TA (2020). Clear as mud: the ecology and conservation of a secretive wetland fish (Neochanna cleaveri: Galaxiidae) in a heavily altered landscape. Wetlands Ecology and Management 28, 779–795.
Clear as mud: the ecology and conservation of a secretive wetland fish (Neochanna cleaveri: Galaxiidae) in a heavily altered landscape.Crossref | GoogleScholarGoogle Scholar |

World Wildlife Fund (2020) The World’s forgotten fishes. (WWF International) Available at https://www.wwf.ch/sites/default/files/doc-2021-02/World%27s%20Forgotten%20Fishes%20%28REPORT%20FINAL%29.pdf

Zattara, EE, and Premoli, AC (2005). Genetic structuring in Andean landlocked populations of Galaxias maculatus: effects of biogeographic history. Journal of Biogeography 32, 5–14.
Genetic structuring in Andean landlocked populations of Galaxias maculatus: effects of biogeographic history.Crossref | GoogleScholarGoogle Scholar |