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Article << Previous     |     Next >>   Contents Vol 27(5)

Two new subterranean ameirids (Crustacea : Copepoda : Harpacticoida) expose weaknesses in the conservation of short-range endemics threatened by mining developments in Western Australia

Tomislav Karanovic A C , Stefan M. Eberhard B D , Giulia Perina B and Shae Callan B

A Hanyang University, Department of Life Sciences, Seoul 133-791, Korea; and University of Tasmania, Institute for Marine and Antarctic Studies, Hobart, Tasmania 7001, Australia.
B Subterranean Ecology, Scientific Environmental Services, Suite 8, 37 Cedric Street, Stirling, WA 6021, Australia.
C Corresponding author taxonomy. Email: tomislav.karanovic@utas.edu.au
D Corresponding author conservation. Email: stefan@subterraneanecology.com.au

Invertebrate Systematics 27(5) 540-566 http://dx.doi.org/10.1071/IS12084
Submitted: 26 November 2012  Accepted: 30 August 2013   Published: 31 October 2013


 
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Abstract

The discovery of two new non-marine ameirids from the southern Yilgarn region significantly extends the geographic range for this group in Australia and exposes weaknesses in the conservation and environmental impact assessment (EIA) of subterranean species potentially threatened by mining developments. Megastygonitocrella embe, sp. nov. differs from seven previously described Australian congeners by the armature of the second leg endopod and absence of spinules on the somites. A key to world species of Megastygonitocrella is presented. Phylogenetic analysis based on 57 morphological characters and 30 species belonging to the Stygonitocrella s.l. group suggests that Antistygonitocrella pardalotos, gen. et sp. nov. has no close relatives anywhere in the world. Superficial similarities between the two new species are either plesiomorphies or homoplasies. The habitats of these new short-range endemic species are fractured-rock aquifers developed in Archaean greenstone, where the groundwater is characterised by acid conditions, high salinity and low dissolved oxygen. The population of A. pardalotos is threatened by a mining development. Despite the advanced level of environmental protection policy in Western Australia, our taxonomic study highlights limitations in EIA practices and discusses potential improvements which have global relevance in regions where short-range endemics coincide with extraction of mineral resources.

Additional keywords: Ameiridae, cladistics, conservation management, endemism, groundwater, micro-characters, stygofauna, taxonomy.


References

Borutzky, E. V. (1967). Biospeologica Sovietica 32, On the genus Nitocrella Chappuis (Copepoda, Harpacticoida). Bulletin Moskovskogo Obschestva Ispytatelei Prirody (nov. ser.) 72, 32–39. [in Russian]

Borutzky, E. V. (1972). Copepoda Harpacticoida from subterranean water of the shore of Issyk-kul and Southern Kisilkum. Fauna Gruntovyh vod Srednei Azii. Trudy Zoologicheskogo Instituta Akademiia Nauk SSSR, Leningrad 51, 98–119.

Borutzky, E. V. (1978). Copepoda – Harpacticoida from subterranean waters of Tian-Shania. Sbornik Trudov Zoologicheskogo Muzeia MGU 16, 65–91.

Borutzky, E. V., and Michailova-Neikova, M. (1970). Harpacticoida (Copepoda) of caves in West Georgia, Azerbaijan and Middle Asia. ???л??и????и? ???н?л 49, 1334–1341.

Bowman, T. E. (1988). Nitokra sphaeromata, a new harpacticoid copepod crustacean associated with the wood-boring isopod, Sphaeroma peruvianum, in Costa Rica. Proceedings of the Biological Society of Washington 101, 171–175.

Boxshall, G. A., and Halsey, S. H. (2004). ‘An Introduction to Copepod Diversity.’ (The Ray Society: London.)

Bradford, T., Adams, M., Humphreys, W. F., Austin, A. D., and Cooper, S. J. B. (2010). DNA barcoding of stygofauna uncovers cryptic amphipod diversity in a calcrete aquifer in Western Australia’s arid zone. Molecular Ecology Resources 10, 41–50.
CrossRef | CAS | PubMed |

Chappuis, P. A. (1926). Harpacticiden aus der Kiemenhöhle des Flusskrebses. Archiv fuer Hydrobiologie 17, 515–520.

Chappuis, P. A. (1937). Subterrane Harpacticoiden aus Nord-Spanien. Buletinul Societatii de Stiinte din Cluj, Romania 8, 556–571.

Coineau, N. (2000). Adaptations to interstitial groundwater life. In: ‘Ecosystems of the World, 30: Subterranean Ecosystems’. (Eds H. Wilkens, D. C. Culver and W. F. Humphreys.) pp. 189–210. (Elsevier: Amsterdam.)

Conroy-Dalton, S., and Huys, R. (1996). Towards a revision of Ameira Boeck, 1865 (Harpacticoida, Ameiridae): re-examination of the A. tenella-group and the establishment of Filexilia gen. n. and Glabrameira gen. n. Zoologica Scripta 25, 317–339.
CrossRef |

Conroy-Dalton, S., and Huys, R. (1998). Towards a revision of Ameira Boeck, 1865 (Harpacticoida, Ameiridae): reinstatement of Psammameira Noodt, 1952. Zoologica Scripta 27, 247–261.
CrossRef |

Cooper, S. J. B., Hinze, S., Leys, R., Watts, C. H. S., and Humphreys, W. F. (2002). Islands under the desert: molecular systematics and evolutionary origin of stygobitic water beetles (Coleoptera: Dytiscidae) from central Western Australia. Invertebrate Systematics 16, 589–598.
CrossRef |

Cooper, S. J. B., Bradbury, J. H., Saint, K. M., Leys, R., Austin, A. D., and Humphreys, W. F. (2007). Subterranean archipelago in the Australian arid zone: mitochondrial DNA phylogeography of amphipods from central Western Australia. Molecular Ecology 16, 1533–1544.
CrossRef | CAS |

Cooper, S. J. B., Saint, K. M., Taiti, S., Austin, A. D., and Humphreys, W. F. (2008). Subterranean archipelago: mitochondrial DNA phylogeography of stygobitic isopods (Oniscidea: Halniscus) from the Yilgarn region of Western Australia. Invertebrate Systematics 22, 195–203.
CrossRef |

Corgosinho, P. H. C., and Martínez Arbizu, P. (2010). Ameiridae Boeck and Argestidae Por revisited, with establishment of Parameiropsidae, a new family of Harpacticoida (Crustacea, Copepoda) from deep-sea sediments. Helgoland Marine Research 64, 223–255.
CrossRef |

Culver, D., and Pipan, T. (2009). ‘The Biology of Caves and Other Subterranean Habitats.’ (Oxford University Press: Oxford.)

Culver, D. C., Kane, T., and Fong, D. W. (1995). ‘Adaptation and Natural Selection in Caves: The Evolution of Gammarus minus.’ (Harvard University Press: Cambridge.)

Eberhard, S. M., Leys, R., and Adams, M. (2005). Conservation of subterranean biodiversity in Western Australia: using molecular genetics to define spatial and temporal relationships in two species of cave-dwelling Amphipoda. Subterranean Biology 3, 13–27.

Eberhard, S. M., Halse, S. A., Williams, M. R., Scanlon, M. D., Cocking, J., and Barron, H. J. (2009). Exploring the relationship between sampling efficiency and short-range endemism for groundwater fauna in the Pilbara region, Western Australia. Freshwater Biology 54, 885–901.
CrossRef | CAS |

EPA (2003). ‘Guidance for the Assessment of Environmental Factors: Consideration of Subterranean Fauna in Groundwater and Caves During Environmental Impact Assessment in Western Australia. Guidance Statement No. 54. Available at http://www.epa.wa.gov.au.’ (Environmental Protection Authority, Government of Western Australia: Perth.)

EPA (2007). ‘Sampling Methods and Survey Considerations for Subterranean Fauna in Western Australia (Technical Appendix to Guidance Statement No. 54). Guidance Statement 54A (Draft).’ (Environmental Protection Authority, Government of Western Australia: Perth.)

EPA (2009). ‘Spotted Quoll Open Pit Nickel Mine, Western Areas NL, Report and Recommendations.’ (Environmental Protection Authority, Government of Western Australia: Perth.)

EPA (2012). ‘A Review of Subterranean Fauna Assessment in Western Australia. Discussion Paper, February 2012.’ (Environmental Protection Authority, Government of Western Australia: Perth.)

Gibert, J., Danielopol, D. L., and Stanford, J. A. (1994). ‘Groundwater Ecology.’ (Academic Press: London.)

Goloboff, P. (1999). ‘NONA (NO NAME) Version 2.’ (Published by the author: Tucumán, Argentina.)

Guzik, M. T., Abrams, K. M., Cooper, S. J. B., Humphreys, W. F., Cho, J.-L., and Austin, A. D. (2008). Phylogeography of the ancient Parabathynellidae (Crustacea: Bathynellacea) from the Yilgarn region of Western Australia. Invertebrate Systematics 22, 205–216.
CrossRef |

Guzik, M. T., Austin, A. D., Cooper, S. J. B., Harvey, M. S., Humphreys, W. F., Bradford, T., Eberhard, S. M., King, R. A., Leys, R., Muirhead, K. A., and Tomlinson, M. (2011). Is the Australian subterranean fauna uniquely diverse? Invertebrate Systematics 24, 407–418.
CrossRef |

Harvey, M. (2002). Short-range endemism among the Australian fauna: some examples from non-marine environments. Invertebrate Systematics 16, 555–570.
CrossRef |

Harvey, M. S., Rix, M., Framenau, V. W., Hamilton, Z., Johnson, M. S., Teale, R., Humphreys, G., and Humphreys, W. F. (2011). Protecting the innocent: studying short-range endemic taxa enhances conservation outcomes. Invertebrate Systematics 25, 1–10.
CrossRef |

Humes, A. G. (1953). Two new semiparasitic harpacticoid copepods from the coast of New Hampshire. Journal of the Washington Academy of Sciences 43, 360–373.

Humphreys, W. F. (2012). Diversity patterns in Australia. In: ‘Encyclopedia of Caves. Second Edition’. (Eds W. B. White and D. C. Culver.) pp. 203–219. (Elsevier: Amsterdam.)

Humphreys, W. F. (2000). Background and glossary. In ‘Ecosystems of the World, 30: Subterranean Ecosystems’. (Eds H. Wilkens, D. C. Culver and W. F. Humphreys.) pp. 3–14. (Elsevier: Amsterdam.)

Humphreys, W. F. (2008). Rising from Down Under: developments in subterranean biodiversity in Australia from a groundwater perspective. Invertebrate Systematics 22, 85–101.
CrossRef |

Huys, R., and Boxshall, G. A. (1991). ‘Copepod Evolution.’ (The Ray Society: London.)

Jones, M. E., Rose, R. K., and Burnett, S. (2001). Dasyurus maculates. Mammalian Species 676, 1–9.
CrossRef |

Karanovic, T. (2000). Nitocrella longa n. sp. (Crustacea, Copepoda, Harpacticoida) from subterranean waters of Montenegro (SE Europe). Mitteilungen aus dem Museum für Naturkunde in Berlin. Zoologische Reihe 76, 75–83.

Karanovic, T. (2004). Subterranean Copepoda from arid Western Australia. Crustaceana Monographs 3, 1–366.

Karanovic, T. (2006). Subterranean copepods (Crustacea, Copepoda) from the Pilbara region in Western Australia. Records of the Western Australian Museum , 1–239.

Karanovic, T. (2010). First record of the harpacticoid genus Nitocrellopsis (Copepoda, Ameiridae) in Australia, with descriptions of three new species. International Journal of Limnology 46, 249–280.
CrossRef |

Karanovic, T., and Cooper, S. J. B. (2011). Molecular and morphological evidence for short range endemism in the Kinnecaris solitaria complex (Copepoda: Parastenocarididae), with descriptions of seven new species. Zootaxa 3026, 1–64.

Karanovic, T., and Cooper, S. J. B. (2012). Explosive radiation of the genus Schizopera on a small subterranean island in Western Australia (Copepoda: Harpacticoida): unravelling the cases of cryptic speciation, size differentiation and multiple invasions. Invertebrate Systematics 26, 115–192.
CrossRef |

Karanovic, T., and Hancock, P. (2009). On the diagnostic characters of the genus Stygonitocrella (Copepoda, Harpacticoida), with descriptions of seven new species from Australian subterranean waters. Zootaxa 2324, 1–85.

Karanovic, T., and Tang, D. (2009). A new species of the copepod genus Australoeucyclops (Crustacea: Cyclopoida: Eucyclopinae) from Western Australia shows the role of aridity in habitat shift and colonisation of ground water. Records of the Western Australian Museum 25, 247–263.

Lang, K. (1948). ‘Monographie der Harpacticiden, A-B.’ (Nordiska Bokhandeln: Lund, Sweden.)

Lang, K. (1965). Copepoda Harpacticoida from the Californian Pacific coast. Kungliga Svenska Vetenskapsakademiens Handlingar, Fjarde Serien. Almquist and Wiksell, Stockholm 10, 1–560.

Langecker, T. G. (2000). The effect of continuous darkness on cave ecology and cavernicolous evolution. In ‘Ecosystems of the World, 30: Subterranean Ecosystems’. (Eds H. Wilkens, D. C. Culver and W. F. Humphreys.) pp. 135–157. (Elsevier: Amsterdam.)

Lee, W., and Huys, R. (2002). A new genus of groundwater Ameiridae (Copepoda, Harpacticoida) from boreholes in Western Australia and the artificial status of Stygonitocrella Petkovski, 1976. Bulletin of the Natural History Museum. London (Zoology) 68, 39–50.

Lescher-Moutoué, F. (1973). Sur la biologie et l’écologie des copepods cyclopides hypogés (Crustacés). Annales de Spéléologie 28, 429–674.

Leys, R., and Watts, C. H. (2008). Systematics and evolution of the Australian subterranean hydroporine diving beetles (Dytiscidae), with notes on Carabhydrus. Invertebrate Systematics 22, 217–225.
CrossRef |

Leys, R., Watts, C. H. S., Cooper, S. J. B., and Humphreys, W. F. (2003). Evolution of subterranean diving beetles (Coleoptera: Dytiscidae: Hydroporini, Bidessini) in the arid zone of Australia. Evolution 57, 2819–2834.
| PubMed |

Liddell, J. A. (1912). Nitocrameira bdellurae, nov. gen. et sp., a copepod of the family Canthocamptidae, parasitic in the egg-cases of Bdellura. Journal of the Linnean Society. Zoology (Jena, Germany) 32, 87–94.

Malard, F., and Hervant, F. (1999). Oxygen supply and the adaptations of animals in groundwater. Freshwater Biology 41, 1–30.
CrossRef |

Mann, A. W., and Horwitz, R. C. (1979). Groundwater calcrete deposits in Australia: some observations from Western Australia. Journal of the Geological Society of Australia 26, 293–303.
CrossRef | CAS |

Miura, Y. (1962). Subterranean harpacticoid copepods of the Amami Group of the Ryukyu Islands. Annotationes Zoologicae Japonenses 35, 95–105.

Morgan, K. H. (1993). Development, sedimentation and economic potential of palaeoriver systems of the Yilgarn craton of Western Australia. Sedimentary Geology 85, 637–656.
CrossRef |

Nixon, K. C. (1999). The parsimony ratchet, a new method for rapid parsimony analysis. Cladistics 15, 407–414.
CrossRef |

Nixon, K. C. (2002). ‘WinClada version 1.00.08.’ (Published by the author: Ithaca, New York.)

Noodt, W. (1965). Crustacea subterranean aus Argentinien. Beiträge zur Neotropischen Fauna 4, 84–129.
CrossRef |

Page, T. J., Humphreys, W. F., and Hughes, J. M. (2008). Shrimps Down Under: evolutionary relationships of subterranean crustaceans from Western Australia (Decapoda: Atyidae: Stygiocaris). PLoS ONE 3, e1618.
CrossRef | PubMed |

Pesce, G. L. (1985). Stygobiological researches in subterranean waters of Lesbos (Greece) and description of Stygonitocrella petkovskii n. sp. Fragmenta Balcanica 12, 125–139.

Petkovski, T. (1959). Neue und bemerkenswerte Harpacticoide Ruderfußkrebse (Crust. Cop.) aus den Grundgewässern jugoslaviens. Acta Musei Macedonici Scientiarum Naturalium, Skopje 6, 101–119.

Petkovski, T. K. (1976). Drei neue Nitocrella-Arten von Kuba, zugleich eine Revision des Genus Nitocrella Chappuis (s. restr.) (Crustacea, Copepoda, Ameiridae). Acta Musei Macedonici Scientiarum Naturalium 15, 1–26.

Pipan, T., and Brancelj, A. (2003). Fauna of epikarst – Copepoda (Crustacea) in percolation water of caves in Slovenia. Annales Series Historia Naturalis Koper 13, 223–228.

Pipan, T., and Brancelj, A. (2004). Distribution patterns of copepods (Crustacea: Copepoda) in percolation water of the Postojnska Jama cave system (Slovenia). Zoological Studies 43, 206–210.

Reid, J. W., Hunt, G. W., and Stanley, E. H. (2003). A new species of Stygonitocrella (Crustacea: Copepoda: Ameiridae), the first report of the genus in North America. Proceedings of the Biological Society of Washington 116, 996–1006.

Rockwater (2008). ‘Dewatering Assessment Spotted Quoll Nickel Deposit Forrestania Area, W.A., Report 298.2 /08/001 for Western Areas NL.’ (Rockwater Pty Ltd: Perth.)

Rockwater (2009a). ‘Spotted Quoll Deposit: Stygofauna Investigation Results of Second Phase Sampling, Report 298.2.1/09/1 for Western Areas NL.’ (Rockwater Pty Ltd: Perth.)

Rockwater (2009b). ‘Spotted Quoll Deposit: Regional Stygofauna Investigation, Report 298.2.1/09/2 for Western Areas NL.’ (Rockwater Pty Ltd: Perth.)

Rouch, R. (1985). Une nouvelle Stygonitocrella (Copepoda, Harpacticoidea) des eaux souterraines d’Andalousie, Espagne. Stygologia 1, 118–127.

Rouch, R. (1992). Un nouveau genre d’Ameiridae (Copepoda, Harpacticoida) dans le milieu hyporhéique d’un cours d’eau de l’Arizona. Stygologia 7, 149–157.

Sterba, O. (1973). Die neuen Harpacticidenarten der Gattung Nitocrella (Crustacea, Copepoda) aus Afghanistan. Zoologischen Anzeiger, Leipzig 190, 333–342.

Stock, J. H., and von Vaupel Klein, J. C. (1996). Mounting media revisited: the suitability of Reyne’s fluid for small crustaceans. Crustaceana 69, 794–798.
CrossRef |

Suárez-Morales, E., and Iliffe, T. M. (2005). A new Stygonitocrella Petkovski (Copepoda: Harpacticoida) from a cave in Northern Mexico with comments on the taxonomy of the genus. Hydrobiologia 544, 215–228.
CrossRef |

Subterranean Ecology (2007). ‘Subterranean Biodiversity of the Nullarbor Karst – Desktop Study. Report to the Department of Environment and Conservation, Western Australia.’ (Subterranean Ecology Pty Ltd: Perth.)

Walter, T. C., and Boxshall, G. (2012). World Copepoda database. Available at http://www.marinespecies.org/copepoda/aphia.php?p=taxdetailsandid=115135 [Accessed 10 March 2013]


   
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