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Pacific Conservation Biology Pacific Conservation Biology Society
A journal dedicated to conservation and wildlife management in the Pacific region.
RESEARCH ARTICLE

Freshwater ichthyofauna of the Pacific-Asia Biodiversity Transect (PABITRA) Gateway in Viti Levu, Fiji

Lekima K. F. Copeland A D , David T. Boseto B and Aaron P. Jenkins C
+ Author Affiliations
- Author Affiliations

A South Pacific Regional Herbarium, Institute of Applied Sciences, University of the South Pacific, Private Mail Bag, Suva, Fiji.

B Ecological Solutions, PO Box 180, Gizo, Western Province, Solomon Islands.

C School of Natural Sciences, Edith Cowan University, Joondalup, WA 6027 Australia.

D Corresponding author. Email: copeland_l@usp.ac.fj

Pacific Conservation Biology 22(3) 236-241 https://doi.org/10.1071/PC14928
Submitted: 13 October 2015  Accepted: 1 November 2015   Published: 15 January 2016

Abstract

The freshwater ichthyofauna of the Fiji islands remained poorly documented before the establishment of the Pacific-Asia Biodiversity Transect (PABITRA) network. The PABITRA approach assesses biodiversity along ocean-to-mountain transects and promotes sustainable land use on islands across the Pacific. Multiple surveys of freshwater fish species along the Viti Levu PABITRA transect have contributed six new occurrence records and one new species to the known freshwater fishes of Fiji since 2002. In total, 21 indigenous species of fish (9% endemic) from 10 families and no introduced fishes were found in the three PABITRA sites. Diversity was highest (16 species) at Savura forest reserve and decreased further inland into Sovi and Wabu. The assemblage found is dominated by highly migratory species (95%) that traverse the different aquatic habitats (marine, estuarine, lowland and upland streams) covered by the PABITRA transect. This high degree of connectivity highlights several growing issues affecting aquatic fauna on the high island of Viti Levu. The reduction in forest cover along the gateway transects, especially in the terminal reaches, and infrastructure development such as dams and weirs have deleterious effects on the migration routes of the Fijian ichthyofauna. Several species collected are important food sources and have cultural totemic importance to local inhabitants along the vertical transect. This paper documents the ichthyofauna of the Fiji gateway transect, ecological characteristics of this assemblage, IUCN Redlist conservation assessment status and highlights factors affecting the fragility and resilience of these communities, particularly focusing on the importance of life-history patterns and watershed conditions.

Additional keywords: diadromy, fish, landscape.


References

Agrawal, S., Ota, T., Hagenstad, M., Smith, J., van Aalst, M., Koshy, K., and Prasad, B. (2003). Development and climate change in Fiji: focus on coastal mangroves. Working Party on Global and Structural Policies, Organisation for Economic Cooperation and Development.

Bonner, T. H., and Wilde, G. R. (2002). Effects of turbidity on prey consumption by prairie stream fishes. Transactions of the American Fisheries Society 131, 1203–1208.
Effects of turbidity on prey consumption by prairie stream fishes.Crossref | GoogleScholarGoogle Scholar |

Boseto, D. (2003). Fish surveys. In ‘Baseline Flora and Fauna Survey of the Sovi Basin, Naitasiri 5–17th May, 2003’. (Ed. C. Morrison.) pp. 11–13. (Institute of Applied Sciences, University of the South Pacific: Suva.)

Boseto, D. (2006). Diversity, distribution and abundance of Fijian freshwater fishes. MSc Thesis. University of the South Pacific, Suva.

Canonico, G. C., Arthington, A. H., McCrary, J. K., and Thieme, M. L. (2005). The effects of introduced tilapias on native biodiversity. Aquatic Conservation: Marine and Freshwater Ecosystems 15, 463–483.
The effects of introduced tilapias on native biodiversity.Crossref | GoogleScholarGoogle Scholar |

Copeland, L. (2013). Seasonality, habitats and micro-habitats of fish in wadeable streams of Nakorotubu, Ra, Fiji Islands. M.Sc. Thesis, University of the South Pacific.

Eikaas, H. S., and McIntosh, A. R. (2006). Habitat loss through disruption of constrained dispersal networks. Ecological Applications 16, 987–998.
Habitat loss through disruption of constrained dispersal networks.Crossref | GoogleScholarGoogle Scholar | 16826997PubMed |

Elliott, M., Whitfield, A. K., Potter, I. C., Blaber, S. J. M., Cyrus, D. P., Nordlie, F. G., and Harrison, T. D. (2007). The guild approach to categorizing estuarine fish assemblages: a global review. Fish and Fisheries 8, 241–268.
The guild approach to categorizing estuarine fish assemblages: a global review.Crossref | GoogleScholarGoogle Scholar |

Gehrke, P. C., Sheaves, M. J., Terry, J. P., Boseto, D. T., Ellison, J. C., Figa, B. S., and Wani, J. (2011). Vulnerability of freshwater and estuarine fish habitats in the tropical Pacific to climate change. In ‘Vulnerability of Tropical Pacific Fisheries and Aquaculture to Climate Change’ (Eds J. D. Bell, J. E. Johnson and A. J. Hobday.) pp. 369–431. (Secretariat of the Pacific Community: Noumea, New Caledonia.)

Greathouse, E. A., Pringle, C. M., McDowell, W. H., and Holmquist, J. G. (2006). Indirect upstream effects of dams: consequences of migratory consumer extirpation in Puerto Rico. Ecological Applications 16, 339–352.
Indirect upstream effects of dams: consequences of migratory consumer extirpation in Puerto Rico.Crossref | GoogleScholarGoogle Scholar | 16705984PubMed |

Haynes, A. (1999). The long term effect of forest logging on the macroinvertebrates in a Fijian stream. Hydrobiologia 405, 79–87.
The long term effect of forest logging on the macroinvertebrates in a Fijian stream.Crossref | GoogleScholarGoogle Scholar |

Hoese, D. F., and Allen, G. R. (2011). A review of the amphidromous species of the Glossogobius celebius complex, with description of three new species. Cybium 35, 269–284.

Jenkins, A. P. (2009). Freshwater and estuarine fishes of Fiji: current taxonomic knowledge and priorities for conservation. In ‘Proceedings of the Inaugural Fiji Islands Conservation Science Forum’. (Eds A. P. Jenkins, S. R. Prasad, J. Bacchiochi, P. A. Skelton and N. Yakub.) pp. 50–51. (Ecosystem Based Management Project – Fiji: Suva.)

Jenkins, A. P., and Boseto, D. (2005). Schismatogobius vitiensis, a new freshwater goby (Teleostei: Gobiidae) from the Fiji Islands. Ichthyological Exploration of Freshwaters 16, 75–82.

Jenkins, A. P., and Jupiter, S. D. (2011). Spatial and seasonal patterns in freshwater ichthyofaunal communities of a tropical high island in Fiji. Environmental Biology of Fishes 91, 261–274.
Spatial and seasonal patterns in freshwater ichthyofaunal communities of a tropical high island in Fiji.Crossref | GoogleScholarGoogle Scholar |

Jenkins, A. P., Jupiter, S. D., Qauqau, I., and Atherton, J. (2010). The importance of ecosystem based management for conserving aquatic migratory pathways on tropical high islands: a case study from Fiji. Aquatic Conservation: Marine and Freshwater Ecosystems 20, 224–238.
The importance of ecosystem based management for conserving aquatic migratory pathways on tropical high islands: a case study from Fiji.Crossref | GoogleScholarGoogle Scholar |

Keith, P. (2003). Biology and ecology of amphidromous Gobiidae of the Indo-Pacific and the Caribbean regions. Journal of Fish Biology 63, 831–847.
Biology and ecology of amphidromous Gobiidae of the Indo-Pacific and the Caribbean regions.Crossref | GoogleScholarGoogle Scholar |

Keppel, G. (2005). Botanical studies within the PABITRA wet-zone transect, Viti Levu, Fiji. Pacific Science 59, 165–174.
Botanical studies within the PABITRA wet-zone transect, Viti Levu, Fiji.Crossref | GoogleScholarGoogle Scholar |

Larson, H. K. (2010). A review of the gobiid fish genus Redigobius (Teleostei: Gobionellinae), with descriptions of two new species. Ichthyological Exploration of Freshwaters 21, 123–191.

McCosker, J. E., Boseto, D., and Jenkins, A. P. (2007). Redescription of Yirrkala gjellerupi, a poorly known freshwater Indo-Pacific snake eel (Anguilliformes: Ophichthidae). Pacific Science 61, 141–144.
Redescription of Yirrkala gjellerupi, a poorly known freshwater Indo-Pacific snake eel (Anguilliformes: Ophichthidae).Crossref | GoogleScholarGoogle Scholar |

McDowall, R. M. (1997). The evolution of diadromy in fishes (revisited) and its place in phylogenetic analysis. Reviews in Fish Biology and Fisheries 7, 443–462.
The evolution of diadromy in fishes (revisited) and its place in phylogenetic analysis.Crossref | GoogleScholarGoogle Scholar |

McDowall, R. M. (1998). Fighting the flow: downstream–upstream linkages in the ecology of diadromous fish faunas in the west coast New Zealand rivers. Freshwater Biology 40, 111–122.
Fighting the flow: downstream–upstream linkages in the ecology of diadromous fish faunas in the west coast New Zealand rivers.Crossref | GoogleScholarGoogle Scholar |

Morrison, C. (2006). Consolidated biodiversity report for the Wabu forest reserve. Institute of Applied Sciences.

Morrison, C., and Naikatini, A. (2008). Herpetofauna and bat monitoring at three Fiji sites in the Pacific-Asia Biodiversity Transect (PABITRA). Micronesica 40, 131–137.

Mueller-Dombois, D. (2008). The evolution of the Pacific-Asia Biodiversity Transect Network (PABITRA) in the Pacific Science Association. Micronesica 40, 1–7.

Mueller-Dombois, D., and Fosberg, F. R. (1998). ‘Vegetation of the Tropical Pacific Islands.’ (Springer: New York.)

Mueller-Dombois, D., Thaman, R. A., Juvik, J. O., and Kitayama, K. (1999). The Pacific-Asia Biodiversity Transect (PABITRA) a new conservation biology initiative. In ‘Biodoversity and Allelopathy: From Organisms to Ecosystems in the Pacific’. (Eds C. H. Chou, G. R. Walter and C. Reinhardt.) pp. 13–20. (Academia Sinica: Taipei, Taiwan.)

Neall, V. E., and Trewick, S. A. (2008). The age and origin of the Pacific islands: a geological overview. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences 363, 3293–3308.
The age and origin of the Pacific islands: a geological overview.Crossref | GoogleScholarGoogle Scholar | 18768382PubMed |

Rowe, D. K., and Dean, T. L. (1998). Effects of turbidity on the feeding ability of the juvenile migrant stage of six New Zealand freshwater fish species. New Zealand Journal of Marine and Freshwater Research 32, 21–29.
Effects of turbidity on the feeding ability of the juvenile migrant stage of six New Zealand freshwater fish species.Crossref | GoogleScholarGoogle Scholar |

Thaman, B., and Boseto, D. (2004). Freshwater fish fauna. In ‘Second Baseline Flora and Fauna Survey of the Sovi Basin, Naitasiri, 13–20th October, 2004’. (Ed. C. Morrison.) pp. 9–11. (Institute of Applied Sciences, University of the South Pacific: Suva.)

Tuiwawa, M., Osbourne, T., Biol, K., and Tuiwawa, F. (2008). Establishment of long-term vegetation monitoring plots in lowland and upland tropical rainforest, Fiji Islands. Micronesica 40, 123–130.

Tuiwawa, S. H., Wendt, H., and Tuiwawa, M. V. (2012). Flora, vegetation and ecology. In ‘A Rapid Biodiversity Assessment, Socioeconomic Study and Archaeological Survey of the Rewa River Mangroves, Viti Levu, Fiji’. (Eds M. V. Tuiwawa, S. Pene and S. H. Tuiwawa.) pp. 3–21. (Institute of Applied Sciences, University of the South Pacific: Suva.)

Walter, R. P., Hogan, J. D., Blum, M. J., Gagne, R. B., Hain, E. F., Gilliam, J. F., and McIntyre, P. B. (2012). Climate change and conservation of endemic amphidromous fishes in Hawaiian streams. Endangered Species Research 16, 261–272.
Climate change and conservation of endemic amphidromous fishes in Hawaiian streams.Crossref | GoogleScholarGoogle Scholar |