|Scientific Name:||Himantura leoparda|
|Species Authority:||Manjaji-Matsumoto & Last, 2008|
The Leopard Whipray (Himantura leoparda) is a recently described species of whipray closely related and similar in shape and dorsal disc pattern to the Reticulate Whipray (H. uarnak) and Bleeker’s Variegated Whipray (H. undulata). These three species are from the ‘uarnak’ species-complex, a subgroup of mainly reticulated, ocellated or spotted whiprays. The Leopard Whipray can be distinguished by its unique arrangement of midscapular denticles and the leopard-like markings on the dorsal surface of adults and large specimens. Juveniles of the three species are born at different sizes and vary slightly in colour patterns and denticle shapes (Manjaji-Matsumoto and Last 2008, Last and Stevens 2009). Taxonomic work is currently ongoing to more clearly define the sister species relationships (Peter Last pers. comm. 2010).
|Red List Category & Criteria:||Vulnerable A2cd+3cd+4cd ver 3.1|
|Assessor(s):||Rigby, C., Moore, A. & Rowat, D.|
|Reviewer(s):||Kyne, P.M. & Ebert, D.A.|
The Leopard Whipray (Himantura leoparda) is possibly widely distributed in the Indo-West Pacific in mainly coastal inshore waters. It is currently known to range from Malaysia to the Japanese Archipelago and south to northern Australia, however there are ongoing taxonomic issues that are being investigated; the outcomes of which may affect the known distributional range. Its biology is poorly known, partly due to confusion with other members of the ‘uarnak’ species-complex. This species is commercially valuable throughout Southeast Asia where it is taken as utilised bycatch in a range of commercial and artisanal fisheries including demersal trawl and tangle/gill nets, dropline and longline fisheries, and Danish seine fisheries. In recent decades, demersal fishing pressure has increased in both capacity and effort and is intense throughout this species’ inshore range in Southeast Asia. Fishing pressure is also very heavy in the Arafura Sea region; previously more than 600 trawlers operated and although the numbers of currently active trawlers is unclear, there are still high levels of Indonesian trawl fishing in the area. This level of exploitation is of great concern to the sustainability of Leopard Whipray populations in the Arafura Sea outside the Australian Fishing Zone. This species’ preference for inshore coastal waters means it is also threatened by extensive habitat degradation and destructive fishing practices throughout a large part of its range. Although species-specific data are not available, given the species’ high levels of exploitation, extensive habitat degradation and its large size, significant population declines are suspected to have occurred and are likely to be ongoing in Southeast Asia.
Conversely, this species has refuge from fishing pressure in northern Australia, where fishing pressure is light, bycatch mitigation measures are in place and it is not commercially utilised and consequently is considered at low risk. While fisheries in northern Australia remain well managed this species is assessed as Least Concern regionally in Australia. Globally, it is assessed as Vulnerable on the basis of suspected declines as a result of high levels of exploitation and habitat degradation in large areas of its range. These assessments should be revisited if and when there is any new taxonomic and distributional information as this may affect the fishing pressure to which this species is exposed.
The Leopard Whipray is possibly widespread in the Indo-West Pacific. Its distributional range is based on current knowledge, however there are ongoing taxonomic issues that are being investigated and the outcomes of these may affect the known distributional range. It is currently known to range from Malaysia to the Japanese Archipelago and south to northern Australia (where it occurs from Coral Bay, Western Australia to the Torres Strait, Queensland) (Manjaji-Matsumoto and Last 2008, Last and Stevens 2009). It is currently thought to be absent from the western Indian Ocean.
Native:Australia (Northern Territory, Queensland, Western Australia); Cambodia; China; Indonesia; Japan; Malaysia; Papua New Guinea (Papua New Guinea (main island group)); Taiwan, Province of China; Thailand; Viet Nam
|FAO Marine Fishing Areas:||
Indian Ocean – eastern; Pacific – southwest; Pacific – western central
|Range Map:||Click here to open the map viewer and explore range.|
There is no species-specific information about populations or trends for the Leopard Whipray, however in a large part of its range there is heavy fishing pressure and extensive habitat degradation and it is suspected that significant population declines have occurred and are ongoing. It is not possible to estimate the proportion of the global population occurring within the Australian region as there is little information on the population structure of this species, however an estimated 15% of the Leopard Whipray’s known distributional range is in the Australian region.
|Habitat and Ecology:||
The Leopard Whipray is demersal on soft substrates and is mainly inshore and coastal though it also occurs on the continental shelf to at least 70 m depth (White et al. 2006, Manjaji and Last 2008). The biology of this species is poorly known, partly due to confusion with other species of the ‘uarnak’ species-complex; attains about 140 cm disc width (DW); born at about 20 cm DW. Males mature at 70–94 cm DW (White and Dharmadi 2007, Last and Stevens 2009). Reproduction is viviparous and the diet is unknown but likely comprises small fishes and crustaceans (White et al. 2006).
As there is no information on this species’ maximum age and age at maturity, generation length was inferred as 20 years based on data for the congener, the Blackspotted Whipray (Himantura astra). Female Blackspotted Whiprays are reported to have a maximum age of 29 years and an age at maturity of nine years (Jacobsen and Bennett 2011). These were used to calculate a generation length of 19 years based on the equation: generation length = (((29-9)/2)+9). The maximum size of the Leopard Whipray is considerably larger (~140 cm DW) than that of the Blackspotted Whipray (80 cm DW) so it is possible the generation length of the Leopard Whipray could be greater than 20 years.
|Use and Trade:||
In large parts of its range outside of Australia (i.e., Southeast Asia), this species is used for its cartilage, meat and high value skin (White et al. 2006).
The threats to the Leopard Whipray are many of those faced by other Himantura species within its range. However, the Leopard Whipray may be more vulnerable than some of its congeners due to its large size at maturity and maximum size and its preference for inshore coastal waters that are heavily fished and degraded in many parts of its range outside Australian waters (Manjaji and White 2004).
In recent decades, demersal fishing pressure has increased in both capacity and effort in many areas of this species’ inshore range. For example, demersal resources in the Gulf of Thailand went from being lightly exploited to severely over-exploited between 1973 and 1994 (Pauly et al. 2005). On standardized trawl surveys conducted over this 20 year period in the Gulf of Thailand, the abundance (biomass) of the major trawl bycatch groups was recorded. The group ‘rays’ showed a large reduction in biomass over this period and an ecosystem model fitted to the bycatch data indicated that ‘rays’ were one of the groups most severely impacted by the initial increase in fishing pressure (Pauly et al. 2005). Species-specific catch data are not available, but Indonesian landings of ‘Rays, stingrays, mantas, nei’ (nei = not elsewhere included) increased from ~10,000 t in 1975 to 58,000 t in 2004 (FAO 2009).
This species’ preference for inshore coastal waters means it is also threatened by extensive habitat degradation, including pollution and clearing, and destructive fishing practices. Large coastal areas, in particular mangroves, have been lost in Indonesia and Malaysia through land conversion for urban development, shrimp farms and agriculture. Across Indonesia and Malaysia from 1980 to 2005, the area of mangroves was reduced by >30% (FAO 2007).
|Conservation Actions:||Research is required to assess catches of the Leopard Whipray throughout its range, and to examine its habitat, ecology and life history parameters including confirmation of its distributional range. Except in Australian waters, the fisheries that capture this species are largely unregulated (licenses are issued but catches and landings are not properly monitored), and presently there are no specific conservation actions in place to help address this problem. In Australia, management measures have been introduced over the last decade that have significantly reduced the threat to this species and it is now considered at low risk from fishing pressures in northern Australian waters.|
Brewer, D.T., Heales, D.S., Eayrs, S.J., Taylor, B.R., Day, G., Sen, S., Wakeford, J., Milton, D.A., Stobutzki, I.C., Fry, G.C., van der Velde, T.D., Jones, P.N., Venables, W., Wang, Y-G., Dell, Q. Austin, M., Gregor, R., Pendrey, R., Hegerl, E., Carter, D., Nelson, C., Nichols, J., Gofton, T. 2004. Assessment and improvement of TEDs and BRDs in the NPF: a co-operative approach by fishers, scientists, fisheries technologists, economists and conservationists. Final Report on FRDC Project 2000/173. CSIRO, Cleveland.
Compagno, L.J.V. 1986. Dasyatidae. In: M.M. Smith and P.C. Heemstra (eds), Smiths' Sea Fishes, pp. 135-142. Springer-Verlag, New York.
Compagno, L.J.V. and Roberts, T.R. 1982. Freshwater stingrays (Dasyatidae) of Southeast Asia and New Guinea, with description of a new species of Himantura and reports of unidentified species. Environmental Biology of Fishes 7(4): 321-339.
Compagno, L.J.V., Ebert, D.A. and Smale, M.J. 1989. Guide to the sharks and rays of Southern Africa. Struik, Cape Town. 160 pp.
Courtney, A.J., Haddy, J.A., Campbell, M.J., Roy, D.P., Tonks, M.L., Gaddes S.W., Chilcott, K.E., O'Neill, M.F., Brown, I.W., McLennan, M., Jebreen, J.E., Van Der Geest, C., Rose, C., Kistle, S., Turnbull, C.T., Kyne, P.M., Bennett, M.B. and Taylor, J. 2007. Bycatch weight, composition and preliminary estimates of the impact of bycatch reduction devices in Queensland's trawl fishery. Report to the Fisheries Research and Development Corporation. The State of Queensland, Department of Primary Industries and Fisheries.
FAO. 2007. The World's Mangroves 1980-2005. FAO Forestry Paper 153. Forestry Department, Food and Agriculture Organization of the United Nations (FAO), Rome.
FAO. 2009. FishStat Plus Version 2.32. Universal Software for Fishery Statistics Time Series. Available at: www.fao.org/fishery/statistics/software/fishstat/en.
Gloerfelt-Tarp, T. and Kailola, P.J. 1984. Trawled fishes of southern Indonesia and northwestern Australia. Australian Development Assistance Bureau, Canberra, Australia.
Heazle, M. and Butcher, J.G. 2007. Fisheries depletion and the state in Indonesia: Towards a regional regulatory regime. Marine Policy 31: 276-286.
IUCN. 2012. IUCN Red List of Threatened Species (ver. 2012.1). Available at: http://www.iucnredlist.org. (Accessed: 19 June 2012).
Jacobsen, I.P. and Bennett, M.B. 2011. Life history of the blackspotted whipray Himantura astra. Journal of Fish Biology 78: 1249-1268.
Last, P.R. and Compagno, L.J.V. 1999. Dasyatidae. In: K.E. Carpenter and V.H. Niem, V.H. (eds.) FAO species identification guide for fishery purposes. The living marine resources of the Western Central Pacific. Volume 3. Batoid fishes, chimaeras and bony fishes. Part 1 (Elopidae to Linophynidae). FAO, Rome, pp. 1479-1505.
Last, P.R. and Stevens, J.D. 1994. Sharks and Rays of Australia. First Edition. CSIRO Publishing, Collingwood, Australia.
Last, P.R. and Stevens, J.D. 2009. Sharks and Rays of Australia. Second Edition. CSIRO Publishing, Collingwood, Australia.
Manjaji, B.M. and White, W.T. 2004. Himantura toshi. Available at: www.iucnredlist.org. (Accessed: 18/07/2011).
Manjaji-Matsumoto, B.M. and Last, P.R. 2008. Himantura leoparda sp. nov., a new whipray (Myliobatoidei: Dasyatidae) from the Indo-Pacific. In: Last, P.R., White, W.T. and Pogonoski, J.J. (eds), Descriptions of new Australian Chondrichthyans, pp. 293-301. CSIRO Marine and Atmospheric Research Paper No 022.
Northern Territory Government. 2009. Fishery Status Reports 2008. Fishery Report No. 101. Department of Resources, 171 pp.
Pauly, D., Booth, S., Christensen, V.W.L., Close, C., Kitchingman, A., Palomares, M.L.D., Watson, R. and Zeller, D. 2005. On the Exploitation of Elasmobranchs, with Emphasis on Cowtail Stingray Pastinachus sephen (Family Dasyatidae). Fisheries Centre: The University of British Columbia Working Paper Series. Fisheries Centre: The University of British Columbia.
Stobutzki, I.C., Miller, M.J., Heales, D.S. and Brewer, D.T. 2002. Sustainability of elasmobranches caught as bycatch in a tropical prawn (shrimp) trawl fishery. Fishery Bulletin 100: 800-821.
Stobutzki, I.M., Blaber, S., Brewer, D., Fry, G., Heales, D., Miller, M., Milton, D., Salini, J., Van der Velde, T., Wassenberg, T., Jones, P., Wang, Y., Dredge, M., Courtney, A., Chilcott, K. and Eayrs, S. 2001. Ecological sustainability of by-catch and biodiversity in prawn trawl fisheries. FRDC Project Report. 1996/257, 512 pp.
Wallace, J.H. 1967. The batoid fishes of the east coast of southern Africa. Part III: Skates and elecric rays. Oceanographc Research Institute Investatory Report No. 17. 62 pp.
White, W.T. and Dharmadi. 2007. Species and size compositions and reproductive biology of rays (Chondrichthyes, Batoidea) caught in target and non-target fisheries in eastern Indonesia. Journal of Fish Biology 70: 1809-1837.
White, W.T., Last, P.R., Stevens, J.D., Yearsley, G.K., Fahmi and Dharmadi. 2006. Economically Important Sharks and Rays of Indonesia. Australian Centre for International Agricultural Research, Canberra, Australia.
Zhou, S. and Griffiths, S.P. 2008. Sustainability Assessment for Fishing Effects (SAFE): a new quantitative ecological risk assessment method and its application to elasmobranch bycatch in an Australian trawl fishery. Fisheries Research 91: 56–68.
|Citation:||Rigby, C., Moore, A. & Rowat, D. 2012. Himantura leoparda. The IUCN Red List of Threatened Species. Version 2015.2. <www.iucnredlist.org>. Downloaded on 28 August 2015.|
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