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RESEARCH ARTICLE
Contents Vol 33(7)

Changes in the distribution and abundance of saltwater crocodiles (Crocodylus porosus) in the upstream, freshwater reaches of rivers in the Northern Territory, Australia

Mike Letnic A B and Greg Connors A
+ Author Affiliations
- Author Affiliations

A Parks and Wildlife Service of the Northern Territory, PO Box 496, Palmerston, NT 0831, Australia.

B Corresponding author. Present address: Institute of Wildlife Research, University of Sydney, NSW 2006, Australia. Email: mletnic@usyd.edu.au

Wildlife Research 33(7) 529-538 https://doi.org/10.1071/WR05090
Submitted: 14 October 2005  Accepted: 24 August 2006   Published: 15 November 2006

Abstract

Since they were declared a protected species in 1971, populations of saltwater crocodiles (Crocodylus porosus) have increased in the tidal rivers, freshwater swamps and marine waters of the Northern Territory. The recovery of the C. porosus population has been accompanied by an increase in the incidence of ‘problem crocodiles’ that represent a threat to people in freshwater and marine habitats. Despite the implications for human safety, little is known about C. porosus populations in the freshwater reaches of rivers, well upstream of tidal influence. In this study, we examined the density and body-size structure of C. porosus populations in three freshwater rivers using a combination of data from spotlight and helicopter surveys conducted between the 1980s and 2005, and the inland extent of C. porosus using distribution records in the Northern Territory. Since the 1980s, the density of C. porosus in upstream, freshwater reaches of the Daly and Roper rivers has increased, as has the inland extent of C. porosus on the Daly River. Although C. porosus was not detected in spotlight surveys of the Victoria River, helicopter survey and anecdotal records indicate that C. porosus was present after 1989. In all, 52.1% of the crocodiles sighted in spotlight surveys were 2.1–3.4 m long. Distribution records show that C. porosus occurs up to 235 km inland and at elevations of up to 126 m above sea level. The potential distribution of C. porosus is likely to be similar to that of barramundi (Lates calcarifer), a readily identifiable diadromous fish that must spawn in estuarine waters and occurs at elevations of up to 178 m above sea level. Because the density and inland extent of C. porosus in freshwater rivers is likely to increase, it is recommended that: (1) programs communicating crocodile awareness use the linkage between the presence of barramundi and the potential presence of C. porosus; (2) that crocodile warning signs be erected in upstream areas within the potential range of C. porosus; (3) that research be conducted on developing techniques to detect and exclude C. porosus from swimming areas; and (4) that widespread systematic surveys be undertaken to document the inland extent of C. porosus.


Acknowledgments

Thanks go to Phil Hauser, Pat Carmody, Garry Lindner, Lincoln Wilson, Eddie Daylight, Eddie Weber, Tom Nichols, Simon Ward, Grant O’Callaghan, Oliver Brown, Peter Ross and all the PWSNT staff who have participated in crocodile surveys and provided records of crocodile sightings. Helen Larson (Museums and Art Galleries of the Northern Territory) and Paul De Lestang (Department of Primary industry and Fisheries) provided records of the occurrence of barramundi. Simon Ward and Yusuke Fukuda and two anonymous referees provided critical comments on an earlier version of the manuscript that greatly improved the paper.


References

Bayliss, P. , Webb, G. J. W. , Whitehead, P. J. , Dempsey, K. , and Smith, A. (1986). Estimating the abundance of saltwater crocodiles, Crocodylus porosus Schneider, in tidal wetlands of the Northern Territory: a mark–recapture experiment to correct spotlight counts to absolute numbers, and the calibration of helicopter and spotlight counts. Australian Wildlife Research 13, 309–320.
Crossref | GoogleScholarGoogle Scholar | Bishop K. A., and Forbes M. A. (1991). The freshwater fishes of northern Australia. In ‘Monsoonal Australia: Landscape, Ecology and Man in the Northern Lowlands’. (Eds C. D. Haynes, M. G. Ridpath and M. A. J. Williams.) pp. 79–108. (Balkema: Rotterdam.)

Caldicott, D. , Croser, D. , Manolis, C. , Webb, G. , and Britton, A. (2005). Crocodile attacks in Australia. An analysis of its incidence, and review of the pathology and management of crocodilian attacks in general. Wilderness & Environmental Medicine 16, 143–159.
PubMed | Dunstan D. J. (1959). The barramundi Lates calcarifer (Bloch) in Queensland waters. Technical Paper No. 5, CSIRO Australia, Division of Fisheries and Oceanography, Melbourne.

Fukuda Y. (2004). Broad scale influences on contemporary abundance of saltwater crocodiles (C. porosus) in northern Australia. B.Sc.(Honours) Thesis, Charles Darwin University, Darwin.

Kay, W. R. (2004). Movements and home ranges of radio-tracked Crocodylus porosus in the Cambridge Gulf region of Western Australia. Wildlife Research 31, 495–508.
Crossref | GoogleScholarGoogle Scholar | Lang J. W. (1987). Crocodilian behaviour: implications for management. In ‘Wildlife Management: Crocodiles and Alligators’. (Eds G. J. W. Webb, S. C. Manolis and P. J. Whitehead.) pp. 273–294. (Surrey Beatty: Sydney.)

Letnic M. (2004). Crocodile management in the Northern Territory of Australia. In ‘Crocodiles. Proceedings of the 17th Working Meeting of the Crocodile Specialist Group’. (IUCN – The World Conservation Union). pp. 4–12. (Gland: Cambridge, UK.)

Magnusson, W. E. (1980). Habitat required for nesting by Crocodylus porosus (Reptilia: Crocodilidae) in northern Australia. Australian Wildlife Research 7, 149–156.
Crossref | GoogleScholarGoogle Scholar | McDonald N. S., and McAlpine J. (1991). Floods and droughts: the northern climate. In ‘Monsoonal Australia: Landscape, Ecology and Man in the Northern Lowlands’. (Eds C. D. Haynes, M. G. Ridpath and M. A. J. Williams.) pp. 19–30. (Balkema: Rotterdam.)

Messel, H. , and Vorlicek, G. C. (1986). Population dynamics and status of Crocodylus porosus in the tidal waterways of northern Australia. Australian Wildlife Research 13, 71–111.
Crossref | GoogleScholarGoogle Scholar | Messel H., Vorlicek G. C., Wells A. G., Green W. J. (1981). ‘Surveys of Tidal River Systems in the Northern Territory of Australia and their Crocodile Populations.’ Monograph 1. (Pergamon Press: Sydney.)

Messel H., Green W. J., Vorliceck G. C., and Wells A. G. (1982). ‘Surveys of Tidal Waterways in Northern Australia.’ Monograph 15. [Work maps of tidal waterways in northern Australia.] (Pergamon Press: Sydney.)

Messel H., Vorlicek G. C., Green W. J., and Onley I. C. (1987). The distribution of Crocodylus porosus and Crocodylus johnstoni along Type 1 tidal waterways in northern Australia and survey of the upstream non-tidal sections of the Roper River, 1986. In ‘Surveys of Tidal Waterways in the Kimberley Region, Western Australia and their Crocodile Populations. Monograph 20: Tidal waterways of the Kimberley surveyed during 1977, 1978 and 1986’. (Eds H. Messel, A. A. Burbidge, G. C. Vorlicek, A. G. Wells, W. J. Green, I. C. Onley and P. J Fuller.) pp. 293–341.(Pergamon Press: Sydney.)

Nichols T., and Letnic M. (in press). Problem crocodiles: reducing the risk of attacks by Crocodylus porosus in Darwin Harbour, Northern Territory, Australia. In ‘Urban Herpetology: Herpetologial Conservation. Vol. 3’. (Eds R. E. Jung and J. C. Mitchell.) (Society for the Study of Amphibians and Reptiles: Salt Lake City, UT.)

Parks Australia (2004). Crocodile Management Strategy – Kakadu National Park. Australian Government, Department of Environment and Heritage.

Parks and Wildlife Service of the Northern Territory (2005). Management Plan for Crocodylus porosus in the Northern Territory. Northern Territory Government.

Read, M. A. , Miller, J. D. , Bell, I. P. , and Felton, A. (2004). The distribution and abundance of the estuarine crocodile, Crocodylus porosus, in Queensland. Wildlife Research 31, 527–534.
Crossref | GoogleScholarGoogle Scholar | Searcy A. (1909). ‘In Australian Tropics.’ (1984 edn) (Hesperian Press: Perth.)

Stirrat, S. C. , Lawson, D. , Freeland, W. J. , and Morton, R. (2001). Monitoring Crocodylus porosus populations in the Northern Territory of Australia: a retrospective power analysis. Wildlife Research 28, 547–554.
Crossref | GoogleScholarGoogle Scholar | Taplin L. E. (1987). The management of crocodiles in Queensland, Australia. In ‘Wildlife Management: Crocodiles and Alligators’. (Eds G. J. W. Webb, S. C. Manolis and P. J. Whitehead.) pp. 129–140. (Surrey Beatty & the Conservation Commission of the Northern Territory: Sydney.)

Walsh, B. , and Whitehead, P. (1993). Problem crocodiles (Crocodylus porosus) at Nhulunbuy, Northern Territory, Australia: an assessment of relocation as a management strategy. Australian Wildlife Research 20, 127–135.
Crossref | GoogleScholarGoogle Scholar | Webb G. J. W., and Manolis S. C. (1989). ‘Crocodiles of Australia.’ (Reed Books: Sydney.)

Webb G. J. W., and Manolis S. (1993). Conserving Australia’s crocodiles through commercial incentives. In ‘Herpetology in Australia’. (Eds D. Lunney and D. Ayers.) pp. 250–256. (Surrey Beatty: Sydney.)

Webb, G. J. W. , and Messel, H. (1978). Movement and dispersal patterns of Crocodylus porosus in some rivers of Arnhem Land, Northern Australia. Australian Wildlife Research 5, 263–283.
Crossref | GoogleScholarGoogle Scholar | Webb G., Manolis S., Whitehead P., and Letts G. (1984). A proposal for the transfer of the Australian population of Crocodylus porosus Scneider (1801), from Appendix I to Appendix II of C.I.T.E.S. Technical Report No. 21, Conservation Commission of the Northern Territory, Darwin, Northern Territory, Australia.

Webb G. J. W., Manolis S. C., and Ottley B. (1994). Crocodile management and research in the Northern Territory: 1992–1994. In ‘Proceedings of the 12th Working Meeting of the Crocodile Specialist group of the Species Survival Commission of the IUCN, The World Conservation Union, Pattaya, Thailand, 2–6 May 1994’. (IUCN – The World Conservation Union: Gland, Switzerland.)