Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Australian Journal of Zoology Australian Journal of Zoology Society
Evolutionary, molecular and comparative zoology
RESEARCH ARTICLE

Slow and unsteady: growth of the Australian eastern long-necked turtle near the southern end of its natural range

Bruce C. Chessman
+ Author Affiliations
- Author Affiliations

Centre for Ecosystem Science, University of New South Wales, Sydney, NSW 2052, Australia. Email: brucechessman@gmail.com

Australian Journal of Zoology 66(1) 77-83 https://doi.org/10.1071/ZO18001
Submitted: 8 January 2018  Accepted: 10 April 2018   Published: 30 April 2018

Abstract

Knowledge of growth rates and maturation times of freshwater turtles is important in assessing population viability. I analysed growth of Australian eastern long-necked turtles (Chelodina longicollis) from individual capture–recapture records spanning periods of up to 17 years for a population in Gippsland, Victoria, close to the high-latitude end of the species’ natural range. Juvenile growth was rapid and similar among individuals but adult growth was usually slow, highly variable among individuals and erratic within individuals over time. In addition, asymptotic body lengths were disparate among individuals for both males and females. Von Bertalanffy growth models fitted separately to males plus unsexed juveniles and females plus unsexed juveniles performed better than logistic models but tended to underestimate growth rates for very small and very large turtles and overestimate growth for medium-sized individuals. Sexual maturity was estimated to be achieved at 10 years in males and 16 years in females, which is late compared with most estimates for other populations of C. longicollis and for other turtle species in south-eastern Australia. The high variability of individual growth in this population makes age estimation from body size unreliable beyond the first few years of life.

Additional keywords: Chelodina longicollis, logistic, maturation, von Bertalanffy.


References

Arendt, J. D. (1997). Adaptive intrinsic growth rates: an integration across taxa. The Quarterly Review of Biology 72, 149–177.
Adaptive intrinsic growth rates: an integration across taxa.Crossref | GoogleScholarGoogle Scholar |

Armstrong, D. P., and Brooks, R. J. (2013). Application of hierarchical biphasic growth models to long-term data for snapping turtles. Ecological Modelling 250, 119–125.
Application of hierarchical biphasic growth models to long-term data for snapping turtles.Crossref | GoogleScholarGoogle Scholar |

Ashton, D. T., Bettaso, J. B., and Welsh, H. H. (2015). Changes across a decade in size, growth, and body condition of western pond turtle (Actinemys marmorata) populations on free-flowing and regulated forks of the Trinity River in northwest California. Copeia 103, 621–633.
Changes across a decade in size, growth, and body condition of western pond turtle (Actinemys marmorata) populations on free-flowing and regulated forks of the Trinity River in northwest California.Crossref | GoogleScholarGoogle Scholar |

Brooks, R. J., Shilton, C. M., Brown, G. P., and Quinn, N. W. S. (1992). Body size, distribution, and reproduction in a northern population of wood turtles (Clemmys insculpta). Canadian Journal of Zoology 70, 462–469.
Body size, distribution, and reproduction in a northern population of wood turtles (Clemmys insculpta).Crossref | GoogleScholarGoogle Scholar |

Chen, T.-H., and Lue, K.-Y. (2002). Growth patterns of the yellow-margined box turtle (Cuora flavomarginata) in northern Taiwan. Journal of Herpetology 36, 201–208.
Growth patterns of the yellow-margined box turtle (Cuora flavomarginata) in northern Taiwan.Crossref | GoogleScholarGoogle Scholar |

Chessman, B. C. (1978). Ecological studies of freshwater turtles in south-eastern Australia. Ph.D. Thesis, Monash University, Melbourne.

Chessman, B. C. (1984). Evaporative water loss from three south-eastern Australian species of freshwater turtle. Australian Journal of Zoology 32, 649–655.
Evaporative water loss from three south-eastern Australian species of freshwater turtle.Crossref | GoogleScholarGoogle Scholar |

Chessman, B. C. (1988). Habitat preferences of freshwater turtles in the Murray Valley, Victoria and New South Wales. Australian Wildlife Research 15, 485–491.
Habitat preferences of freshwater turtles in the Murray Valley, Victoria and New South Wales.Crossref | GoogleScholarGoogle Scholar |

Chessman, B. C. (2011). Declines of freshwater turtles associated with climatic drying in Australia’s Murray–Darling Basin. Wildlife Research 38, 664–671.
Declines of freshwater turtles associated with climatic drying in Australia’s Murray–Darling Basin.Crossref | GoogleScholarGoogle Scholar |

Chessman, B. C. (2018). Freshwater turtle hatchlings that stay in the nest: strategists or prisoners? Australian Journal of Zoology 66, 34–40.
Freshwater turtle hatchlings that stay in the nest: strategists or prisoners?Crossref | GoogleScholarGoogle Scholar |

Congdon, J. D., Gibbons, J. W., Brooks, R. J., Rollinson, N., and Tsaliagos, R. N. (2013). Indeterminate growth in long-lived freshwater turtles as a component of individual fitness. Evolutionary Ecology 27, 445–459.
Indeterminate growth in long-lived freshwater turtles as a component of individual fitness.Crossref | GoogleScholarGoogle Scholar |

Dalem, A. A. G. R. (1998). Demography and movement patterns of a population of eastern snake-necked turtles, Chelodina longicollis (Shaw, 1794). M.Sc. Thesis, University of Western Sydney, Sydney.

Dunham, A. E., and Gibbons, J. W. (1990). Growth of the slider turtle. In ‘Life History and Ecology of the Slider Turtle’. (Ed. J. W. Gibbons.) pp. 135–145. (Smithsonian Institution Press: Washington, DC.)

Fabens, A. J. (1965). Properties and fitting of the von Bertalanffy growth curve. Growth 29, 265–289.
| 1:STN:280:DyaF287gs1WmtA%3D%3D&md5=d39d25cf291c12e9103d1ce07fb1021aCAS |

Ferronato, B. O., Roe, J. H., and Georges, A. (2017). Responses of an Australian freshwater turtle to drought-flood cycles along a natural to urban gradient. Austral Ecology 42, 442–455.
Responses of an Australian freshwater turtle to drought-flood cycles along a natural to urban gradient.Crossref | GoogleScholarGoogle Scholar |

Frazer, N. B., Greene, J. L., and Gibbons, J. W. (1993). Temporal variation in growth rate and age at maturity of male painted turtles, Chrysemys picta. American Midland Naturalist 130, 314–324.
Temporal variation in growth rate and age at maturity of male painted turtles, Chrysemys picta.Crossref | GoogleScholarGoogle Scholar |

Galbraith, D. A., Brooks, R. J., and Obbard, M. E. (1989). The influence of growth rate on age and body size at maturity in female snapping turtles (Chelydra serpentina). Copeia 1989, 896–904.
The influence of growth rate on age and body size at maturity in female snapping turtles (Chelydra serpentina).Crossref | GoogleScholarGoogle Scholar |

Gibbons, J. W. (1970). Reproductive dynamics of a turtle (Pseudemys scripta) population in a reservoir receiving heated effluent from a nuclear reactor. Canadian Journal of Zoology 48, 881–885.
Reproductive dynamics of a turtle (Pseudemys scripta) population in a reservoir receiving heated effluent from a nuclear reactor.Crossref | GoogleScholarGoogle Scholar |

Hamer, A. J., Harrison, L. J., and Stokeld, D. (2018). Terrestrial habitat and individual fitness increase survival of a freshwater turtle in an urban landscape. Urban Ecosystems 21, 71–83.
Terrestrial habitat and individual fitness increase survival of a freshwater turtle in an urban landscape.Crossref | GoogleScholarGoogle Scholar |

Harding, J. H., and Bloomer, T. J. (1979). The wood turtle, Clemmys insculpta … a natural history. Herp - Bulletin of the New York Herpetological Society 15, 9–26.

Jones, R. L., and Hartfield, P. D. (1995). Population size and growth in the turtle Graptemys oculifera. Journal of Herpetology 29, 426–436.
Population size and growth in the turtle Graptemys oculifera.Crossref | GoogleScholarGoogle Scholar |

Judge, D. (2001). The ecology of the polytypic freshwater turtle species, Emydura macquarii macquarii. M.Appl.Sc. Thesis, University of Canberra.

Kennett, R. M. (1987). Reproduction, growth and dispersal of the eastern long-necked turtle Chelodina longicollis Shaw (Testudinata: Chelidae) in the Jervis Bay Territory. B.Sc.(Honours) Thesis, Australian National University, Canberra.

Kennett, R. (1996). Growth models for two species of freshwater turtle, Chelodina rugosa and Elseya dentata, from the wet–dry tropics of northern Australia. Herpetologica 52, 383–395.

Kennett, R. M., and Georges, A. (1990). Habitat utilization and its relationship to growth and reproduction of the eastern long-necked turtle, Chelodina longicollis (Testudinata: Chelidae), from Australia. Herpetologica 46, 22–33.

Kennett, R., Roe, J., Hodges, K., and Georges, A. (2009). Chelodina longicollis (Shaw 1794) – eastern long-necked turtle, common long-necked turtle, common snake-necked turtle. In ‘Conservation Biology of Freshwater Turtles and Tortoises: a Compilation Project of the IUCN/SSC Tortoise and Freshwater Turtle Specialist Group’. (Eds A. G. J. Rhodin, P. C. H. Pritchard, P. P. van Dijk, R. A. Saumure, K. A. Buhlmann, J. B. Iverson, and R. A. Mittermeier.) Chelonian Research Monographs 5, 031.1–031.8.

Klemens, M. W. (2000). ‘Turtle Conservation’. (Smithsonian Institution Press: Washington, DC.)

Legler, J. M. (1960). A simple and inexpensive device for trapping aquatic turtles. Proceedings of the Utah Academy of Science, Arts, and Letters 37, 63–66.

Lindeman, P. V. (1997). Contributions toward improvement of model fit in nonlinear regression modelling of turtle growth. Herpetologica 53, 179–191.

Litzgus, J. D., and Brooks, R. J. (1998). Growth in a cold environment: body size and sexual maturity in a northern population of spotted turtles, Clemmys guttata. Canadian Journal of Zoology 76, 773–782.
Growth in a cold environment: body size and sexual maturity in a northern population of spotted turtles, Clemmys guttata.Crossref | GoogleScholarGoogle Scholar |

Parmenter, C. J. (1976). The natural history of the Australian freshwater turtle Chelodina longicollis Shaw (Testudinata, Chelidae). Ph.D. Thesis, University of New England, Armidale.

Parmenter, C. J. (1985). Reproduction and survivorship of Chelodina longicollis (Testudinata: Chelidae). In ‘Biology of Australasian Frogs and Reptiles’. (Eds G. Grigg, R. Shine, and H. Ehmann.) pp. 53–61. (Royal Zoological Society of New South Wales: Sydney.)

Purvis, A., Gittleman, J. L., Cowlishaw, G., and Mace, G. M. (2000). Predicting extinction risk in declining species. Proceedings of the Royal Society B: Biological Sciences 267, 1947–1952.
Predicting extinction risk in declining species.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD3MzjvVaitg%3D%3D&md5=6357f54510f9f78f88ad91045673d2a0CAS |

Roe, J. H., and Georges, A. (2008a). Maintenance of variable responses for coping with wetland drying in freshwater turtles. Ecology 89, 485–494.
Maintenance of variable responses for coping with wetland drying in freshwater turtles.Crossref | GoogleScholarGoogle Scholar |

Roe, J. H., and Georges, A. (2008b). Terrestrial activity, movements and spatial ecology of an Australian freshwater turtle, Chelodina longicollis, in a temporally dynamic wetland system. Austral Ecology 33, 1045–1056.
Terrestrial activity, movements and spatial ecology of an Australian freshwater turtle, Chelodina longicollis, in a temporally dynamic wetland system.Crossref | GoogleScholarGoogle Scholar |

Roe, J. H., Rees, M., and Georges, A. (2011). Suburbs: dangers or drought refugia for freshwater turtle populations? Journal of Wildlife Management 75, 1544–1552.
Suburbs: dangers or drought refugia for freshwater turtle populations?Crossref | GoogleScholarGoogle Scholar |

Ruello, N. V. (1975). A small beam trawl for sampling surface or demersal and benthic organisms. Bulletin of the Australian Society for Limnology 6, 9–16.

Ryan, M. (2014). Human impacts on the long-necked turtle Chelodina longicollis (Shaw 1794) in peri-urban Sydney. Ph.D. Thesis, University of Western Sydney, Sydney.

Ryan, M., and Burgin, S. (2007). Gone walkabout? Movement of the eastern long-necked turtle Chelodina longicollis from farm dams in northwest peri-urban Sydney (Australia). Journal of Biological Research (Thessaloniki) 8, 119–127.

Schoener, T. W., and Schoener, A. (1978). Estimating and interpreting body-size growth in some Anolis lizards. Copeia 1978, 390–405.
Estimating and interpreting body-size growth in some Anolis lizards.Crossref | GoogleScholarGoogle Scholar |

Shine, R., and Iverson, J. B. (1995). Patterns of survival, growth and maturation in turtles. Oikos 72, 343–348.
Patterns of survival, growth and maturation in turtles.Crossref | GoogleScholarGoogle Scholar |

Spencer, R.-J. (2002). Growth patterns of two widely distributed freshwater turtles and a comparison of common methods used to estimate age. Australian Journal of Zoology 50, 477–490.
Growth patterns of two widely distributed freshwater turtles and a comparison of common methods used to estimate age.Crossref | GoogleScholarGoogle Scholar |

Spencer, R.-J., and Thompson, M. B. (2005). Experimental analysis of the impact of foxes on freshwater turtle populations. Conservation Biology 19, 845–854.
Experimental analysis of the impact of foxes on freshwater turtle populations.Crossref | GoogleScholarGoogle Scholar |

Spencer, R.-J., Van Dyke, J. U., and Thompson, M. B. (2017). Critically evaluating best management practices for preventing freshwater turtle extinctions. Conservation Biology 31, 1340–1349.
Critically evaluating best management practices for preventing freshwater turtle extinctions.Crossref | GoogleScholarGoogle Scholar |

Stokeld, D., Hamer, A. J., van der Ree, R., Pettigrove, V., and Gillespie, G. (2014). Factors influencing occurrence of a freshwater turtle in an urban landscape: a resilient species? Wildlife Research 41, 163–171.
Factors influencing occurrence of a freshwater turtle in an urban landscape: a resilient species?Crossref | GoogleScholarGoogle Scholar |

Stott, P. (1988). Use of growth rings to determine age in the freshwater tortoise Chelodina longicollis: a cautionary note. Transactions of the Royal Society of South Australia 112, 179–180.

Sung, Y.-H., Hau, B. C. H., Lau, M. W. N., Crow, P. A., Kendrick, R. C., Buhlmann, K. A., Ades, G. W. J., and Karraker, N. E. (2015). Growth rate and an evaluation of age estimation for the endangered big-headed turtle (Platysternon megacephalum) in China. Journal of Herpetology 49, 99–103.
Growth rate and an evaluation of age estimation for the endangered big-headed turtle (Platysternon megacephalum) in China.Crossref | GoogleScholarGoogle Scholar |

Thornhill, G. M. (1982). Comparative reproduction of the turtle, Chrysemys scripta elegans, in heated and natural lakes. Journal of Herpetology 16, 347–353.
Comparative reproduction of the turtle, Chrysemys scripta elegans, in heated and natural lakes.Crossref | GoogleScholarGoogle Scholar |

Tinkle, D. W. (1961). Geographic variation in reproduction, size, sex ratio and maturity of Sternotherus odoratus (Testudinata: Chelydridae). Ecology 42, 68–76.
Geographic variation in reproduction, size, sex ratio and maturity of Sternotherus odoratus (Testudinata: Chelydridae).Crossref | GoogleScholarGoogle Scholar |

Tucker, A. D. (Ed.) (1999). Cumulative effects of dams and weirs on freshwater turtles: Fitzroy, Kolan, Burnett and Mary catchments. Queensland Parks and Wildlife Service, Bundaberg.

Van Dijk, P. P., Iverson, J. B., Rhodin, A. G. J., Shaffer, H. B., and Bour, R. (2014). Turtles of the world: annotated checklist of taxonomy, synonymy, distribution with maps, and conservation status. 7th edn. Chelonian Research Monographs 5, 329–479.

Wilbur, H. M. (1975). A growth model for the turtle Chrysemys picta. Copeia 1975, 337–343.
A growth model for the turtle Chrysemys picta.Crossref | GoogleScholarGoogle Scholar |

Zweifel, R. G. (1989). Long term ecological studies on a population of painted turtles, Chrysemys picta, on Long Island, New York. American Museum Novitates 2952, 1–55.