Reproduction and population ecology of the vulnerable western sawshelled turtle, Myuchelys bellii, in the Murray–Darling Basin, Australia
Darren P. Fielder A C , Duncan J. Limpus B and Colin J. Limpus BA Ecosystem Management, University of New England, Armidale, NSW 2351, Australia.
B Department of Environment and Heritage Protection, Brisbane, Qld 4001, Australia.
C Corresponding author. Email: darrenfielder@bigpond.com
Australian Journal of Zoology 62(6) 463-476 https://doi.org/10.1071/ZO14070
Submitted: 24 August 2014 Accepted: 5 December 2014 Published: 6 February 2015
Abstract
Effective management decisions about the conservation of threatened species often rely on good information about their biology and life-history traits. Nearly half of all turtle species face extinction in the wild through worldwide rapid declines in species abundance and habitat loss. The vulnerable western sawshelled turtle, Myuchelys bellii, from eastern Australia is one such species under threat and for which fundamental information is lacking. The three known populations of M. bellii in the Murray–Darling Basin from the Namoi, Gwydir and Border Rivers catchments were studied over a period of nearly eight years. From capture–mark–recapture data, we studied M. bellii’s sexual maturity and reproduction, compared age of individuals using growth rates derived from annuli and growth increment data and calculated a population estimate for the Queensland population. For the first time this study has quantified the life-history traits of M. bellii including having delayed age at first breeding, with males taking nearly 10 years to mature and females approaching 20 years (from growth increment data), low reproductive effort (14.3 eggs per adult female; 78% of females breeding in any one year) and high survivorship with a predicted lifespan of over 40 years. Of particular management concern for M. bellii is the long-term conservation of the small isolated Queensland population (<400 individuals). The extensive dataset provides a baseline for future investigations and management actions required to improve the conservation outcomes for this threatened turtle.
References
Allanson, M., and Georges, A. (1999). Diet of Elseya purvisi and Elseya georgesi (Testudines: Chelidae), a sibling species pair of freshwater turtles from eastern Australia. Chelonian Conservation and Biology 3, 473–477.Anderson, D. R., Burnham, K. P., and White, G. C. (1994). AIC model selection in overdispersed capture–recapture data. Ecology 75, 1780–1793.
| AIC model selection in overdispersed capture–recapture data.Crossref | GoogleScholarGoogle Scholar |
Anon. (2013). Genus Wollumbinia Wells, 2007. Australian Biological Resources Study. Australian Fauna Directory.
Blamires, S. J., Spencer, R.-J., King, P., and Thompson, M. B. (2005). Population parameters and life-table analysis of two coexisting freshwater turtles: are the Bellinger River turtle populations threatened? Wildlife Research 32, 339–347.
| Population parameters and life-table analysis of two coexisting freshwater turtles: are the Bellinger River turtle populations threatened?Crossref | GoogleScholarGoogle Scholar |
Booth, D. T. (2002). The breaking of diapause in embryonic broad-shell river turtles (Chelodina expansa). Journal of Herpetology 36, 304–307.
| The breaking of diapause in embryonic broad-shell river turtles (Chelodina expansa).Crossref | GoogleScholarGoogle Scholar |
Bower, D., and Hodges, K. (2014). Chelodina expansa Gray 1857 – broad-shelled turtle, giant 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 No. 5, pp. 071.1–071.8
Buhlmann, K. A., Akre, T. S. B., Iverson, J. B., Karapatakis, D., Mittermeier, R. A., Georges, A., Rhodin, A. G. J., van Dijk, P. P., and Gibbons, J. W. (2009). A global analysis of tortoise and freshwater turtle distributions with identification of priority conservation areas. Chelonian Conservation and Biology 8, 116–149.
| A global analysis of tortoise and freshwater turtle distributions with identification of priority conservation areas.Crossref | GoogleScholarGoogle Scholar |
Burbidge, A. A. (1981). The ecology of the western swamp tortoise Pseudemydura umbrina (Testudines: Chelidae). Australian Wildlife Research 8, 203–223.
| The ecology of the western swamp tortoise Pseudemydura umbrina (Testudines: Chelidae).Crossref | GoogleScholarGoogle Scholar |
Cailliet, G. M., Mollet, H. F., Pittenger, G. G., Bedford, D., and Natanson, L. J. (1992). Growth and demography of the Pacific angel shark (Squatina californica), based on tag returns of California. Australian Journal of Marine and Freshwater Research 43, 1313–1330.
| Growth and demography of the Pacific angel shark (Squatina californica), based on tag returns of California.Crossref | GoogleScholarGoogle Scholar |
Cann, J. (1998). ‘Australian Freshwater Turtles.’ (Beaumont Publishing: Singapore.)
Chaloupka, M., Kamezaki, N., and Limpus, C. J. (2008). Is climate change affecting the population dynamics of the endangered Pacific loggerhead sea turtle? Journal of Experimental Marine Biology and Ecology 356, 136–143.
| Is climate change affecting the population dynamics of the endangered Pacific loggerhead sea turtle?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. (1987). Atmospheric and aquatic basking of the Australian freshwater turtle Emydura macquarii (Gray) (Testudines: Chelidae). Herpetologica 43, 301–306.
Clay, B. T. (1981). Observations on the breeding biology and behaviour of the long-necked tortoise, Chelodina oblonga. Journal of the Royal Society of Western Australia 4, 27–32.
Cormack, R. M. (1964). Estimates of survival from the sighting of marked animals. Biometrika 51, 429–438.
| Estimates of survival from the sighting of marked animals.Crossref | GoogleScholarGoogle Scholar |
Dorrian, C. (1987). The Manning River turtle – a new species? Thylacinus 12, 14–16.
Ewing, H. E. (1939). Growth in the eastern box-turtle, with special reference to the dermal shields of the carapace. Copeia 1939, 87–92.
| Growth in the eastern box-turtle, with special reference to the dermal shields of the carapace.Crossref | GoogleScholarGoogle Scholar |
Fabens, A. J. (1965). Properties and fitting of the von Bertalanffy growth curve. Growth 29, 265–289.
| 1:STN:280:DyaF287gs1WmtA%3D%3D&md5=45a5bd32b281bf0e012d6c91966237b7CAS | 5865688PubMed |
Fielder, D. P. (2013). Ancient phenotypes revealed through present day species – a morphological analysis of Australia’s saw-shelled turtles including the threatened Myuchelys bellii (Testudines: Chelidae). Chelonian Conservation and Biology 12, 101–111.
| Ancient phenotypes revealed through present day species – a morphological analysis of Australia’s saw-shelled turtles including the threatened Myuchelys bellii (Testudines: Chelidae).Crossref | GoogleScholarGoogle Scholar |
Fielder, D. P., Vernes, K., Alacs, E., and Georges, A. (2012). Mitochondrial variation among Australian freshwater turtles (genus Myuchelys), with special reference to the endangered M. bellii. Endangered Species Research 17, 63–71.
| Mitochondrial variation among Australian freshwater turtles (genus Myuchelys), with special reference to the endangered M. bellii.Crossref | GoogleScholarGoogle Scholar |
Flakus, S. (2002). The ecology of the Mary River turtle, Elusor macrurus. M.Sc. Thesis, University of Queensland, Brisbane.
Frazer, N. B., Gibbons, J. W., and Greene, J. L. (1991). Life history and demography of the common mud turtle Kinosternon subrubrum in South Carolina, USA. Ecology 72, 2218–2231.
| Life history and demography of the common mud turtle Kinosternon subrubrum in South Carolina, USA.Crossref | GoogleScholarGoogle Scholar |
Gayanilo, J. F. C., Sparre, P., and Pauly, D. (2005). FAO_ICLARM Stock Assessment Tools II (FiSAT II) User’s Guide. FAO Computerized Information Series (Fisheries), 8, Revised Version. FAO, Rome.
Georges, A. (1982). Diet of the Australian freshwater turtle Emydura krefftii (Chelonia : Chelidae), in an unproductive lentic environment. Copeia 1982, 331–336.
| Diet of the Australian freshwater turtle Emydura krefftii (Chelonia : Chelidae), in an unproductive lentic environment.Crossref | GoogleScholarGoogle Scholar |
Georges, A. (1983). Reproduction of the Australian freshwater turtle Emydura krefftii (Chelonia: Chelidae). Journal of Zoology 201, 331–350.
| Reproduction of the Australian freshwater turtle Emydura krefftii (Chelonia: Chelidae).Crossref | GoogleScholarGoogle Scholar |
Georges, A. (1985). Reproduction and reduced body size of reptiles in unproductive insular environments. In ‘Biology of Australasian Frogs and Reptiles’. (Eds G. C. Grigg, R. Shine, and H. Ehmann.) pp. 311–318. (Royal Zoological Society of New South Wales: Sydney.)
Georges, A. (1993). Setting conservation priorities for Australian freshwater turtles. In ‘Herpetology in Australia: A Diverse Discipline’. (Eds D. Lunney and D. Ayers.) pp. 49–58. (Royal Zoological Society of New South Wales: Sydney.)
Georges, A., and Adams, M. (1992). A phylogeny for Australian chelid turtles based on allozyme electrophoresis. Australian Journal of Zoology 40, 453–476.
| A phylogeny for Australian chelid turtles based on allozyme electrophoresis.Crossref | GoogleScholarGoogle Scholar |
Georges, A., and Adams, M. (1996). Electrophoretic delineation of species boundaries within the short-necked freshwater turtles of Australia (Testudines: Chelidae). Zoological Journal of the Linnean Society 118, 241–260.
| Electrophoretic delineation of species boundaries within the short-necked freshwater turtles of Australia (Testudines: Chelidae).Crossref | GoogleScholarGoogle Scholar |
Georges, A., and Thomson, S. (2010). Diversity of Australasian freshwater turtles, with an annotated synonymy and keys to species. Zootaxa 2496, 1–37.
Georges, A., Guarino, F., and White, M. (2006). Sex ratio variation across populations of a turtle species with genotypic sex determination. Wildlife Research 33, 475–480.
| Sex ratio variation across populations of a turtle species with genotypic sex determination.Crossref | GoogleScholarGoogle Scholar |
Germano, D. J., and Bury, R. B. (1998). Age determination in turtles: evidence of annual deposition of scute rings. Chelonian Conservation and Biology 3, 123–132.
Gray, J. E. (1844). ‘Catalogue of the Tortoises, Crocodiles and Amphibians in the Collection of the British Museum.’ (Edward Newman: London.)
Hamann, M., Schauble, C. S., Limpus, D. J., Emerick, S. P., and Limpus, C. J. (2007). Management Plan for the conservation of Elseya sp. [Burnett River] in the Burnett River Catchment. Queensland Environmental Protection Agency, Brisbane.
Hamann, M., Schauble, C. S., Emerick, S. P., Limpus, D. J., and Limpus, C. J. (2008). Freshwater turtle populations in the Burnett River. Memoirs of the Queensland Museum 52, 221–232.
Heppell, S. S. (1998). Application of life-history theory and population model analysis to turtle conservation. Copeia 1998, 367–375.
| Application of life-history theory and population model analysis to turtle conservation.Crossref | GoogleScholarGoogle Scholar |
Iverson, J. B. (1991a). Patterns of survivorship in turtles (order Testudines). Canadian Journal of Zoology 69, 385–391.
| Patterns of survivorship in turtles (order Testudines).Crossref | GoogleScholarGoogle Scholar |
Iverson, J. B. (1991b). Life history and demography of the yellow mud turtle, Kinosternon flavescens. Herpetologica 47, 373–395.
Jolly, G. M. (1965). Explicit estimates from capture–recapture data with both death and immigration – stochastic model. Biometrika 52, 225–248.
| Explicit estimates from capture–recapture data with both death and immigration – stochastic model.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaF2M7ks1WktQ%3D%3D&md5=a6f4e766ca7894bc13b3920e725e0003CAS | 14341276PubMed |
Judge, D. (2001). The ecology of the polytypic freshwater turtle species, Emydura macquarii macquarii. Ph.D. Thesis, University of Canberra, Canberra.
Kaiser, H., Crother, B. I., Kelly, C. M. R., Luiselli, L., O’Shea, M., Ota, H., Passos, P., Schleip, W. D., and Wuster, W. (2013). Best practices: in the 21st century, taxonomic decisions in herpetology are acceptable only when supported by a body of evidence and published peer-review. Herpetological Review 44, 8–23.
Kennett, R. (1994). Ecology of two species of freshwater turtle, Chelodina rugosa and Elseya dentata, from the wet–dry tropics of northern Australia. Ph.D. Thesis, University of Queensland, Brisbane.
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. (1999). Reproduction of two species of freshwater turtle, Chelodina rugosa and Elseya dentata, from the wet–dry tropics of northern Australia. Journal of Zoology 247, 457–473.
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). Herpetologica 46, 22–33.
Kennett, R., Georges, A., and Palmer-Allen, M. (1993). Early developmental arrest during immersion of eggs of a tropical freshwater turtle, Chelodina rugosa (Testudinata: Chelidae), from northern Australia. Australian Journal of Zoology 41, 37–45.
| Early developmental arrest during immersion of eggs of a tropical freshwater turtle, Chelodina rugosa (Testudinata: Chelidae), from northern Australia.Crossref | GoogleScholarGoogle Scholar |
Kennett, R., Christian, K., and Bedford, G. (1998). Underwater nesting by the Australian freshwater turtle Chelodina rugosa: effect of prolonged immersion and eggshell thickness on incubation period, egg survivorship, and hatchling size. Canadian Journal of Zoology 76, 1019–1023.
| Underwater nesting by the Australian freshwater turtle Chelodina rugosa: effect of prolonged immersion and eggshell thickness on incubation period, egg survivorship, and hatchling size.Crossref | GoogleScholarGoogle Scholar |
Kennett, R., Roe, J. H., 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 No. 5, pp. 031.1–031.8.
Kennett, R., Fordham, D. A., Alacs, E., Corey, B., and Georges, A. (2014). Chelodina oblonga Gray 1841 – northern 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 No. 5, pp. 077.1–077.13.
Kuchling, G. (1988). Gonadal cycles of the Western Australian long-necked turtles Chelodina oblonga and Chelodina steindachneri (Chelonia: Chelidae). Records of the Western Australian Museum 14, 189–198.
Kuchling, G., and Bradshaw, S. D. (1993). Ovarian cycle and egg production of the western swamp tortoise Pseudemydura umbrina (Testudines: Chelidae) in the wild and in captivity. Journal of Zoology 229, 405–419.
Le, M., Reid, B. N., McCord, W. P., Naro-Maciel, E., Raxworthy, C. J., Amato, G., and Georges, A. (2013). Resolving the phylogenetic history of the short-necked turtles, genera Elseya and Myuchelys (Testudines: Chelidae) from Australia and New Guinea. Molecular Phylogenetics and Evolution 68, 251–258.
| Resolving the phylogenetic history of the short-necked turtles, genera Elseya and Myuchelys (Testudines: Chelidae) from Australia and New Guinea.Crossref | GoogleScholarGoogle Scholar | 23563271PubMed |
Legler, J. M., and Cann, J. (1980). A new genus and species of chelid turtle from Queensland, Australia. Contributions in Science 324, 1–18.
Limpus, C. (2008a). A biological review of Australian marine turtles. 1. Loggerhead turtle Caretta caretta (Linnaeus). Queensland Government, Brisbane.
Limpus, C. (2008b). Freshwater turtles in the Mary River: review of biological data for turtles in the Mary River, with emphasis on Elusor macrurus and Elseya albagula. Queensland Government, Brisbane.
Limpus, C. J., and Limpus, D. J. (2003). The biology of the loggerhead turtle, Caretta caretta, in southwest Pacific Ocean foraging areas. In ‘Biology and Conservation of Loggerhead Turtles’. (Eds B. Witherington, and A. Bolten.) pp. 93–113. (Smithsonian Institution Press: Washington, DC.)
Limpus, C. J., Limpus, D. J., and Hamann, M. (2002). Freshwater turtle populations in the area to be flooded by the Walla Weir, Burnett River, Queensland: baseline study. Memoirs of the Queensland Museum 48, 155–168.
Limpus, C. J., Limpus, D. J., Arthur, K. E., and Parmenter, C. J. (2005). Monitoring green turtle population dynamics in Shoalwater Bay: 2000–2004. Queensland Environmental Protection Agency and the Great Barrier Reef Marine Park Authority, Brisbane.
Limpus, C. J., Limpus, D. J., Parmenter, C. J., Hodge, J., Forrest, M. J., and McLachlan, J. (2011). The biology and management strategies for freshwater turtles in the Fitzroy River Catchment, with particular emphasis on Elseya albagula and Rheodytes leukops. A study initiated in response to the proposed construction of Rookwood Weir and the raising of Eden Bann Weir. Department of Environment and Heritage Protection, Queensland Government, Brisbane.
Limpus, C. J., Limpus, D. J., Hollier, C., Savige, M., and McAllister, D. (2012). Survey of freshwater turtle populations and nesting habitat. Tartrus Weir Turtleway Project. September–December 2011. Department of Environment and Heritage Protection, Queensland Government, Brisbane.
Litzgus, J. D., and Brooks, R. J. (1998a). Testing the validity of counts of plastral scute rings in spotted turtles, Clemmys guttata. Copeia 1998, 222–225.
| Testing the validity of counts of plastral scute rings in spotted turtles, Clemmys guttata.Crossref | GoogleScholarGoogle Scholar |
Litzgus, J. D., and Brooks, R. J. (1998b). 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 |
Martins, F. I., and Souza, F. L. (2008). Estimates of growth of the Atlantic rain forest freshwater turtle Hydromedusa maximiliani (Chelidae). Journal of Herpetology 42, 54–60.
| Estimates of growth of the Atlantic rain forest freshwater turtle Hydromedusa maximiliani (Chelidae).Crossref | GoogleScholarGoogle Scholar |
Mueller, J. M., Sharp, K. R., Zander, K. K., Rakestraw, D. L., Rautenstraunch, K. R., and Lederle, P. E. (1998). Size-specific fecundity of the desert tortoise (Gopherus agassizii). Journal of Herpetology 32, 313–319.
| Size-specific fecundity of the desert tortoise (Gopherus agassizii).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.
Seber, G. A. F. (1965). A note on the multiple recapture census. Biometrika 52, 249–260.
| A note on the multiple recapture census.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaF2M7ks1Wkug%3D%3D&md5=030cc846bf16b9f5221a938611214240CAS |
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. (2002a). 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. (2002b). Experimentally testing nest site selection: fitness trade-offs and predation risk in turtles. Ecology 83, 2136–2144.
| Experimentally testing nest site selection: fitness trade-offs and predation risk in turtles.Crossref | GoogleScholarGoogle Scholar |
Spencer, R. J., Thompson, M. B., and Hume, I. D. (1998). The diet and digestive energetics of an Australian short-necked turtle, Emydura macquarii. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 121, 341–349.
| The diet and digestive energetics of an Australian short-necked turtle, Emydura macquarii.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK1M7lslOntQ%3D%3D&md5=b29b07d8283e29c15fc6791e21bd4675CAS |
Stanthorpe Shire (2008). Emu Swamp Dam Environmental Impact Statement. A report prepared by the Stanthorpe Shire, Stanthorpe, Queensland.
Thompson, M. B. (1983). Populations of the Murray River tortoise, Emydura (Chelodina [sic]): the effect of egg predation by the red fox Vulpes vulpes. Australian Wildlife Research 10, 363–371.
| Populations of the Murray River tortoise, Emydura (Chelodina [sic]): the effect of egg predation by the red fox Vulpes vulpes.Crossref | GoogleScholarGoogle Scholar |
Thompson, M. B. (1985). Functional significance of the opaque white patch in eggs of Emydura macquarii. In ‘Biology of Australasian Frogs and Reptiles’. (Eds G. Grigg, Shine, R., and H. E. Ehmann.) pp. 387–395. (Australian Zoological Society of New South Wales: Sydney.)
Thompson, M. B. (1988). Influence of incubation temperature and water potential on sex determination in Emydura macquarii (Testudines: Pleurodira). Herpetologica 44, 86–90.
Tripodi, N., and Limpus, C. (2010). Assessment of the Fitzroy River aquatic ecosystem following the 2008 discharge of coal mine– affected floodwaters from the Ensham Coal Mine. Department of Environment and Resource Management, Queensland Government, Brisbane.
Turtle Taxonomy Working Group [Eds P. P. van Dijk, J. B. Iverson, A. G. J. Rhodin, H. B. Shaffer, and R. Bour.] (2014). Turtles of the World. 7th edition: annotated checklist of taxonomy, synonymy, distribution with maps, and conservation status. 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(7), pp. 000.329–000.479.
van Burskirk, J., and Crowder, L. B. (1994). Life history variation in marine turtles. Copeia 1994, 66–81.
| Life history variation in marine turtles.Crossref | GoogleScholarGoogle Scholar |
White, G. C., and Burnham, K. P. (1999). Program MARK: survival estimation from populations of marked animals. Bird Study 46, S120–S139.
| Program MARK: survival estimation from populations of marked animals.Crossref | GoogleScholarGoogle Scholar |
Wilson, D. S., Tracy, C. R., and Tracy, C. R. (2003). Estimating age of turtles from growth rings: a critical evaluation of the technique. Herpetologica 59, 178–194.
| Estimating age of turtles from growth rings: a critical evaluation of the technique.Crossref | GoogleScholarGoogle Scholar |
Zuffi, M. A. L., Odetti, F., and Meozzi, P. (1999). Body size and clutch size in the European pond turtle (Emys orbicularis) from central Italy. Journal of Zoology 247, 139–143.
| Body size and clutch size in the European pond turtle (Emys orbicularis) from central Italy.Crossref | GoogleScholarGoogle Scholar |