No evidence of protracted population decline across 17 years in an unmanaged population of the green and golden bell frog in north-eastern New South Wales
Ross L. Goldingay A B , Jonathan Parkyn A and David A. Newell AA School of Environment, Science and Engineering, Southern Cross University, PO Box 157, Lismore, NSW 2480, Australia.
B Corresponding author. Email: ross.goldingay@scu.edu.au
Australian Journal of Zoology 65(2) 87-96 https://doi.org/10.1071/ZO16087
Submitted: 15 December 2016 Accepted: 22 June 2017 Published: 25 July 2017
Abstract
Describing the population trends of threatened species over time is central to their management and conservation. The green and golden bell frog (Litoria aurea) is a formerly common species of south-eastern Australia that has declined to ~40 populations in New South Wales, and experienced a substantial contraction of its geographic range. We aimed to determine whether an unmanaged population at the northern end of its range had declined across a 17-year period. We estimated population size at the beginning and end of this period, using several population models to fully characterise this population. Different modelling approaches gave different population estimates. Based on a similar number of survey occasions the adult male segment of the population was estimated using the Popan model at 112.0 (±13.5, s.e.; 95% CI: 85.5–138.8) in 1998/99 and 95.2 (±17.6; 60.8–129.7) in 2015/16. With the inclusion of maturing subadults following the practice of earlier studies, the population was estimated at 163.6 (±25.9; 112.8–214.5) males in 2015/16. These estimates represent an index of a larger population because the largest wetland was subsampled. Our data provide no evidence of a declining population. Our study highlights the need to understand the implications of using different population models and two age-classes to estimate population parameters.
References
Berger, L., Speare, R., Daszak, P., Green, D. E., Cunningham, A. A., Goggin, C. L., Slocombe, R., Ragan, M. A., Hyatt, A. D., McDonald, K. R., Hines, H. B., Lips, K. R., Marantelli, G., and Parkes, H. (1998). Chytridiomycosis causes amphibian mortality associated with population declines in the rain forests of Australia and Central America. Proceedings of the National Academy of Sciences of the United States of America 95, 9031–9036.| Chytridiomycosis causes amphibian mortality associated with population declines in the rain forests of Australia and Central America.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK1cXkvFaltbc%3D&md5=14ce13b2554e46c7df865a156184e323CAS |
Bower, D. S., Stockwell, M. P., Pollard, C. J., Pickett, E. J., Garnham, J. I., Clulow, J., and Mahony, M. J. (2013). Life stage specific variation in the occupancy of ponds by Litoria aurea, a threatened amphibian. Austral Ecology 38, 543–547.
| Life stage specific variation in the occupancy of ponds by Litoria aurea, a threatened amphibian.Crossref | GoogleScholarGoogle Scholar |
Brown, G. P., and Shine, R. (2016). Frogs in the spotlight: a 16-year survey of native frogs and invasive toads on a floodplain in tropical Australia. Ecology and Evolution 6, 4445–4457.
| Frogs in the spotlight: a 16-year survey of native frogs and invasive toads on a floodplain in tropical Australia.Crossref | GoogleScholarGoogle Scholar |
Burnham, K. P., and Anderson, D. R. (2004). Multimodel inference: understanding AIC and BIC in model selection. Sociological Methods & Research 33, 261–304.
| Multimodel inference: understanding AIC and BIC in model selection.Crossref | GoogleScholarGoogle Scholar |
Christy, M. T. (2001). The ecology and conservation biology of the green and golden bell frog Litoria aurea (Lesson 1829) (Anura: Hylidae). Ph.D. Thesis, University of Sydney.
Darcovich, K., and O’Meara, J. (2008). An Olympic legacy: green and golden bell frog conservation at Sydney Olympic Park 1993–2006. Australian Zoologist 34, 236–248.
| An Olympic legacy: green and golden bell frog conservation at Sydney Olympic Park 1993–2006.Crossref | GoogleScholarGoogle Scholar |
Gillespie, G. R., Hunter, D., Berger, L., and Marantelli, G. (2015). Rapid decline and extinction of a montane frog population in southern Australia follows detection of the amphibian pathogen Batrachochytrium dendrobatidis. Animal Conservation 18, 295–302.
| Rapid decline and extinction of a montane frog population in southern Australia follows detection of the amphibian pathogen Batrachochytrium dendrobatidis.Crossref | GoogleScholarGoogle Scholar |
Goldingay, R. L. (2008). Conservation of the green and golden bell frog: what contribution has ecological research made since 1996? Australian Zoologist 34, 334–349.
| Conservation of the green and golden bell frog: what contribution has ecological research made since 1996?Crossref | GoogleScholarGoogle Scholar |
Goldingay, R., and Lewis, B. (1999). Development of a conservation strategy for the green and golden bell frog in the Illawarra Region of NSW. Australian Zoologist 31, 376–387.
| Development of a conservation strategy for the green and golden bell frog in the Illawarra Region of NSW.Crossref | GoogleScholarGoogle Scholar |
Goldingay, R. L., and Newell, D. A. (2005a). Aspects of the population ecology of the green and golden bell frog at the northern end of its range. Australian Zoologist 33, 49–59.
| Aspects of the population ecology of the green and golden bell frog at the northern end of its range.Crossref | GoogleScholarGoogle Scholar |
Goldingay, R. L., and Newell, D. A. (2005b). Population estimation of the green and golden bell frog at Port Kembla. Australian Zoologist 33, 210–216.
| Population estimation of the green and golden bell frog at Port Kembla.Crossref | GoogleScholarGoogle Scholar |
Hamer, A. J., and Mahony, M. J. (2007). Life history of an endangered amphibian challenges the declining species paradigm. Australian Journal of Zoology 55, 79–88.
| Life history of an endangered amphibian challenges the declining species paradigm.Crossref | GoogleScholarGoogle Scholar |
Hamer, A. J., and Mahony, M. J. (2010). Rapid turnover in site occupancy of a pond-breeding frog demonstrates the need for landscape-level management. Wetlands 30, 287–299.
| Rapid turnover in site occupancy of a pond-breeding frog demonstrates the need for landscape-level management.Crossref | GoogleScholarGoogle Scholar |
Hamer, A. J., Lane, S. J., and Mahony, M. J. (2008). Movement patterns of adult green and golden bell frogs Litoria aurea and the implications for conservation management. Journal of Herpetology 42, 397–407.
| Movement patterns of adult green and golden bell frogs Litoria aurea and the implications for conservation management.Crossref | GoogleScholarGoogle Scholar |
Hamer, A. J., Lane, S. J., and Mahony, M. J. (2010). Using probabilistic models to investigate the disappearance of a widespread frog-species complex in high-altitude regions of south-eastern Australia. Animal Conservation 13, 275–285.
| Using probabilistic models to investigate the disappearance of a widespread frog-species complex in high-altitude regions of south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Heard, G. W., Scroggie, M. P., and Malone, B. S. (2012). The life history and decline of the threatened Australian frog, Litoria raniformis. Austral Ecology 37, 276–284.
Hero, J.-M., Morrison, C., Gillespie, G., Roberts, J. D., Newell, D., Meyer, E., McDonald, K., Lemckert, F., Mahony, M., Osborne, W., Hines, H., Richards, S., Hoskin, C., Clarke, J., Doak, N., and Shoo, L. (2006). Overview of the conservation status of Australian frogs. Pacific Conservation Biology 12, 313–320.
| Overview of the conservation status of Australian frogs.Crossref | GoogleScholarGoogle Scholar |
Hunter, D. A., Speare, R., Marantelli, G., Mendez, D., Pietsch, R., and Osborne, W. (2010). Presence of the amphibian chytrid fungus Batrachochytrium dendrobatidis in threatened corroboree frog populations in the Australian Alps. Diseases of Aquatic Organisms 92, 209–216.
| Presence of the amphibian chytrid fungus Batrachochytrium dendrobatidis in threatened corroboree frog populations in the Australian Alps.Crossref | GoogleScholarGoogle Scholar |
IUCN (2016). The IUCN Red List of Threatened Species. Available at: www.iucnredlist.org [accessed 7 November 2016].
Klop-Toker, K., Valdez, J., Stockwell, M., Fardell, L., Clulow, S., Clulow, J., and Mahoney, M. (2016). We made your bed, why won’t you lie in it? Food availability and disease may affect reproductive output of reintroduced frogs. PLoS One 11, e0159143.
| We made your bed, why won’t you lie in it? Food availability and disease may affect reproductive output of reintroduced frogs.Crossref | GoogleScholarGoogle Scholar |
Kriger, K. M., and Hero, J. M. (2007). Large-scale seasonal variation in the prevalence and severity of chytridiomycosis. Journal of Zoology 271, 352–359.
Lampo, M., Celsa, S. J., Rodríguez‐Contreras, A., Rojas‐Runjaic, F., and García, C. Z. (2012). High turnover rates in remnant populations of the harlequin frog Atelopus cruciger (Bufonidae): low risk of extinction? Biotropica 44, 420–426.
| High turnover rates in remnant populations of the harlequin frog Atelopus cruciger (Bufonidae): low risk of extinction?Crossref | GoogleScholarGoogle Scholar |
Lanier, W. E., Bailey, L. L., and Muths, E. (2016). Integrating biology, field logistics, and simulations to optimize parameter estimation for imperilled species. Ecological Modelling 335, 16–23.
| Integrating biology, field logistics, and simulations to optimize parameter estimation for imperilled species.Crossref | GoogleScholarGoogle Scholar |
Lewis, B., and Goldingay, R. (1999). Preliminary assessment of the status of the green and golden bell frog in north-eastern New South Wales. In ‘Declines and Disappearances of Australian Frogs’. (Ed. A. Campbell.) pp. 94–98. (Environment Australia: Canberra.)
Lewis, B. D., and Goldingay, R. L. (2005). Population monitoring of the vulnerable wallum sedge frog (Litoria olongburensis) in north-eastern New South Wales. Australian Journal of Zoology 53, 185–194.
| Population monitoring of the vulnerable wallum sedge frog (Litoria olongburensis) in north-eastern New South Wales.Crossref | GoogleScholarGoogle Scholar |
Lindenmayer, D. B., and Likens, G. E. (2009). Adaptive monitoring: a new paradigm for long-term research and monitoring. Trends in Ecology & Evolution 24, 482–486.
| Adaptive monitoring: a new paradigm for long-term research and monitoring.Crossref | GoogleScholarGoogle Scholar |
Mahony, M. J., Hamer, A. J., Pickett, E. J., McKenzie, D. J., Stockwell, M. P., Garnham, J. I., Keely, C. C., Deboo, M. L., O’Meara, J., and Pollard, C. J. (2013). Identifying conservation and research priorities in the face of uncertainty: a review of the threatened bell frog complex in eastern Australia. Herpetological Conservation and Biology 8, 519–538.
Newell, D. A., Goldingay, R. L., and Brooks, L. O. (2013). Population recovery following decline in an endangered stream-breeding frog (Mixophyes fleayi) from subtropical Australia. PLoS One 8, e58559.
| Population recovery following decline in an endangered stream-breeding frog (Mixophyes fleayi) from subtropical Australia.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXks1Wns7c%3D&md5=d7a2ea4be88dce6dd5c39900e059da5eCAS |
O’Meara, J., and Darcovich, K. (2008). Gambusia control through the manipulation of water levels in Narawang Wetland, Sydney Olympic Park 2003–2005. Australian Zoologist 34, 285–290.
| Gambusia control through the manipulation of water levels in Narawang Wetland, Sydney Olympic Park 2003–2005.Crossref | GoogleScholarGoogle Scholar |
O’Meara, J., and Darcovich, K. (2015). Twelve years on: ecological restoration and rehabilitation at Sydney Olympic Park. Ecological Management & Restoration 16, 14–28.
| Twelve years on: ecological restoration and rehabilitation at Sydney Olympic Park.Crossref | GoogleScholarGoogle Scholar |
OEH (2013). Saving our species technical report. (Office of Environment & Heritage: Sydney.)
OEH (2014). Monitoring, evaluation and reporting framework: approach to conservation projects for site-managed species. (Office of Environment & Heritage: Sydney.)
Osborne, W., Patmore, S. R., Hunter, D., and Pietsch, R. (2008). Preliminary observations on a highly-restricted tableland population of green and golden bell frogs on the Upper Molonglo River, NSW. Australian Zoologist 34, 271–284.
| Preliminary observations on a highly-restricted tableland population of green and golden bell frogs on the Upper Molonglo River, NSW.Crossref | GoogleScholarGoogle Scholar |
Penman, T. D., Muir, G. W., Magerey, E. R., and Burns, E. L. (2008). Impact of a chytrid-related mortality event on a population of the green and golden bell frog Litoria aurea. Australian Zoologist 34, 314–318.
| Impact of a chytrid-related mortality event on a population of the green and golden bell frog Litoria aurea.Crossref | GoogleScholarGoogle Scholar |
Phillott, A. D., Grogan, L. F., Cashins, S. D., McDonald, K. R., Berger, L., and Skerratt, L. F. (2013). Chytridiomycosis and seasonal mortality of tropical stream-associated frogs 15 years after introduction of Batrachochytrium dendrobatidis. Conservation Biology 27, 1058–1068.
| Chytridiomycosis and seasonal mortality of tropical stream-associated frogs 15 years after introduction of Batrachochytrium dendrobatidis.Crossref | GoogleScholarGoogle Scholar |
Pickett, E. J., Stockwell, M. P., Bower, D. S., Pollard, C. J., Garnham, J. I., Clulow, J., and Mahony, M. J. (2014). Six-year demographic study reveals threat of stochastic extinction for remnant populations of a threatened amphibian. Austral Ecology 39, 244–253.
| Six-year demographic study reveals threat of stochastic extinction for remnant populations of a threatened amphibian.Crossref | GoogleScholarGoogle Scholar |
Pike, D. A., Pizzatto, L., Pike, B. A., and Shine, R. (2008). Estimating survival rates of uncatchable animals: the myth of high juvenile mortality in reptiles. Ecology 89, 607–611.
| Estimating survival rates of uncatchable animals: the myth of high juvenile mortality in reptiles.Crossref | GoogleScholarGoogle Scholar |
Pollock, K. H. (1982). A capture–recapture design robust to unequal probability of capture. Journal of Wildlife Management 46, 752–757.
| A capture–recapture design robust to unequal probability of capture.Crossref | GoogleScholarGoogle Scholar |
Pyke, G. H., and White, A. W. (2001). A review of the biology of the green and golden bell frog Litoria aurea. Australian Zoologist 31, 563–598.
| A review of the biology of the green and golden bell frog Litoria aurea.Crossref | GoogleScholarGoogle Scholar |
Quick, G., Goldingay, R. L., Parkyn, J., and Newell, D. A. (2015). Population stability in the endangered Fleay’s barred frog (Mixophyes fleayi) and a program for long-term monitoring. Australian Journal of Zoology 63, 214–219.
| Population stability in the endangered Fleay’s barred frog (Mixophyes fleayi) and a program for long-term monitoring.Crossref | GoogleScholarGoogle Scholar |
Richards, S. J., and Alford, R. A. (2005). Structure and dynamics of a rainforest frog (Litoria genimaculata) population in northern Queensland. Australian Journal of Zoology 53, 229–236.
| Structure and dynamics of a rainforest frog (Litoria genimaculata) population in northern Queensland.Crossref | GoogleScholarGoogle Scholar |
Richards, S. J., McDonald, K. R., and Alford, R. A. (1994). Declines in populations of Australia’s endemic tropical rainforest frogs. Pacific Conservation Biology 1, 66–77.
| Declines in populations of Australia’s endemic tropical rainforest frogs.Crossref | GoogleScholarGoogle Scholar |
Scheele, B. C., Guarino, F., Osborne, W., Hunter, D. A., Skerratt, L. F., and Driscoll, D. A. (2014). Decline and re-expansion of an amphibian with high prevalence of chytrid fungus. Biological Conservation 170, 86–91.
| Decline and re-expansion of an amphibian with high prevalence of chytrid fungus.Crossref | GoogleScholarGoogle Scholar |
Scheele, B. C., Skerratt, L. F., Grogan, L. F., Hunter, D. A., Clemann, N., McFadden, M., Newell, D., Hoskin, C. J., Gillespie, G. R., Heard, G. W., Brannelly, L., Roberts, A. A., and Berger, L. (2017). After the epidemic: ongoing declines, stabilizations and recoveries in amphibians afflicted by chytridiomycosis. Biological Conservation 206, 37–46.
| After the epidemic: ongoing declines, stabilizations and recoveries in amphibians afflicted by chytridiomycosis.Crossref | GoogleScholarGoogle Scholar |
Schloegel, L. M., Hero, J. M., Berger, L., Speare, R., McDonald, K., and Daszak, P. (2006). The decline of the sharp-snouted day frog (Taudactylus acutirostris): the first documented case of extinction by infection in a free-ranging wildlife species? EcoHealth 3, 35–40.
| The decline of the sharp-snouted day frog (Taudactylus acutirostris): the first documented case of extinction by infection in a free-ranging wildlife species?Crossref | GoogleScholarGoogle Scholar |
Schwarz, C. J., and Arnason, A. N. (1996). A general methodology for the analysis of capture–recapture experiments in open populations. Biometrics 52, 860–873.
| A general methodology for the analysis of capture–recapture experiments in open populations.Crossref | GoogleScholarGoogle Scholar |
Skerratt, L. F., Berger, L., Clemann, N., Hunter, D. A., Marantelli, G., Newell, D. A., Philips, A., McFadden, M., Hines, H. B., Scheele, B. C., Brannelly, L. A., Speare, R., Versteegen, S., Cashins, S. D., and West, M. (2016). Priorities for management of chytridiomycosis in Australia: saving frogs from extinction. Wildlife Research 43, 105–120.
| Priorities for management of chytridiomycosis in Australia: saving frogs from extinction.Crossref | GoogleScholarGoogle Scholar |
Stockwell, M. P., Clulow, S., Clulow, J., and Mahony, M. (2008). The impact of the amphibian chytrid fungus Batrachochytrium dendrobatidis on a green and golden bell frog Litoria aurea reintroduction program at the Hunter Wetlands Centre Australia in the Hunter Region of New South Wales. Australian Zoologist 34, 379–386.
| The impact of the amphibian chytrid fungus Batrachochytrium dendrobatidis on a green and golden bell frog Litoria aurea reintroduction program at the Hunter Wetlands Centre Australia in the Hunter Region of New South Wales.Crossref | GoogleScholarGoogle Scholar |
Stockwell, M. P., Clulow, J., and Mahony, M. J. (2010). Host species determines whether infection load increases beyond disease-causing thresholds following exposure to the amphibian chytrid fungus. Animal Conservation 13, 62–71.
| Host species determines whether infection load increases beyond disease-causing thresholds following exposure to the amphibian chytrid fungus.Crossref | GoogleScholarGoogle Scholar |
Stockwell, M. P., Bower, D. S., Bainbridge, L., Clulow, J., and Mahony, M. J. (2015). Island provides a pathogen refuge within climatically suitable area. Biodiversity and Conservation 24, 2583–2592.
| Island provides a pathogen refuge within climatically suitable area.Crossref | GoogleScholarGoogle Scholar |
White, A. W., and Pyke, G. H. (1996). Distribution and conservation status of the green and golden bell frog Litoria aurea in New South Wales. Australian Zoologist 30, 177–189.
| Distribution and conservation status of the green and golden bell frog Litoria aurea in New South Wales.Crossref | GoogleScholarGoogle Scholar |
White, A. W., and Pyke, G. H. (1999). Past distribution of the bell frogs Litoria aurea and Litoria castanea in the Bathurst–Orange district of New South Wales. Herpetofauna 29, 1–9.
White, A. W., and Pyke, G. H. (2008). Green and golden bell frogs in New South Wales: current status and future prospects. Australian Zoologist 34, 319–333.
| Green and golden bell frogs in New South Wales: current status and future prospects.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 |