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RESEARCH ARTICLE (Open Access)
Contents Vol 69(4)

Use of artificial bark covers to investigate the distribution and abundance of arboreal lizards in a floodplain environment

Eva Moore https://orcid.org/0000-0003-2915-6378 A * , Dale G. Nimmo A B , Skye Wassens A B and Damian R. Michael A B
+ Author Affiliations
- Author Affiliations

A School of Agricultural, Environmental and Veterinary Sciences, Charles Sturt University, Albury, NSW 2640, Australia.

B Institute for Land, Water and Society, Charles Sturt University, Albury, NSW 2640, Australia.

* Correspondence to: emoore@csu.edu.au

Handling Editor: Paul Cooper

Australian Journal of Zoology 69(4) 125-135 https://doi.org/10.1071/ZO21036
Submitted: 27 August 2021  Accepted: 18 March 2022   Published: 12 May 2022

© 2021 The Author(s) (or their employer(s)). Published by CSIRO Publishing. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

Arboreal lizards, especially species that inhabit flood-prone environments, have been poorly surveyed worldwide. We examined spatiotemporal patterns in arboreal lizard abundance and factors driving detection rates in floodplain environments using artificial bark covers, a non-destructive and cost-effective survey method. In total, 112 flexible, closed-cell foam bark covers were installed on eucalypt trees in 13 wetlands in the Murrumbidgee River floodplain of southern New South Wales, Australia, stratified by two inundation frequency treatments. Of four arboreal lizard species detected, the southern marbled gecko (Christinus marmoratus) (n = 41) and the tree dtella (Gehyra versicolor) (n = 8) were restricted to the mid-Murrumbidgee region, whereas the crevice skink (Egernia striolata) (n = 19) was restricted to the lower-Murrumbidgee region and did not co-occur with either gecko species. Mean detection rates of lizard species did not differ between frequently and infrequently inundated treatments but their abundance beneath covers varied significantly by month. For all detected lizard species, the presence/absence of the arachnid Holconia murrayensis represented a significant variable in explaining lizard occurrence patterns, particularly that of C. marmoratus. Artificial bark covers are a useful survey method for collecting distribution, abundance, and occupancy data on floodplain reptiles, although detection rates can be affected by the month, predator–prey interactions, and survey effort. Adopting passive, non-destructive reptile survey methods would greatly improve our knowledge of species’ distributions and abundance patterns in vegetation communities subject to disturbance events.

Keywords: arboreal lizards, artificial refuges, environmental water, floodplain environment, Murray–Darling Basin, occupancy patterns, species distribution, survey methods.


References

Adams, J, Roby, PL, Sewell, P, Schwierjohann, JH, Gumbert, MW, and Brandenburg, M (2015). Success of Brandenbark™, an artificial roost structure designed for use by Indiana bats (Myotis sodalis). Journal of the American Society of Mining and Reclamation 4, 1–15.

Ali, W, Javid, A, Bhukhari, SM, Hussain, A, Hussain, SM, and Rafique, H (2018). Comparison of different trapping techniques used in herpetofaunal monitoring: a review. Punjab University Journal of Zoology 33, 57–68.

Angilletta, MJ, and Werner, YL (1998). Australian geckos do not display diel variation in thermoregulatory behavior. Copeia 1998, 736–742.

Atlas of Living Australia (2020) Open access to Australia’s biodiversity data. Available at http://www.ala.org.au. [Accessed 14 August 2020]

Bates, D (2005). Fitting linear mixed models in R. R News 5, 27–30.

Bell, TP (2009). A novel technique for monitoring highly cryptic lizard species in forests. Herpetological Conservation and Biology 4, 415–425.

Bennett, AF, and John-Alder, H (1986). Thermal relations of some Australian skinks (Sauria: Scincidae). Copeia 1986, 57–64.

Böhm, M, Collen, B, and Baillie, JEM (2013). The conservation status of the world’s reptiles. Biological Conservation 157, 372–385.

Button, ST, Bodinof Jachowski, CM, Case, BF, Groffen, J, and Hopkins, WA (2020). The influence of multiscale habitat variables and population density on artificial shelter use by hellbenders (Cryptobranchus alleganiensis). Herpetologica 76, 355–365.

Dodd CK (Ed) (2016) ‘Reptile Ecology and Conservation: A Handbook of Techniques.’ (Oxford University Press: Oxford, UK)

Duckett, PE, Morgan, MH, and Stow, AJ (2012). Tree-dwelling populations of the skink Egernia striolata aggregate in groups of close kin. Copeia 2012, 130–134.

Fiske, I, and Chandler, R (2011). unmarked: an R package for fitting hierarchical models of wildlife occurrence and abundance. Journal of Statistical Software 43, 1–23.

Garden, JG, McAlpine, CA, Possingham, HP, and Jones, DN (2007). Using multiple survey methods to detect terrestrial reptiles and mammals: what are the most successful and cost-efficient combinations? Wildlife Research 34, 218–227.

Gibbons, JW, Scott, DE, Ryan, TJ, Buhlmann, KA, Tuberville, TD, Metts, BS, Greene, JL, Mills, T, Leiden, Y, Poppy, S, and Winne, CT (2000). The global decline of reptiles, Déjà vu amphibians: reptile species are declining on a global scale. Six significant threats to reptile populations are habitat loss and degradation, introduced invasive species, environmental pollution, disease, unsustainable use, and global climate change. BioScience 50, 653–666.

Greer AE (2021) ‘Encyclopedia of Australian Reptiles.’ Version 1 June 2021. (Australian Museum: Sydney, NSW, Australia)

Hall, A, Thomas, RF, and Wassens, S (2019). Mapping the maximum inundation extent of lowland intermittent riverine wetland depressions using LiDAR. Remote Sensing of Environment 233, 111376.

Hoare, JM, O’Donnell, CF, Westbrooke, I, Hodapp, D, and Lettink, M (2009). Optimising the sampling of skinks using artificial retreats based on weather conditions and time of day. Applied Herpetology 6, 379.

Hodge, S, Vink, CJ, Banks, JC, and Bowie, MH (2007). The use of tree-mounted artificial shelters to investigate arboreal spider communities in New Zealand nature reserves. Journal of Arachnology 35, 129–136.

Howard, K, Beesley, L, Ward, K, and Stokeld, D (2017). Preliminary evidence suggests freshwater turtles respond positively to an environmental water delivery during drought. Australian Journal of Zoology 64, 370–373.

Kearney, M (2001). Postural thermoregulatory behavior in the nocturnal lizards Christinus marmoratus and Nephrurus milii (Gekkonidae). Herpetological Review 32, 11.

Kearney, M, and Predavec, M (2000). Do nocturnal ectotherms thermoregulate? A study of the temperate gecko Christinus marmoratus. Ecology 81, 2984–2996.

Kearney, M, Shine, R, Comber, S, and Pearson, D (2001). Why do geckos group? An analysis of “social” aggregations in two species of Australian lizards. Herpetologica 57, 411–422.

Kery, M (2002). Inferring the absence of a species: a case study of snakes. The Journal of Wildlife Management 66, 330–338.

Kéry, M, and Schmidt, B (2008). Imperfect detection and its consequences for monitoring for conservation. Community Ecology 9, 207–216.

Kingsford, RT (2000). Ecological impacts of dams, water diversions and river management on floodplain wetlands in Australia. Austral Ecology 25, 109–127.

Letten, AD, Ke, P-J, and Fukami, T (2017). Linking modern coexistence theory and contemporary niche theory. Ecological Monographs 87, 161–177.

MacKenzie, DI, Nichols, JD, Lachman, GB, Droege, S, Andrew Royle, J, and Langtimm, CA (2002). Estimating site occupancy rates when detection probabilities are less than one. Ecology 83, 2248–2255.

Michael, DR, Lunt, ID, and Robinson, WA (2004). Enhancing fauna habitat in grazed native grasslands and woodlands: use of artificially placed log refuges by fauna. Wildlife Research 31, 65–71.

Michael, DR, Lindenmayer, DB, Crane, M, MacGregor, C, Montague-Drake, R, and McBurney, L (2011). Reptilia, Murray catchment, New South Wales, south-eastern Australia. Check List 7, 25–29.

Michael, DR, Cunningham, RB, Donnelly, CF, and Lindenmayer, DB (2012). Comparative use of active searches and artificial refuges to survey reptiles in temperate eucalypt woodlands. Wildlife Research 39, 149–162.

Michael, DR, Kay, GM, Crane, M, Florance, D, MacGregor, C, Okada, S, McBurney, L, Blair, D, and Lindenmayer, DB (2015). Ecological niche breadth and microhabitat guild structure in temperate Australian reptiles: implications for natural resource management in endangered grassy woodland ecosystems. Austral Ecology 40, 651–660.

Michael, DR, Florance, D, Crane, M, Blanchard, W, and Lindenmayer, DB (2018). Barking up the right tree: comparative use of arboreal and terrestrial artificial refuges to survey reptiles in temperate eucalypt woodlands. Wildlife Research 45, 185–192.

Michel, AK, and Winter, S (2009). Tree microhabitat structures as indicators of biodiversity in Douglas-fir forests of different stand ages and management histories in the Pacific Northwest, U.S.A. Forest Ecology and Management 257, 1453–1464.

Nichols, JD, and Williams, BK (2006). Monitoring for conservation. Trends in Ecology & Evolution 21, 668–673.

Nordberg, EJ, and Schwarzkopf, L (2015). Arboreal cover boards: using artificial bark to sample cryptic arboreal lizards. Herpetologica 71, 268–273.

Nordberg, EJ, and Schwarzkopf, L (2019a). Heat seekers: a tropical nocturnal lizard uses behavioral thermoregulation to exploit rare microclimates at night. Journal of Thermal Biology 82, 107–114.
| 31128638PubMed |

Nordberg, EJ, and Schwarzkopf, L (2019b). Reduced competition may allow generalist species to benefit from habitat homogenization. Journal of Applied Ecology 56, 305–318.

Nordberg, EJ, Edwards, L, and Schwarzkopf, L (2018). Terrestrial invertebrates: an underestimated predator guild for small vertebrate groups. Food Webs 15, e00080.

O’Shea, M, and Kelly, K (2017). Predation on a weasel skink (Saproscincus mustelinus) (Squamata: Scincidae: Lygosominae) by a redback spider (Latrodectus hasselti) (Araneae: Araneomorpha: Theridiidae), with a review of other Latrodectus predation events involving squamates. Herpetofauna 44, 49–55.

Ocock, JF, Bino, G, Wassens, S, Spencer, J, Thomas, RF, and Kingsford, RT (2018). Identifying critical habitat for Australian freshwater turtles in a large regulated floodplain: implications for environmental water management. Environmental Management 61, 375–389.
| 28280912PubMed |

Parmar, DS (2020). Notes on eggs and hatchlings of the oriental garden lizard, Calotes versicolor (Daudin 1802), and the common house gecko, Hemidactylus frenatus (Schlegel 1836) in Gujarat, India. Reptiles & Amphibians 26, 245–247.

Pereira, JJ, Lopes, EP, Carretero, MÁ, and Vasconcelos, R (2019). Insular geckos provide experimental evidence on refuge selection priorities by ectotherms. Behavioural Processes 164, 260–267.
| 30910664PubMed |

Petford, MA, and Alexander, GJ (2020). Microhabitat selection and niche partitioning in two syntopic geckos. Austral Ecology 45, 319–328.

Pittock, J, and Finlayson, CM (2011). Australia’s Murray–Darling Basin: freshwater ecosystem conservation options in an era of climate change. Marine and Freshwater Research 62, 232–243.

Putra, DP, Herwina, H, and Janra, MN (2021). Breeding efforts on wild honey bee Apis cerana Fabr. within coconut plantations in Padang Pariaman, west Sumatra. IOP Conference Series: Earth and Environmental Science 757, 012024.

Price A, Balcombe S, Humphries P, King A, Zampatti B (2020) Murray–Darling Basin environmental water knowledge and research project: fish theme research report. Report prepared for the Department of the Environment and Energy, Commonwealth Environmental Water Office, La Trobe University, Centre for Fresh Water, Victoria. Available at https://ltu-figshare-repo.s3.aarnet.edu.au/ [Accessed July 2020].

Ribeiro-Júnior, MA, Gardner, TA, and Ávila-Pires, TCS (2008). Evaluating the effectiveness of herpetofaunal sampling techniques across a gradient of habitat change in a tropical forest landscape. Journal of Herpetology 42, 733–749.

Riedel, J, Nordberg, E, and Schwarzkopf, L (2020). Ecological niche and microhabitat use of Australian geckos. Israel Journal of Ecology and Evolution 66, 209–222.

Roll, U, Feldman, A, and Novosolov, M (2017). The global distribution of tetrapods reveals a need for targeted reptile conservation. Nature Ecology & Evolution 1, 1677–1682.

Schwarz, R, Stark, G, Antonopolous, A, Itescu, Y, Pafilis, P, Chapple, DG, and Meiri, S (2021). Specialist versus generalist at the intraspecific level: functional morphology and substrate preference of Mediodactylus kotschyi geckos. Integrative and Comparative Biology 61, 62–75.
| 34010416PubMed |

Sewell, D, Guillera-Arroita, G, Griffiths, RA, and Beebee, TJC (2012). When is a species declining? Optimizing survey effort to detect population changes in reptiles. PLoS ONE 7, e43387.
| 22937044PubMed |

Shelton, MB, and Goldingay, RL (2021). Comparative survey techniques for a cryptic Australian snake (Hoplocephalus bitorquatus). Australian Journal of Zoology 68, 68–75.

Swan M (2020) ‘Frogs and Reptiles of the Murray–Darling Basin: a Guide to their Identification, Ecology and Conservation.’ (CSIRO Publishing: Melbourne, Vic., Australia)

Taylor, D, Daniels, CB, and Johnston, G (2016). Habitat selection by an arboreal lizard in an urban parkland: not just any tree will do. Urban Ecosystems 19, 243–255.

Taylor DA, Perry RW, Miller DA, Ford WM (2020) Forest management and bats. White-Nose Syndrome Response Team, Hadley, MA, USA.

Tingley, R, Macdonald, SL, Mitchell, NJ, Woinarski, JCZ, Meiri, S, Bowles, P, Cox, NA, Shea, GM, Böhm, M, Chanson, J, Tognelli, MF, Harris, J, Walke, C, Harrison, N, Victor, S, Woods, C, Amey, AP, Bamford, M, Catt, G, Clemann, N, Couper, PJ, Cogger, H, Cowan, M, Craig, MD, Dickman, CR, Doughty, P, Ellis, R, Fenner, A, Ford, S, Gaikhorst, G, Gillespie, GR, Greenlees, MJ, Hobson, R, Hoskin, CJ, How, R, Hutchinson, MN, Lloyd, R, McDonald, P, Melville, J, Michael, DR, Moritz, C, Oliver, PM, Peterson, G, Robertson, P, Sanderson, C, Somaweera, R, Teale, R, Valentine, L, Vanderduys, E, Venz, M, Wapstra, E, Wilson, S, and Chapple, DG (2019). Geographic and taxonomic patterns of extinction risk in Australian squamates. Biological Conservation 238, 108203.

Valdez, JW (2020). Arthropods as vertebrate predators: a review of global patterns. Global Ecology and Biogeography 29, 1691–1703.

Van Dyke, JU, Spencer, R-J, Thompson, MB, Chessman, B, Howard, K, and Georges, A (2019). Conservation implications of turtle declines in Australia’s Murray River system. Scientific Reports 9, 1998.
| 30760813PubMed |

Wassens, S, Hall, A, and Spencer, J (2017). The effect of survey method on the detection probabilities of frogs and tadpoles in large wetland complexes. Marine and Freshwater Research 68, 686–696.

Webster, C, Massaro, M, Michael, DR, Bambrick, D, Riley, JL, and Nimmo, DG (2018). Native reptiles alter their foraging in the presence of the olfactory cues of invasive mammalian predators. Royal Society Open Science 5, 180136.
| 30473801PubMed |

West, PW, Cawsey, EM, Stol, J, and Freudenberger, D (2008). Firewood harvest from forests of the Murray–Darling Basin, Australia. Part 1: long-term, sustainable supply available from native forests. Biomass and Bioenergy 32, 1206–1219.

Zuur AF, Ieno EN, Walker N, Saveliev AA, Smith GM (2009) ‘Mixed Effects Models and Extensions in Ecology with R.’ (Springer: New York, NY, USA)