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Australian Mammalogy Australian Mammalogy Society
Journal of the Australian Mammal Society
RESEARCH ARTICLE

Diurnal and nocturnal tree species selection by koalas demonstrates individual preferences in a peri-urban landscape

Patrick L. Taggart https://orcid.org/0000-0001-9523-0463 A B C * , Brie K. Sloggett D , George Madani E , David Phalen D , Dympna Cullen C , Kylie Madden F and Lachlan Wilmott F
+ Author Affiliations
- Author Affiliations

A Vertebrate Pest Research Unit, Department of Primary Industries NSW, Queanbeyan, NSW, Australia.

B School of Animal and Veterinary Sciences, The University of Adelaide, Roseworthy, SA, Australia.

C School of Biological, Earth and Environmental Sciences, University of New South Wales, Sydney, NSW, Australia.

D School of Veterinary Sciences, Faculty of Science, University of Sydney, Camden, NSW, Australia.

E School of Environmental and Life Sciences, The University of Newcastle,Callaghan, NSW, Australia.

F Department of Planning, Industry and Environment, NSW Government, Wollongong, NSW, Australia.


Handling Editor: Ross Goldingay

Australian Mammalogy 46, AM23022 https://doi.org/10.1071/AM23022
Submitted: 15 May 2023  Accepted: 17 August 2023  Published: 11 September 2023

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of the Australian Mammal Society.

Abstract

In New South Wales, legislation governing land clearing and development as it relates to koala conservation acts to prevent the destruction of habitat containing key tree species used by koalas. The identification of these key tree species is therefore critical to koala conservation. We aimed to compile a list of tree species used by koalas within the Wollondilly Shire region and investigate tree-use preferences. We radio-collared one female and four male koalas and tracked their movements over a period of 107–195 days. We conducted surveys within each koala’s home range to quantify the relative availability of each tree species, which we compared with their relative frequency of use. Koalas used 19 different tree species (17 during day, 12 during night), despite over 32 species being available. Eight species were preferentially used by one or more koalas; these were Eucalyptuts bosistoana, E. longifolia, E. puncata, E. crebra, E. globoidea, E. pilularis, E. tereticornis and Angophora floribunda. Two species were avoided: Corymbia gummifera and Acacia decurrens. Koalas consistently used larger trees relative to their availability, and we found a general but non-significant trend towards the use of larger trees at night compared with during the day. To achieve koala conservation, it will be necessary to preserve habitat patches comprising a diverse mixture of tree species and sizes, particularly trees >35 cm diameter at breast height (DBH), and to appropriately revegetate land with these criteria in mind.

Keywords: folivore, GPS, habitat, habitat fragmentation, koala, peri-urban landscape, resource selection, tree, Wollondilly Shire.

References

ACT Nature Conservation Act (2014). ACT Government. Available at https://www.legislation.act.gov.au/a/2014-59/ [accessed 4 March 2023].

Adams-Hosking, C., McBride, M. F., Baxter, G., Burgman, M., De Villiers, D., Kavanagh, R., Lawler, I., Lunney, D., Melzer, A., Menkhorst, P., Molsher, R., Moore, B. D., Phalen, D., Rhodes, J. R., Todd, C., Whisson, D., and McAlpine, C. A. (2016). Use of expert knowledge to elicit population trends for the koala (Phascolarctos cinereus). Diversity and Distributions 22, 249-262.
| Crossref | Google Scholar |

Ashman, K. R., Watchorn, D. J., Lindenmayer, D. B., and Taylor, M. F. (2021). Is Australia’s environmental legislation protecting threatened species? A case study of the national listing of the greater glider. Pacific Conservation Biology 28(3), 277-289.
| Crossref | Google Scholar |

Benson, D. H., and Howell, J. (1994). The natural vegetation of the Sydney 1: 100 000 map sheet. Cunninghamia 3(4), 677-787.
| Google Scholar |

Briscoe, N. J., Handasyde, K. A., Griffiths, S. R., Porter, W. P., Krockenberger, A., and Kearney, M. R. (2014). Tree-hugging koalas demonstrate a novel thermoregulatory mechanism for arboreal mammals. Biology Letters 10, 20140235.
| Crossref | Google Scholar | PubMed |

Briscoe, N. J., Kearney, M. R., Taylor, C. A., and Wintle, B. A. (2016). Unpacking the mechanisms captured by a correlative species distribution model to improve predictions of climate refugia. Global Change Biology 22, 2425-2439.
| Crossref | Google Scholar | PubMed |

Calenge, C. (2006). The package adehabitat for the R software: a tool for the analysis of space and habitat use by animals. Ecological Modelling 197, 516-519.
| Crossref | Google Scholar |

Callaghan, J., McAlpine, C., Mitchell, D., Thompson, J., Bowen, M., Rhodes, J., de Jong, C., Domalewski, R., and Scott, A. (2011). Ranking and mapping koala habitat quality for conservation planning on the basis of indirect evidence of tree-species use: a case study of Noosa Shire, south-eastern Queensland. Wildlife Research 38, 89-102.
| Crossref | Google Scholar |

Council of Heads of Australasian Herbaria (2006). Australian Plant Census. Available at https://biodiversity.org.au/nsl/services/rest/author/apni/14333 [accessed 19 January 2023].

Craig, A. P., Hanger, J., Loader, J., Ellis, W. A., Callaghan, J., Dexter, C., Jones, D., Beagley, K. W., Timms, P., and Wilson, D. P. (2014). A 5-year Chlamydia vaccination programme could reverse disease-related koala population decline: Predictions from a mathematical model using field data. Vaccine 32, 4163-4170.
| Crossref | Google Scholar | PubMed |

Crowther, M. S., Lunney, D., Lemon, J., Stalenberg, E., Wheeler, R., Madani, G., Ross, K. A., and Ellis, M. (2014). Climate‐mediated habitat selection in an arboreal folivore. Ecography 37, 336-343.
| Crossref | Google Scholar |

Crowther, M. S., Rus, A. I., Mella, V. S. A., Krockenberger, M. B., Lindsay, J., Moore, B. D., and McArthur, C. (2022). Patch quality and habitat fragmentation shape the foraging patterns of a specialist folivore. Behavioral Ecology 33, 1007-1017.
| Crossref | Google Scholar | PubMed |

Cumming, G. (2009). Inference by eye: Reading the overlap of independent confidence intervals. Statistics in Medicine 28, 205-220.
| Crossref | Google Scholar | PubMed |

Cumming, G., and Finch, S. (2005). Inference by eye: confidence intervals and how to read pictures of data. American Psychologist 60, 170-80.
| Crossref | Google Scholar | PubMed |

Degabriele, R., and Dawson, T. J. (1979). Metabolism and heat balance in an arboreal marsupial, the koala (Phascolarctos cinereus). Journal of Comparative Physiology 134, 293-301.
| Crossref | Google Scholar |

Department of Environment (2023). ‘Phascolarctos cinereus (combined populations of Qld, NSW and the ACT) — Koala (combined populations of Queensland, New South Wales and the Australian Capital Territory) in Species Profile and Threats Database.’ (Department of Environment: Canberra.)

Department of Environment and Climate Change NSW (2008). ‘Recovery plan for the koala (Phascolarctos cinereus).’ (Department of Environment and Climate Change: NSW, Sydney.) Available at https://www.environment.nsw.gov.au/research-and-publications/publications-search/recovery-plan-for-the-koala-phascolarctos-cinereus [accessed 18 January 2023].

Dique, D. S., Thompson, J., Preece, H. J., Penfold, G. C., de Villiers, D. L., and Leslie, R. S. (2003). Koala mortality on roads in south-east Queensland: the koala speed-zone trial. Wildlife Research 30, 419-426.
| Crossref | Google Scholar |

England, J. R., and Attiwill, P. M. (2006). Changes in leaf morphology and anatomy with tree age and height in the broadleaved evergreen species, Eucalyptus regnans F. Muell. Trees 20, 79-90.
| Crossref | Google Scholar |

Gallahar, N., Leigh, K., and Phalen, D. (2021). Koala tree selection in a mixed-tenure landscape and post-fire implications. Wildlife Research 48, 737-755.
| Crossref | Google Scholar |

Gordon, G. (1991). Estimation of the age of the Koala, Phascolarctos cinereus (Marsupialia: Phascolarctidae), from tooth wear and growth. Australian Mammalogy 14, 5-12.
| Crossref | Google Scholar |

Gordon, G., Brown, A. S., and Pulsford, T. (1988). A koala (Phascolarctos cinereus Goldfuss) population crash during drought and heatwave conditions in south‐western Queensland. Australian Journal of Ecology 13, 451-461.
| Crossref | Google Scholar |

Graciano, C., Goya, J. F., Frangi, J. L., and Guiamet, J. J. (2006). Fertilization with phosphorus increases soil nitrogen absorption in young plants of Eucalyptus grandis. Forest Ecology and Management 236, 202-210.
| Crossref | Google Scholar |

Hindell, M. A., and Lee, A. K. (1988). Tree use by individual koalas in a natural forest. Wildlife Research 15, 1-7.
| Crossref | Google Scholar |

Hindell, M. A., Handasyde, K. A., and Lee, A. K. (1985). Tree species selection by free-ranging koala populations in Victoria. Wildlife Research 12, 137-144.
| Crossref | Google Scholar |

Klaphake, V. (2012). ‘Eucalypts of the Sydney Region.’ (Van Klaphake: Byabarra, NSW.)

Law, B., Slade, C., Gonsalves, L., Brassil, T., Flanagan, C., and Kerr, I. (2022a). Tree use by koalas after timber harvesting in a mosaic landscape. Wildlife Research 50, 581-592.
| Crossref | Google Scholar |

Law, B. S., Gonsalves, L., Burgar, J., Brassil, T., Kerr, I., and O’Loughlin, C. (2022b). Fire severity and its local extent are key to assessing impacts of Australian mega-fires on koala (Phascolarctos cinereus) density. Global Ecology and Biogeography 31, 714-726.
| Crossref | Google Scholar |

Lawler, I. R., Foley, W. J., and Eschler, B. M. (2000). Foliar concentration of a single toxin creates habitat patchiness for a marsupial folivore. Ecology 81, 1327-1338.
| Crossref | Google Scholar |

Lumley, T. (2004). Analysis of complex survey samples. R package version 2.2. Journal of Statistical Software 9, 1-19.
| Crossref | Google Scholar |

Lunney, D., Crowther, M. S., Wallis, I., Foley, W. J., Lemon, J., Wheeler, R., Madani, G., Orscheg, C., Griffith, J. E., and Krockenberger, M. (2012). Koalas and climate change: a case study on the Liverpool Plains, north-west New South Wales. In ‘Wildlife and Climate Change: towards robust conservation strategies for Australian Fauna’. (Eds D. Lunney, P. Hutchings.). Royal Zoological Society of New South Wales. pp. 150–168.

Madani, G. F., Ashman, K. R., Mella, V. S. A., and Whisson, D. A. (2020). A review of the ‘noose and flag’method to capture free-ranging koalas. Australian Mammalogy 42, 341-348.
| Crossref | Google Scholar |

Marsh, K. J., Moore, B. D., Wallis, I. R., and Foley, W. J. (2014). Continuous monitoring of feeding by koalas highlights diurnal differences in tree preferences. Wildlife Research 40, 639-646.
| Crossref | Google Scholar |

Marsh, K. J., Blyton, M. D. J., Foley, W. J., and Moore, B. D. (2021). Fundamental dietary specialisation explains differential use of resources within a koala population. Oecologia 196, 795-803.
| Crossref | Google Scholar | PubMed |

Matthews, A., Lunney, D., Gresser, S., and Maitz, W. (2007). Tree use by koalas (Phascolarctos cinereus) after fire in remnant coastal forest. Wildlife Research 34, 84-93.
| Crossref | Google Scholar |

McAlpine, C. A., Callaghan, J., Lunney, D., Rhodes, J. R., Goldingay, R., Goulding, W., Adams‐Hosking, C., Fielding, K., Hetherington, S. B., Brace, A., Hopkins, M., Caddick, L., Taylor, E., Vass, L., and Swankie, L. (2023). Influences on koala habitat selection across four local government areas on the far north coast of NSW. Austral Ecology 48, 928-951.
| Crossref | Google Scholar |

Mella, V. S. A., Orr, C., Hall, L., Velasco, S., and Madani, G. (2020). An insight into natural koala drinking behaviour. Ethology 126, 858-863.
| Crossref | Google Scholar |

Melzer, A., Carrick, F., Menkhorst, P., Lunney, D., and John, B. S. (2000). Overview, critical assessment, and conservation implications of koala distribution and abundance. Conservation Biology 14(3), 619-628.
| Crossref | Google Scholar |

Mitchell, D. L., Soto-Berelov, M., and Jones, S. D. (2021). Regional variation in forest canopy height and implications for koala (Phascolarctos cinereus) habitat mapping and forest management. Forests 12, 1494.
| Crossref | Google Scholar |

Moore, B. D., and Foley, W. J. (2000). A review of feeding and diet selection in koalas (Phascolarctos cinereus). Australian Journal of Zoology 48, 317-333.
| Crossref | Google Scholar |

Moore, B. D., and Foley, W. J. (2005). Tree use by koalas in a chemically complex landscape. Nature 435, 488-490.
| Crossref | Google Scholar | PubMed |

Moore, B. D., Wallis, I. R., Wood, J. T., and Foley, W. J. (2004). Foliar nutrition, site quality, and temperature influence foliar chemistry of tallowwood (Eucalyptus microcorys). Ecological Monographs 74, 553-568.
| Crossref | Google Scholar |

Moore, B. D., Foley, W. J., Wallis, I. R., Cowling, A., and Handasyde, K. A. (2005). Eucalyptus foliar chemistry explains selective feeding by koalas. Biology Letters 1, 64-67.
| Crossref | Google Scholar | PubMed |

National Parks and Wildlife Service NSW (2002). ‘Interpretation Guidelines for the Native Vegetation Maps of the Cumberland Plain Western Sydney: Final Edition.’ (National Parks and Wildlife Service NSW: Hurstville, Sydney, NSW.) Available at https://www.environment.nsw.gov.au/resources/nature/cumbPlainMappingInterpguidelines.pdf [accessed 18 January 2023].

National Parks and Wildlife Service NSW (2003). ‘Native vegetation of the Woronora, O’Hares and Metropolitan Catchments’. Unpublished report to the Sydney Catchment Authority. (National Parks and Wildlife Service NSW: Hurstville, Sydney, NSW.) Available at https://www.environment.nsw.gov.au/resources/nature/surveys/030143VegWoronoraOHaresCatchmts.pdf [accessed 18 January 2023].

NSW Department of Planning and Environment (2018). Greater Macarthur 2040. An interim plan for the Greater Macarthur Growth Area. NSW Department of Planning and Environment NSW, Sydney. Available at https://www.planningportal.nsw.gov.au/draftplans/under‐consideration/greater‐macarthur‐2040‐interim‐plan‐greater‐macarthur‐growth‐area [Accessed 02 September 2023]

NSW Department of Planning, Industry and Environment (2021). Greater Macarthur 2040 Update. NSW Department of Planning, Industry and Environment NSW, Parramatta. Available at https://www.planning.nsw.gov.au/sites/default/files/2023‐03/greater‐macarthur‐2040‐update.pdf [Accessed 02 September 2023]

NSW Department of Planning and Environment (2022). Guide to Greater Macarthur Growth Area. NSW Department of Planning and Environment NSW, Parramatta. Available at https://www.planning.nsw.gov.au/plans‐for‐your‐area/priority‐growth‐areas‐and‐precincts/greater‐macarthur‐growth‐area [Accessed 02 September 2023]

NSW Government (2020). State Environmental Planning Policy (Koala Habitat Protection) 2020 under the Environmental Planning Assessment Act 1979, page 2. Available at https://legislation.nsw.gov.au/view/pdf/asmade/epi-2020-698 [accessed 18 January 2023].

NSW Government (2021). State Environmental Planning Policy (Koala Habitat Protection) 2021 under the Environmental Planning Assessment Act 1979. Available at https://legacy.legislation.nsw.gov.au/EPIs/2021-115.pdf [accessed 18 January 2023].

Office of Environment and Heritage (2018). A review of koala tree use across New South Wales. Report OEH 2018/0385. (New South Wales Government.) Available at https://www.environment.nsw.gov.au/-/media/OEH/Corporate-Site/Documents/Animals-and-plants/Native-animals/review-of-koala-tree-use-across-nsw-180385.pdf [accessed 1 March 2023].

Pfeiffer, A., Melzer, A., Tucker, G., Clifton, D., and Ellis, W. (2005). Tree use by koalas (Phascolarctos cinereus) on St Bees Island, Queensland - report of a pilot study. Proceedings of the Royal Society of Queensland 112, 47-51.
| Crossref | Google Scholar |

Phillips, S., and Callaghan, J. (2000). Tree species preferences of koalas (Phascolarctos cinereus) in the Campbelltown area south-west of Sydney, New South Wales. Wildlife Research 27, 509-516.
| Crossref | Google Scholar |

Queensland Nature Conservation Act (1992). Queensland Government. Available at https://www.legislation.qld.gov.au/view/pdf/inforce/current/act-1992-020 [accessed 4 March 2023].

R Core Team (2021). ‘R: A language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna, Austria.) Available at https://www.R-project.org/

Rhodes, J. R., McAlpine, C. A., Zuur, A., Smith, G., and Ieno, E. (2009). GLMM applied on the spatial distribution of koalas in a fragmented landscape. In ‘Mixed effects models and extensions in ecology with R’. (Eds A. F. Zuur, E. N. Ieno, N. Walker, A. A. Saveliev, G. M. Smith). pp. 469–492. (Springer.)

Rhodes, J. R., Ng, C. F., de Villiers, D. L., Preece, H. J., McAlpine, C. A., and Possingham, H. P. (2011). Using integrated population modelling to quantify the implications of multiple threatening processes for a rapidly declining population. Biological Conservation 144, 1081-1088.
| Crossref | Google Scholar |

Rus, A. I., McArthur, C., Mella, V. S. A., and Crowther, M. S. (2021). Habitat fragmentation affects movement and space use of a specialist folivore, the koala. Animal Conservation 24, 26-37.
| Crossref | Google Scholar |

Schlagloth, R., Santamaria, F., Melzer, A., Keatley, M. R., and Houston, W. (2022). Vehicle collisions and dog attacks on Victorian koalas as evidenced by a retrospective analysis of sightings and admission records 1997–2011. Australian Zoologist 42, 655-666.
| Crossref | Google Scholar |

Signer, J., and Balkenhol, N. (2015). Reproducible home ranges (rhr): A new, user-friendly R package for analyses of wildlife telemetry data. Wildlife Society Bulletin 39, 358-363.
| Crossref | Google Scholar |

Sluiter, A. F., Close, R. L., and Ward, S. J. (2001). Koala feeding and roosting trees in the Campbelltown area of New South Wales. Australian Mammalogy 23, 173-175.
| Crossref | Google Scholar |

Smith, A. G., Mcalpine, C., Rhodes, J. R., Seabrook, L., Baxter, G., Lunney, D., and Bradley, A. (2013). At what spatial scales does resource selection vary? A case study of koalas in a semi-arid region. Austral Ecology 38, 230-240.
| Crossref | Google Scholar |

Steppe, K., Niinemets, Ü., and Teskey, R. O. (2011). Tree size-and age-related changes in leaf physiology and their influence on carbon gain. In ‘Size-and age-related changes in tree structure and function’. (Eds F. C. Meinzer, B. Lachenbruch, T. E. Dawson.) pp. 235–253. (Springer: Dordrecht.)

Tozer, M. (2003). The native vegetation of the Cumberland Plain, Western Sydney: systematic classification and field identification of communities. Cunninghamia 8, 1-75.
| Google Scholar |

van Eeden, L. M., Nimmo, D., Mahony, M., Herman, K., Ehmke, G., Driessen, J., O’Connor, J., Bino, G., Taylor, M., and Dickman, C. R. (2020). Impacts of the unprecedented 2019-2020 bushfires on Australian animals. (Report prepared for WWF-Australia: Ultimo NSW.)

Vesk, P. A., and Mac Nally, R. (2006). The clock is ticking ‐ revegetation and habitat for birds and arboreal mammals in rural landscapes of southern Australia. Agriculture, ecosystems & environment 112(4), 356-366.
| Google Scholar |

Vitali, S. D., Reiss, A.E., Jakob-Hoff, R. M., Stephenson, T. L., Holz, P. H., and Higgins, D. P. (2022). ‘National Koala Disease Risk Analysis Report.’ (University of Sydney.) Available at https://wildlifehealthaustralia.com.au/Portals/0/Documents/Resources/KDRA%20Report% 20V1_1%20August%202022.pdf?ver=jmO6kSQJgH6A1VSKMo9xEA%3d%3d [accessed 16 March 2023].

White, N., and Timms, P. (1994). Chlamydia psittaci in a koala (Phascolarctos cinereus) population in South-East Queensland. Wildlife Research 21, 41-47.
| Crossref | Google Scholar |

Wollondilly Shire Council (2011). ‘Wollondilly Shire Council Growth Management Strategy 2011.’ (Wollondilly Shire Council: Picton, NSW.) Available at https://www.wollondilly.nsw.gov.au/assets/Documents/Council/Council-Documents/Reports-and-Discussion-Papers/Planning-Documents/Growth-Management-Strategy-2011-Adopted.pdf [accessed 18 January 2023].

Wu, H., McAlpine, C., and Seabrook, L. (2012). The dietary preferences of koalas, Phascolarctos cinereus, in southwest Queensland. Australian Zoologist 36, 93-102.
| Crossref | Google Scholar |