764 H. Bannister et al.
HIBERT, F., TABERLET, P., CHAVE, J., SCOTTI-SAINTAGNE, C., SABATIER,D.&RICHARD-HANSEN,C.(2013) Unveiling the diet of elusive rainforest herbivores in next generation sequencing era? The tapir as a case study. PLOS ONE, 8,e60799.
HOW, R.A. & HILLCOX, S.J. (2000) Brushtail possum, Trichosurus vulpecula, populations in south-western Australia: demography, diet and conservation status.Wildlife Research, 27, 81–89.
ISLAM, Z.-U.M., ISMAIL,K. & BOUG,A. (2008) Re-introduction of the red-necked ostrich, Struthio camelus camelus, in Mahazat as-Sayd Protected Area in central Saudi Arabia. Zoology in the Middle East, 44, 31–40.
JACOBS,J. (1974) Quantitative measurement of food selection. Oecologia, 14, 413–417.
JULE, K.R., LEAVER, L.A. & LEA, S.E.G. (2008) The effects of captive experience on reintroduction survival in carnivores: a review and analysis. Biological Conservation, 141, 355–363.
KERLE, J.A. (1984) Variation in the ecology of Trichosurus: its adaptive significance. In Possums and Gliders (eds A.P. Smith & I.D. Hume), pp. 115–128. Surrey Beatty and Sons, Sydney, Australia.
KERLE, J.A., MCKAY, G.M. & SHARMAN, G.B. (1991) A systematic analysis of the brushtail possum Trichosurus vulpecula (Kerr, 1972) (Marsupialia: Phalangeridae). Australian Journal of Zoology, 39, 313–331.
KERLE, J.A., FOULKES, J.N., KIMBER, R.G. & PAPENFUS,D.(1992) Decline of the brushtail possum, Trichosurus vulpecula (Kerr 1798), in arid Australia. The Rangeland Journal, 14, 107–127.
KRESS,W.J. & ERICKSON, D.L. (2007) A two-locus global DNA barcode for land plants: the coding rbcL gene complements the non-coding trnH-psbA spacer region. PLOS ONE, 2,e508.
MARSH, K.J.,WALLIS, I.R.,MCLEAN, S., SORENSEN, J.S.&FOLEY,W.J. (2006) Conflicting demands on detoxification pathways influence how common brushtail possums choose their diets. Ecology, 87, 2103–2112.
MINCHAM,H.(1996) History of exploration and settlement. In Natural History of the Flinders Ranges (eds M. Davies, C.R. Twidale & M.J. Tyler), pp. 1–14. Royal Society of South Australia, Adelaide, Australia.
MOORHOUSE, T.P.,GELLING,M.&MACDONALD, D.W. (2009) Effects of habitat quality upon reintroduction success inwater voles: evidence from a replicated experiment. Biological Conservation, 142, 53–60.
MOSEBY, K.E., HILL, B.M. & LAVERY, T.H. (2014) Tailoring release protocols to individual species and sites: one size does not fit all. PLOS ONE, 9,e99753.
MOSEBY, K.E., BRANDLE, R., HODGENS,P. & BANNISTER, H.L. (2020) Can reintroductions to degraded habitat succeed? A test using the brushtail possum. Austral Ecology, published online 11 March 2020.
NOLET, B.A., BROFTOVÁ, L., HEITKÖNIG, I.M.A., VOREL,A.& KOSTKAN,V. (2005) Slowgrowth of a translocated beaver population partly due to a climatic shift in food quality. Oikos, 111, 632–640.
OWEN, H.J. & NORTON, D.A. (1995) The diet of introduced brushtail possums Trichosurus vulpecula in a low-diversity New Zealand Northofagus forest and possible implications for conservation management. Biological Conservation, 71, 339–345.
PANFYLOVA, J., BEMELMANS, E., DEVINE, C., FROST,P. & ARMSTRONG,D.(2016) Post-release effects on reintroduced populations of hihi. The Journal of Wildlife Management, 80, 970–977.
PIANKA, E.R. (1974) Niche overlap and diffuse competition. Proceedings of the National Academy of Sciences of the United States of America, 71, 2141.
PÕDRA, M., MARAN, T., SIDOROVICH, V.E., JOHNSON, P.J. & MACDONALD, D.W. (2013) Restoration programmes and the development of a natural diet: a case study of captive-bred European mink. European Journal ofWildlife Research, 59, 93–104.
RDEVELOPMENT CORE TEAM (2018) R: a Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria.
R-project.org [accessed January 2020].
RICKETT, J.,DEY, C.J., STOTHART, J.,O’CONNER, C.M.,QUINN, J.S. & WEIHONG,J.(2013) The influence of supplementary feeding on survival, dispersal and competition in translocated brown teal, or pāteke (Anas chlorotis). Emu, 113, 62–68.
ROBINSON, A.C. (2012) Flinders Ranges National Park Management Plan Discussion Paper. Department for Environment, Water and Natural Resources, Adelaide, Australia.
SCHMITZ-LINNEWEBER, C., MAIER, R.M., ALCARAZ, J., COTTET, A., HERRMANN, R.G. &MACHE,R.(2001) The plastid chromosome of spinach (Spinacia oleracea): complete nucleotide sequence and gene organization. Plant Molecular Biology, 45, 307–315.
SHORT,J.&HIDE,A. (2015) Successful reintroduction of red-tailed phascogale toWadderin Sanctuary in the eastern wheatbelt of Western Australia. Australian Mammalogy, 37, 234–244.
SMITH,M. (1996) Mammals of the Flinders ranges. In Natural History of the Flinders Ranges (eds M. Davies, C.R. Twidale & M.J. Tyler), pp. 125–131. Royal Society of South Australia, Adelaide, Australia.
SODERQUIST,T.(1995) The importance of hypothesis testing in reintroduction biology: examples from the reintroduction of the carnivorous marsupial Phascogale
tapoatafa.In Reintroduction Biology of Australian and New Zealand Fauna (ed. M. Serena), pp. 159–164. Surrey Beatty & Sons, Chipping Norton, UK.
STADTMANN,S.&SEDDON, P.J. (2018) Release site selection: reintroductions and the habitat concept. Oryx, published online 23 November 2018.
STANNARD, H.J., CATON,W. &OLD, J.M. (2010) The diet of red-tailed phascogales in a trial translocation at Alice Springs Desert Park, Northern Territory, Australia. Journal of Zoology, 280, 326–331.
STATHAM, H.L. (1984) The diet of Trichosurus vulpecula (Kerr) in four Tasmanian forest locations. In Possums and Gliders (eds A. Smith & I. Hume), pp. 213–219. Surrey Beatty & Sons, Chipping Norton, UK.
THOMAS, A.C., JARMAN, S.N., HAMAN, K.H., TRITES, A.W. & DEAGLE, B.E. (2014) Improving accuracy of DNA diet estimates using food tissue control materials and an evaluation of proxies for digestion bias. Molecular Ecology, 23, 3706–3718.
WILKINSON, M.J., SZABO, C., FORD, C.S.,YAROM,Y.,CROXFORD, A.E., CAMP,A. & GOODING,P. (2017) Replacing Sanger with next generation sequencing to improve coverage and quality of reference DNA barcodes for plants. Scientific Reports, 7, 1–11.
Oryx, 2021, 55(5), 755–764 © The Author(s), 2020. Published by Cambridge University Press on behalf of Fauna & Flora International doi:10.1017/S0030605319000991
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