Document ID: chunk:federal_register_of_legislation:F2024L00482:reg:11:p5
Version: federal_register_of_legislation:F2024L00482
Segment Type: reg
Provision Reference: reg 11 (pt 5/6)
Character Range: 186647–189724

vegetation in the box and ironbark land of New South Wales. Victorian Naturalist. 110:24-29.
Stojanovic D., Cook H.C.L., Sato C., Alves F., Harris G., McKernan A., Rayner L., Webb M.H., Sutherland W.J. and Heinsohn R. (2019) Pre-emptive action as a measure for conserving nomadic species. The Journal of Wildlife Management 83: 64-71.
Stojanovic D., Eyles S., Cook H., Alves F., Webb M. and Heinsohn R. (2019) Photosensitive automated doors to exclude small nocturnal predators from nest boxes. Animal Conservation 22: 297-301.
Stojanovic D, Olah G, Webb M, Peakall R and Heinsohn R (2018). Genetic evidence confirms severe extinction risk for critically endangered swift parrots: implications for conservation management. Animal Conservation.
Stojanovic, D., Rayner, L., Webb, M. and Heinsohn, R. (2017). Effect of nest cavity morphology on reproductive success of a critically endangered bird. Emu 117(3), 247-253.
Stojanovic D, Terauds A, Westgate MJ, Webb MH, Roshier DA, and Heinsohn R. (2015). Exploiting the richest patch has a fitness payoff for the migratory swift parrot. Journal of Animal Ecology 84: 1194-1201.
Stojanovic D, Webb M, Alderman R, Porfirio L and Heinsohn R (2014). Discovery of a novel predator reveals extreme but highly variable mortality for an endangered bird. Diversity and Distributions, 20, 1200-1207.
Stojanovic D, Webb MH, Roshier D, Saunders D and Heinsohn R (2012). Ground-based survey methods both overestimate and underestimate the abundance of suitable tree-cavities for the endangered swift parrot. Emu, 112, 350-356.
Tzaros C, Saunders D, Webb M and Ingwersen D (2009). Swift Parrots – dynamic migrants within a drought prone environment. Wingspan 19 (3), 14-15.
Voogdt Y (2006). Characteristics of Swift Parrot (Lathamus discolor) nesting habitat. Honours thesis. Department of Biology, School of Zoology and Anthropology, Georg-August-University of Göttingen, Germany.
Wang, J., Santiago, E. & Caballero, A. (2016). Prediction and estimation of effective population size. Heredity 117, 193–206 https://doi.org/10.1038/hdy.2016.43
Webb MH, Holdsworth MC and Webb J (2012). Nesting requirements of the endangered Swift Parrot (Lathamus discolor). Emu, 112, 181-188.
Webb MH, Stojanovic D and Heinsohn A (2019). Policy failure and conservation paralysis for the critically endangered Swift Parrot. Pacific Conservation Biology 25, 116 – 123
Webb M, Stojanovic D, Roderick M, Saunders DL, Holdsworth M, Baker GB, Heinsohn R (2021) Swift Parrot Lathamus discolor. In Action Plan for Australian Birds 2020. (Eds ST Garnett, GB Baker) CSIRO, Melbourne.
Webb MH, Terauds A, Tulloch A, Bell P, Stojanovic D and Heinsohn R (2017). The importance of incorporating functional habitats into conservation planning for highly mobile species in dynamic systems. Conservation Biology 31, 1018–28.
Webb MH, Wotherspoon S, Stojanovic D, Heinsohn R, Cunningham R, Bell P and Terauds A. (2014). Location matters: Using spatially explicit occupancy models to predict the distribution of the highly mobile, endangered swift parrot. Biological Conservation,