Remm, J. & Lõhmus, A. Tree cavities in forests – the broad distribution pattern of a keystone structure for biodiversity. For. Ecol. Manage. 262, 579–585 (2011).
Manning, A. D., Gibbons, P., Fischer, J., Oliver, D. L. & Lindenmayer, D. B. Hollow futures? Tree decline, lag effects and hollow-dependent species. Anim. Conserv. 16, 395–403 (2013).
Lindenmayer, D. B. et al. The anatomy of a failed offset. Biol. Conserv. 210, 286–292 (2017).
Berthier, K., Leippert, F., Fumagalli, L. & Arlettaz, R. Massive nest-box supplementation boosts fecundity, survival and even immigration without altering mating and reproductive behaviour in a rapidly recovered bird population. PLoS One 7, e36028 (2012).
Brazill-Boast, J., Pryke, S. R. & Griffith, S. C. S. C. Provisioning habitat with custom-designed nest-boxes increases reproductive success in an endangered finch. Austral Ecol. 38, 405–412 (2013).
Harley, D. An overview of actions to conserve Leadbeater’s Possum (Gymnobelideus leadbeateri). Vic. Nat. 133, 85–97 (2016).
Charter, M., Izhaki, I., Ben Mocha, Y. & Kark, S. Nest-site competition between invasive and native cavity nesting birds and its implication for conservation. J. Environ. Manage. 181, 129–134 (2016).
Olah, G., Vigo, G., Heinsohn, R. & Brightsmith, D. J. Nest site selection and efficacy of artificial nests for breeding success of Scarlet Macaws Ara macao macao in lowland Peru. J. Nat. Conserv. 22, 176–185 (2014).
Mering, E. D. & Chambers, C. L. Thinking outside the box: a review of artificial roosts for bats. Wildl. Soc. Bull. 38, 741–751 (2014).
Stebbings, R. E. & Walsh, S. T. Bat Boxes: A Guide to the History, Function, Construction and use in the Conservation of Bats. (Bat Conservation Trust, 1991).
Tuttle, M. D., Kiser, M. & Kiser, S. The Bat House Builder’s Hand-book. (Bat Conservation International, 2013).
Mering, E. D. & Chambers, C. L. Artificial roosts for tree-roosting bats in northern Arizona. Wildl. Soc. Bull. 36, 765–772 (2012).
Kerth, G., Weissmann, K. & Konig, B. Day roost selection in female Bechstein’s bats (Myotis bechsteinii): a field experiment to determine the influence of roost temperature. Oecologia 126, 1–9 (2001).
Agnelli, P., Maltagliati, G., Ducci, L. & Cannicci, S. Artificial roosts for bats: education and research. The ‘be a bat’s friend’ project of The Natural History Museum of The University of Florence. Hystrix-Italian. J. Mammal. 22, 215–223 (2011).
López-Baucells, A. et al. Bat boxes in urban non-native forests: a popular practice that should be reconsidered. Urban Ecosyst. 20, 217–225 (2017).
Griffiths, S. R. et al. Bat boxes are not a silver bullet conservation tool. Mamm. Rev. 47, 261–265 (2017).
van der Ree, R. & McCarthy, M. A. Inferring persistence of indigenous mammals in response to urbanisation. Anim. Conserv. 8, 309–319 (2005).
Jung, K. & Kalko, E. K. V. Where forest meets urbanization: foraging plasticity of aerial insectivorous bats in an anthropogenically altered environment. J. Mammal. 91, 144–153 (2010).
Russo, D. & Ancillotto, L. Sensitivity of bats to urbanization: a review. Mamm. Biol. 80, 205–212 (2015).
Jung, K. & Threlfall, C. G. Urbanisation and Its Effects on Bats—A Global Meta-Analysis. in Bats in the Anthropocene: Conservation of Bats in a Changing World (eds. Voigt, C. C. & Kingston, T.) 13–33 (Springer International Publishing, 2016).
Evans, L. N. & Lumsden, L. F. A comparison of the roosting behaviour of Gould’s wattled bats Chalinolobus gouldii using bat boxes and tree hollows in suburban Melbourne. in Biology and Conservation of Australasian Bats (eds. Law, B., Eby, P., Lunney, D. & Lumsden, L.) 288–296 (Royal Zoological Society of New South Wales, 2011).
Rhodes, M. & Jones, D. The use of bat boxes by insectivorous bats and other fauna in the greater Brisbane region. in Biology and Conservation of Australasian Bats (eds. Law, B., Eby, P., Lunney, D. & Lumsden, L.) 424–442 (Royal Zoological Society of New South Wales, 2011).
Irvine, R. & Bender, R. Initial results from bat roosting boxes at Organ Pipes National Park. Vic. Nat. 112, 212–218 (1995).
Evans, L. N. Roosting behaviour of urban microbats: the influence of ectoparasites, roost microclimate and sociality. Faculty of Veterinary Science (PhD Thesis. The University of Melbourne, Melbourne, Victoria, 2009).
Straka, T. M., Lentini, P. E., Lumsden, L. F., Wintle, B. A. & van der Ree, R. Urban bat communities are affected by wetland size, quality, and pollution levels. Ecol. Evol. 6, 4761–4774 (2016).
Griffiths, S. R. et al. Long-term monitoring suggests bat boxes alter local bat community structure. Aust. Mammal. 41, 273–278 (2018).
Larson, D. J. & Hayes, J. P. Variability in sensitivity of Anabat II bat detectors and a method of calibration. Acta Chiropterologica 2, 209–213 (2000).
Stebbings, R. E. & Walsh, S. T. Bat Boxes. (Fauna & Flora Preservation Society, 1985).
Hines, J. The ‘Tanglewood Wedge’ bat-box. Batchat 1, 5–6 (1985).
Gonsalves, L. & Law, B. S. Seasonal activity patterns of bats in North Sydney, New South Wales: implications for urban bat monitoring programs. Aust. Mammal. 40, 220–229 (2017).
Milne, D. J., Fisher, A., Rainey, I. & Pavey, C. R. Temporal patterns of bats in the Top End of the Northern Territory, Australia. J. Mammal. 86, 909–920 (2005).
Hayes, J. P. Temporal variation in activity of bats and the design of echolocation-monitoring studies. J. Mammal. 78, 514–524 (1997).
Kuenzi, A. J. & Morrison, M. L. Temporal patterns of bat activity in southern Arizona. J. Wildl. Manage. 67, 52–64 (2003).
Fenton, M. B., Boyle, N. G. H., Harrison, T. M. & Oxley, D. J. Activity patterns, habitat use, and prey selection by some African insectivorous bats. Biotropica 9, 73–85 (1977).
Law, B. S., Gonsalves, L., Tap, P., Penman, T. & Chidel, M. Optimizing ultrasonic sampling effort for monitoring forest bats. Austral Ecol. 40, 886–897 (2015).
Fischer, J., Stott, J., Law, B. S., Adams, M. D. & Forrester, R. I. Designing effective habitat studies: quantifying multiple sources of variability in bat activity. Acta Chiropterologica 11, 127–137 (2009).
Lumsden, L. F. & Bennett, A. F. Scattered trees in rural landscapes: foraging habitat for insectivorous bats in south-eastern Australia. Biol. Conserv. 122, 205–222 (2005).
Adams, M. D., Law, B. S. & Gibson, M. S. Reliable automation of bat call identification for eastern New South Wales, Australia, using classification trees and AnaScheme software. Acta Chiropterologica 12, 231–245 (2010).
Gibson, M. S. & Lumsden, L. F. The AnaScheme automated bat call identification system. Australas. Bat Soc. Newsl. 20, 24–27 (2003).
Caryl, F. M., Lumsden, L. F., van der Ree, R. & Wintle, B. A. Functional responses of insectivorous bats to increasing housing density support ‘land-sparing’ rather than ‘land-sharing’ urban growth strategies. J. Appl. Ecol. 53, 191–201 (2016).
Oksanen, J. et al. vegan: Community Ecology Package. R Package version 2.5-2′. (2018).
R Development Core Team. R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna vol. 1 (2011).
Australian Bureau of Meteorology. Climate Data Online, http://www.bom.gov.au/climate/data/ (2018).
Valera, F., Václav, R., Calero‐Torralbo, Á. M., Martínez, T. & Veiga, J. Natural cavity restoration as an alternative to nest box supplementation. Restor. Ecol. 27, 220–227 (2018).
Stone, E. L., Jones, G. & Harris, S. Street lighting disturbs commuting bats. Curr. Biol. 19, 1123–1127 (2009).
Stone, E. L., Harris, S. & Jones, G. Impacts of artificial lighting on bats: a review of challenges and solutions. Mamm. Biol. 80, 213–219 (2015).
Rodríguez-Aguilar, G., Orozco-Lugo, C. L., Vleut, I. & Vazquez, L. B. Influence of urbanization on the occurrence and activity of aerial insectivorous bats. Urban Ecosyst. 20, 477–488 (2017).
Threlfall, C. G., Law, B. S. & Banks, P. B. Sensitivity of insectivorous bats to urbanization: implications for suburban conservation planning. Biol. Conserv. 146, 41–52 (2012).
Gaisler, J., Zukal, J., Rehak, Z. & Homolka, M. Habitat preference and flight activity of bats in a city. J. Zool. 244, 439–445 (1998).
Treby, D. L. & Castley, J. G. Determinants of microbat communities in urban forest remnants: a rapid landscape scale assessment. Urban Ecosyst. 19, 1351–1371 (2016).
Gehrt, S. D. & Chelsvig, J. E. Bat activity in an urban landscape: patterns at the landscape and microhabitat scale. Ecol. Appl. 13, 939–950 (2003).
Lesinski, G., Sikora, A. & Olszewski, A. Bat casualties on a road crossing a mosaic landscape. Eur. J. Wildl. Res. 57, 217–223 (2011).
Berthinussen, A. & Altringham, J. The effect of a major road on bat activity and diversity. J. Appl. Ecol. 49, 82–89 (2012).
Kerth, G. & Melber, M. Species-specific barrier effects of a motorway on the habitat use of two threatened forest-living bat species. Biol. Conserv. 142, 270–279 (2009).
Lintott, P. R., Bunnefeld, N. & Park, K. J. Opportunities for improving the foraging potential of urban waterways for bats. Biol. Conserv. 191, 224–233 (2015).
Ancillotto, L., Bosso, L., Salinas-Ramos, V. B. & Russo, D. The importance of ponds for the conservation of bats in urban landscapes. Landsc. Urban Plan. 190, 103607 (2019).
Threlfall, C. G., Law, B. S. & Banks, P. B. Influence of landscape structure and human modifications on insect biomass and bat foraging activity in an urban landscape. PLoS One 7, 10 (2012).
Galbraith, J. A., Jones, D. N., Beggs, J. R., Parry, K. & Stanley, M. C. Urban bird feeders dominated by a few species and individuals. Front. Ecol. Evol. 5, 81 (2017).
Galbraith, J. A., Beggs, J. R., Jones, D. N. & Stanley, M. C. Supplementary feeding restructures urban bird communities. Proc. Natl. Acad. Sci. 112, E2648–E2657 (2015).
von Post, M. & Smith, H. G. Effects on rural House Sparrow and Tree Sparrow populations by experimental nest-site addition. J. Ornithol. 156, 231–237 (2015).
Lentini, P. E., Bird, T. J., Griffiths, S. R., Godinho, L. N. & Wintle, B. A. A global synthesis of survival estimates for microbats. Biol. Lett. 11, 20150371 (2015).
Godinho, L. N., Lumsden, L. F., Coulson, G. & Griffiths, S. R. Network analysis reveals cryptic seasonal patterns of association in Gould’s wattled bats (Chalinolobus gouldii) roosting in bat-boxes. Behaviour 152, 2079–2105 (2015).
Martin Bideguren, G. et al. Bat boxes and climate change: testing the risk of over-heating in the Mediterranean region. Biodivers. Conserv. 28, 21–35 (2018).
Rueegger, N., Goldingay, R. L., Law, B. S. & Gonsalves, L. Limited use of bat boxes in a rural landscape: Implications for offsetting the clearing of hollow-bearing trees. Restor. Ecol. 27, 901–911 (2018).
Griffiths, S. R. et al. Chainsaw-carved cavities better mimic the thermal properties of natural tree hollows than nest boxes and log hollows. Forests 9, 235 (2018).
Stagoll, K., Lindenmayer, D. B., Knight, E., Fischer, J. & Manning, A. D. Large trees are keystone structures in urban parks. Conserv. Lett. 5, 115–122 (2012).
ESRI. AM v. 10.7. ESRI, Redlands, CA, USA (2019).
The State of Victoria, Department of Environment, Land, W. and Planning. Planning scheme Urban Growth Boundary – Vicmap Planning, http://www.data.vic.gov.au/data/dataset/planning-scheme-urban-growth-boundary-vicmap-planning (2017).
Geosciences Australia. Geodata Coast 100K 2004, http://www.ga.gov.au/metadata-gateway/metadata/record/gcat_61395 (2004).
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