Declining woodland birds – is our science making a difference?
Andrew F. Bennett A and David M. Watson B
+ Author Affiliations
- Author Affiliations
A School of Life and Environmental Sciences, Deakin University, 221 Burwood Highway, Burwood, VIC 3125, Australia. Email: andrew.bennett@deakin.edu.au
B Institute for Land, Water and Society, Charles Sturt University, PO Box 789, Albury, NSW 2640, Australia. Email: dwatson@csu.edu.au
Emu 111(1) i-vi https://doi.org/10.1071/MUv111n1_ED
Published: 21 February 2011
References
Antos, M. J., Bennett, A. F., and White, J. G. (2008). Where exactly do ground-foraging woodland birds forage? Foraging sites and microhabitat selection in temperate woodlands of southern Australia. Emu 108, 201–211.| Where exactly do ground-foraging woodland birds forage? Foraging sites and microhabitat selection in temperate woodlands of southern Australia.Crossref | GoogleScholarGoogle Scholar |
Barrett, G., Silcocks, A., Barry, S., Cunningham, R., and Poulter, R. (2003) ‘The New Atlas of Australian Birds.’ (Royal Australasian Ornithologists Union: Melbourne.)
Barter, M. (2002) ‘Shorebirds of the Yellow Sea: Importance, Threats and Conservation Status’. Wetlands International Global Series 9, International Wader Studies 12. (Wetlands International: Canberra.)
Bentley, J., and Catterall, C. (1997). The use of bushland corridors and linear remnants by birds in southeast Queensland, Australia. Conservation Biology 11, 1173–1189.
| The use of bushland corridors and linear remnants by birds in southeast Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |
Bilney, R. J., White, J. G., L’Hotellier, F. A., and Cooke, R. (2011). Spatial ecology of Sooty Owls in south-eastern Australian coastal forests: implications for forest management and reserve design. Emu 111, 92–99.
| Spatial ecology of Sooty Owls in south-eastern Australian coastal forests: implications for forest management and reserve design.Crossref | GoogleScholarGoogle Scholar |
Bowen, M. E., McAlpine, C. A., Seabrook, L. M., House, A. P. N., and Smith, G. C. (2009). The age and amount of regrowth forest in fragmented brigalow landscapes are both important for woodland dependent birds. Biological Conservation 142, 3051–3059.
| The age and amount of regrowth forest in fragmented brigalow landscapes are both important for woodland dependent birds.Crossref | GoogleScholarGoogle Scholar |
Cale, P. (1990). The value of road reserves to the avifauna of the central wheatbelt of Western Australia. Proceedings of the Ecological Society of Australia 16, 359–367.
Cale, P. G. (2003). The influence of social behaviour, dispersal and landscape fragmentation on population structure in a sedentary bird. Biological Conservation 109, 237–248.
| The influence of social behaviour, dispersal and landscape fragmentation on population structure in a sedentary bird.Crossref | GoogleScholarGoogle Scholar |
Cooper, C. B., and Walters, J. R. (2002). Experimental evidence of disrupted dispersal causing decline of an Australian passerine in fragmented habitat. Conservation Biology 16, 471–478.
| Experimental evidence of disrupted dispersal causing decline of an Australian passerine in fragmented habitat.Crossref | GoogleScholarGoogle Scholar |
Crooks, K. R., and Sanjayan, M. A. (Eds) (2006). ‘Connectivity Conservation.’ (Cambridge University Press: Cambridge, MA, USA.)
Cunningham, R. B., Lindenmayer, D. B., Crane, M., Michael, D., McGregor, C., Montague-Drake, R., and Fischer, J. (2008). The combined effects of remnant vegetation and tree planting on farmland birds. Conservation Biology 22, 742–752.
| The combined effects of remnant vegetation and tree planting on farmland birds.Crossref | GoogleScholarGoogle Scholar |
Debus, S. (2006). Breeding and population parameters of robins in a woodland remnant in northern New South Wales, Australia. Emu 106, 147–156.
| Breeding and population parameters of robins in a woodland remnant in northern New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |
Doerr, V. J., Doerr, E. D., and Davies, M. J. (2011). Dispersal behaviour of Brown Treecreepers predicts functional connectivity for several other woodland birds. Emu 111, 71–83.
| Dispersal behaviour of Brown Treecreepers predicts functional connectivity for several other woodland birds.Crossref | GoogleScholarGoogle Scholar |
Donald, P. F., Green, R. E., and Heath, M. F. (2001). Agricultural intensification and the collapse of Europe’s farmland bird populations. Proceedings Biological Sciences 268, 25–29.
| Agricultural intensification and the collapse of Europe’s farmland bird populations.Crossref | GoogleScholarGoogle Scholar |
Dutson, G., Garnett, S., and Gole, C. (2009). Australia’s important bird areas: key sites for bird conservation. Birds Australia (RAOU) Conservation Statement No. 15. Birds Australia, BirdLife International and Rio Tinto. Available at http://www.birdsaustralia.com.au/images/stories/current-projects/iba/IBA_sm.pdf [Verified 31 January 2011].
Fischer, J., and Lindenmayer, D. B. (2002). The conservation value of paddock trees for birds in a variegated landscape in southern New South Wales. 1. Species composition and site occupancy patterns. Biodiversity and Conservation 11, 807–832.
| The conservation value of paddock trees for birds in a variegated landscape in southern New South Wales. 1. Species composition and site occupancy patterns.Crossref | GoogleScholarGoogle Scholar |
Ford, H. A. (2011). The causes of decline of birds of eucalypt woodlands: advances in our knowledge over the last 10 years. Emu 111, 1–9.
| The causes of decline of birds of eucalypt woodlands: advances in our knowledge over the last 10 years.Crossref | GoogleScholarGoogle Scholar |
Ford, H., and Howe, R. (1980). The future of birds in the Mount Lofty Ranges. South Australian Ornithologist 28, 85–89.
Ford, H. A., Barrett, G. W., Saunders, D. A., and Recher, H. F. (2001). Why have birds in the woodlands of southern Australia declined? Biological Conservation 97, 71–88.
| Why have birds in the woodlands of southern Australia declined?Crossref | GoogleScholarGoogle Scholar |
Ford, H. A., Walters, J. R., Cooper, C. B., Debus, S. J. S., and Doerr, V. A. J. (2009). Extinction debt or habitat change? – Ongoing losses of woodland birds in north-eastern New South Wales, Australia. Biological Conservation 142, 3182–3190.
| Extinction debt or habitat change? – Ongoing losses of woodland birds in north-eastern New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |
Franklin, D. C., Menkhorst, P. W., and Robinson, J. L. (1989). Ecology of the Regent Honeyeater Xanthomyza phrygia. Emu 89, 140–154.
| Ecology of the Regent Honeyeater Xanthomyza phrygia.Crossref | GoogleScholarGoogle Scholar |
Fuller, R. J., Gregory, R. D., Gibbons, D. W., Marchant, J. H., Wilson, J. D., Baillie, S. R., and Carter, N. (1995). Population declines and range contractions among lowland farmland birds in Britain. Conservation Biology 9, 1425–1441.
| Population declines and range contractions among lowland farmland birds in Britain.Crossref | GoogleScholarGoogle Scholar |
Grey, M. J., Clarke, M. F., and Loyn, R. H. (1998). Influence of the Noisy Miner Manorina melanocephala on avian diversity and abundance in remnant Grey Box woodland. Pacific Conservation Biology 4, 55–69.
Haslem, A., and Bennett, A. F. (2008a). Countryside elements and the conservation of birds in agricultural environments. Agriculture Ecosystems & Environment 125, 191–203.
| Countryside elements and the conservation of birds in agricultural environments.Crossref | GoogleScholarGoogle Scholar |
Haslem, A., and Bennett, A. F. (2008b). Birds in agricultural mosaics: the influence of landscape pattern and countryside heterogeneity. Ecological Applications 18, 185–196.
| Birds in agricultural mosaics: the influence of landscape pattern and countryside heterogeneity.Crossref | GoogleScholarGoogle Scholar |
Hewson, C. M., Amar, A., Lindsell, J. A., Thewlis, R. M., Butler, S., Smith, K., and Fuller, R. J. (2007). Recent changes in bird populations in British broad-leaved woodland. Ibis 149, 14–28.
| Recent changes in bird populations in British broad-leaved woodland.Crossref | GoogleScholarGoogle Scholar |
Hobbs, R. J., and Yates, C. J. (2000). ‘Temperate Eucalypt Woodlands in Australia. Biology, Conservation, Management and Restoration.’ (Surrey Beatty & Sons: Sydney.)
Hoffmann, M., Angulo, A., Böhm, M., Brooks, T. M., Butchart, S. H. M., Carpenter, K. E., Chanson, J., Collen, B., et al (2010). Impact of conservation on the status of the world’s vertebrates. Science 330, 1503–1509.
| Impact of conservation on the status of the world’s vertebrates.Crossref | GoogleScholarGoogle Scholar |
Jenner, B., French, K., Oxenham, K., and Major, R. E. (2011). Population decline of the White-fronted Chat (Epthianura albifrons) in New South Wales, Australia. Emu 111, 84–91.
| Population decline of the White-fronted Chat (Epthianura albifrons) in New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |
Jetz, W., Wilcove, D. S., and Dobson, A. P. (2007). Projected impacts of climate and land-use change on the global diversity of birds. PLoS Biology 5, e157.
| Projected impacts of climate and land-use change on the global diversity of birds.Crossref | GoogleScholarGoogle Scholar |
Lindenmayer, D., Bennett, A., and Hobbs, R. (2010). ‘Temperate Woodland Conservation and Management.’ (CSIRO Publishing: Melbourne.)
Lindenmayer, D. B., and Cunningham, R. B. (2011). Longitudinal patterns in bird reporting rates in a threatened ecosystem: is change regionally consistent? Biological Conservation 144, 430–440.
| Longitudinal patterns in bird reporting rates in a threatened ecosystem: is change regionally consistent?Crossref | GoogleScholarGoogle Scholar |
Loyn, R. H. (1987). Effects of patch area and habitat on bird abundances, species numbers and tree health in fragmented Victorian forests. In ‘Nature Conservation: The Role of Remnants of Native Vegetation’. (Eds D. A. Saunders, G. W. Arnold, A. A. Burbidge and A. J. M. Hopkins.) pp. 65–77. (Surrey Beatty & Sons: Sydney.)
Mac Nally, R., Soderquist, T. R., and Tzaros, C. (2000). The conservation value of mesic gullies in dry forest landscapes: avian assemblages in the box-ironbark ecosystem of southern Australia. Biological Conservation 93, 293–302.
| The conservation value of mesic gullies in dry forest landscapes: avian assemblages in the box-ironbark ecosystem of southern Australia.Crossref | GoogleScholarGoogle Scholar |
Mac Nally, R., Bennett, A. F., Thomson, J. R., Radford, J. Q., Unmack, G., Horrocks, G., and Vesk, P. A. (2009). Collapse of an avifauna: climate change appears to exacerbate habitat loss and degradation. Diversity & Distributions 15, 720–730.
| Collapse of an avifauna: climate change appears to exacerbate habitat loss and degradation.Crossref | GoogleScholarGoogle Scholar |
MacHunter, J., Wright, W., Loyn, R. H., and Rayment, D. (2006). Bird declines over 22 years in forest remnants in south-eastern Australia: evidence of faunal relaxation? Canadian Journal of Forest Research 36, 2756–2768.
| Bird declines over 22 years in forest remnants in south-eastern Australia: evidence of faunal relaxation?Crossref | GoogleScholarGoogle Scholar |
Manel, S., Schwarz, M. K., Luikart, G., and Taberlet, P. (2003). Lanscape genetics: combining landscape ecology and population genetics. Trends in Ecology & Evolution 18, 189–197.
| Lanscape genetics: combining landscape ecology and population genetics.Crossref | GoogleScholarGoogle Scholar |
Manning, A. D., Lindenmayer, D. B., and Barry, S. C. (2004). The conservation implications of bird reproduction in the agricultural ‘matrix’: a case study of the vulnerable Superb Parrot of southeastern Australia. Biological Conservation 120, 363–374.
| The conservation implications of bird reproduction in the agricultural ‘matrix’: a case study of the vulnerable Superb Parrot of southeastern Australia.Crossref | GoogleScholarGoogle Scholar |
Maron, M. (2007). Threshold effect of eucalypt density on an aggressive avian competitor. Biological Conservation 136, 100–107.
| Threshold effect of eucalypt density on an aggressive avian competitor.Crossref | GoogleScholarGoogle Scholar |
Maron, M., Main, A., Bowen, M., Howes, A., Kath, J., Pillette, C., and McAlpine, C. A. (2011). Relative influence of habitat modification and interspecific competition on woodland bird assemblages in eastern Australia. Emu 111, 40–51.
| Relative influence of habitat modification and interspecific competition on woodland bird assemblages in eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Martin, T. G., and McIntyre, S. (2007). Impacts of livestock grazing and tree clearing on birds of woodland and riparian habitats. Conservation Biology 21, 504–514.
| Impacts of livestock grazing and tree clearing on birds of woodland and riparian habitats.Crossref | GoogleScholarGoogle Scholar |
McIntyre, S., and Hobbs, R. (1999). A framework for conceptualizing human effects on landscapes and its relevance to management and research models. Conservation Biology 13, 1282–1292.
| A framework for conceptualizing human effects on landscapes and its relevance to management and research models.Crossref | GoogleScholarGoogle Scholar |
Munro, N. T., Lindenmayer, D. B., and Fischer, J. (2007). Faunal response to revegetation in agricultural areas of Australia: a review. Ecological Management & Restoration 8, 199–207.
| Faunal response to revegetation in agricultural areas of Australia: a review.Crossref | GoogleScholarGoogle Scholar |
Oldland, J. M., Taylor, R. S., and Clarke, M. F. (2009). Habitat preferences of the Noisy Miner (Manorina melanocephala): a propensity for prime real estate? Austral Ecology 34, 306–316.
| Habitat preferences of the Noisy Miner (Manorina melanocephala): a propensity for prime real estate?Crossref | GoogleScholarGoogle Scholar |
Olsen, P., Weston, M., Tzaros, C., and Silcocks, A. (2005). The State of Australia’s Birds 2005. Woodlands and Birds. Wingspan 15, 1–32.
Paton, D., and O’Connor, J. (2010). The State of Australia’s Birds 2009. Restoring Woodland Habitats for Birds. Wingspan 20, 1–28.
Radford, J. Q., Bennett, A. F., and Cheers, G. J. (2005). Landscape-level thresholds of habitat cover for woodland-dependent birds. Biological Conservation 124, 317–337.
| Landscape-level thresholds of habitat cover for woodland-dependent birds.Crossref | GoogleScholarGoogle Scholar |
Reid, J. R. W. (1999). Threatened and declining birds in the New South Wales Sheep–Wheat Belt: 1. Diagnosis, characteristics and management. Consultancy report to NSW National Parks and Wildlife Service. CSIRO Wildlife and Ecology, Canberra.
Robinson, D. (1993). Vale Toolern Vale: the loss of our woodland birds. Wingspan 9, 20–21.
Robinson, D. (2006). Is revegetation in the Sheep Pen Creek area, Victoria, improving Grey-crowned Babbler habitat? Ecological Management & Restoration 7, 93–104.
| Is revegetation in the Sheep Pen Creek area, Victoria, improving Grey-crowned Babbler habitat?Crossref | GoogleScholarGoogle Scholar |
Robinson, D., and Traill, B. J. (1996). Conserving woodland birds in the wheat and sheep belts of southern Australia. RAOU Conservation Statement 10. Wingspan 6, 1–16.
Robinson, S. K., and Wilcove, D. S. (1994). Forest fragmentation in the temperate zone and its effects on migratory songbirds. Bird Conservation International 4, 233–249.
| Forest fragmentation in the temperate zone and its effects on migratory songbirds.Crossref | GoogleScholarGoogle Scholar |
Rogers, D. I., Yang, H.-Y., Hassell, C. J., Boyle, A. N., Rogers, K. G., Chen, B., Zhang, Z.-W., and Piersma, T. (2010). Red Knots (Calidris canutus piersmai and C. c. rogersi) depend on a small threatened staging area in Bohai Bay, China. Emu 110, 307–315.
| Red Knots (Calidris canutus piersmai and C. c. rogersi) depend on a small threatened staging area in Bohai Bay, China.Crossref | GoogleScholarGoogle Scholar |
Saunders, D. A. (1989). Changes in the avifauna of a region, district and remnant as a result of fragmentation of native vegetation: the wheatbelt of Western Australia. A case study. Biological Conservation 50, 99–135.
| Changes in the avifauna of a region, district and remnant as a result of fragmentation of native vegetation: the wheatbelt of Western Australia. A case study.Crossref | GoogleScholarGoogle Scholar |
Sekercioglu, C. H. (2006). Increasing awareness of avian ecological function. Trends in Ecology & Evolution 21, 464–471.
| Increasing awareness of avian ecological function.Crossref | GoogleScholarGoogle Scholar |
Sunnucks, P. (2011). Towards modelling persistence of woodland birds: the role of genetics. Emu 111, 19–39.
| Towards modelling persistence of woodland birds: the role of genetics.Crossref | GoogleScholarGoogle Scholar |
Szabo, J. K., Vesk, P. A., Baxter, P. W. J., and Possingham, H. P. (2011). Paying the extinction debt: woodland birds in the Mount Lofty Ranges, South Australia. Emu 111, 59–70.
| Paying the extinction debt: woodland birds in the Mount Lofty Ranges, South Australia.Crossref | GoogleScholarGoogle Scholar |
Taylor, R. S., Oldland, J. M., and Clarke, M. F. (2008). Edge geometry influences patch-level habitat use by an edge specialist in south-eastern Australia. Landscape Ecology 23, 377–389.
| Edge geometry influences patch-level habitat use by an edge specialist in south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Terborgh, J. (1989). ‘Where Have All the Birds Gone?’ (Princeton University Press: Princeton, NJ.)
Traill, B. J., Collins, E., Peake, P., and Jessup, S. (1996). Current and past status of the birds of Chiltern – a box-ironbark forest in north-eastern Victoria. Australian Bird Watcher 16, 309–326.
Watson, D. M. (2011). A productivity-based explanation for woodland bird declines: poorer soils yield less food. Emu 111, 10–18.
| A productivity-based explanation for woodland bird declines: poorer soils yield less food.Crossref | GoogleScholarGoogle Scholar |
Watson, D. M., Mac Nally, R. C., and Bennett, A. F. (2000). The avifauna of remnant Buloke (Allocasuarina luehmannii) woodlands in western Victoria. Pacific Conservation Biology 6, 46–60.
Weaving, M., White, J., Isaac, B., and Cooke, R. (2011). The distribution of three nocturnal bird species across a suburban–forest gradient. Emu 111, 52–58.
| The distribution of three nocturnal bird species across a suburban–forest gradient.Crossref | GoogleScholarGoogle Scholar |
