Isolation, invasion and innovation: forces of change in the conservation of New Zealand birds

Sarah Withers

doi:10.1017/CBO9781139519960.021

Chapter 19 - Isolation, invasion and innovation: forces of change in the conservation of New Zealand birds

Published online by Cambridge University Press: 05 November 2014

Sarah Withers

Edited by

Adam Stow ,

Norman Maclean and

Gregory I. Holwell

Show author details

Sarah Withers: Affiliation:
University of Auckland
Adam Stow: Affiliation:
Macquarie University, Sydney
Norman Maclean: Affiliation:
University of Southampton
Gregory I. Holwell: Affiliation:
University of Auckland

Book contents

Get access

Summary

New Zealand is home to a small but strange set of land-birds and is world-renowned as a hotspot of sea-bird diversity. This unique assemblage of species is the result of the fact that the New Zealand landmass is continental in origin but island-like in nature, being isolated from other countries by a large extent of ocean. A lack of mammalian predators means that many New Zealand birds have evolved remarkable features, including gigantism, flightlessness, ground-nesting habits and physiology which protects them from aerial avian predators. Unfortunately, these features have made New Zealand birds highly susceptible to the impacts of introduced mammalian predators and many species are now threatened. The high levels of extinction and rates of decline have spurred the development of highly innovative and revolutionary conservation techniques. New Zealand conservation efforts have paved the way for international conservation projects, in particular with regard to the use of offshore islands, pest control methodologies, species translocation and breeding manipulation. The use of these interventions has led to the recovery of numerous highly endangered species and the discipline continues to evolve, with New Zealand scientists contributing to ongoing development and discussion of conservation methods. While New Zealand is home to one of the largest public conservation organisations in the world, dwindling governmental and financial support is putting many successful conservation projects at risk and private initiatives are becoming increasingly vital for the ongoing protection of New Zealand’s unique species.

The history and origin of New Zealand’s avifauna

New Zealand has long been recognised as an environment which hosts a remarkable avian assemblage. During its history New Zealand has contained 245 species in 110 genera representing 46 families. Like Australia, New Zealand has a high level of endemism in its avifauna, with 176 (72%) of the 245 resident species endemic to the archipelago (Holdaway et al. 2001). Species diversity is dominated by three groups, the Procellariiformes (53 species), Charadriiformes (30 species) and Passeriformes (44 species) and the country has a global reputation as a hot-spot of sea-bird diversity, with almost a quarter of the 359 sea-bird species worldwide occurring as breeding populations in New Zealand, of which 36 (42%) are endemic (Gaskin and Rayner 2013). The prevalence of sea-birds, shore-birds and forest-birds reflects New Zealand’s unique environment as an isolated archipelago with a very recent history of human occupation and consequent destruction.

Type: Chapter
Information: Austral Ark
The State of Wildlife in Australia and New Zealand
, pp. 405 - 421

DOI: https://doi.org/10.1017/CBO9781139519960.021 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2014

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adams, N. J., Parker, K. A., Cockrem, J. F., Brunton, D. H. and Candy, E. J. (2010). Corticosterone responses and post-release survival in translocated North Island Saddlebacks (Philesturnus rufusater) in New Zealand. Emu 110(4): 296–301.CrossRef Google Scholar

Armstrong, D. P. (1995). Effects of familiarity on the outcome of translocations, II. A test using New Zealand robins. Biological Conservation 71: 281–288.CrossRef Google Scholar

Armstrong, D. P. and Craig, J. L. (1995). Effects of familiarity on the outcome of translocations, I. A test using saddlebacks Philesturnus carunculatus rufusater. Biological Conservation 71: 133–141.CrossRef Google Scholar

Armstrong, D. P. and Davidson, R. S. (2006). Developing population models for guiding reintroductions of extirpated bird species back to the New Zealand mainland. New Zealand Journal of Ecology 30(1): 73–85.Google Scholar

Armstrong, D. P. and Ewen, J. G. (2001). Assessing the value of follow-up translocations: a case study using New Zealand robins. Biological Conservation 101(2): 239–247.CrossRef Google Scholar

Armstrong, D. P. and Ewen, J. G. (2002). Dynamics and viability of a New Zealand robin population reintroduced to regenerating fragmented habitat. Conservation Biology 16(4): 1074–1085.CrossRef Google Scholar

Armstrong, D. P. and Reynolds, M. H. (2012). Modelling reintroduced populations: the state of the art and future directions. In Reintroduction Biology: Integrating Science and Management, Ewen, J. G., Armstrong, D. P., Parker, K. and Seddon, P. J. (eds.). Oxford, U.K., Wiley-Blackwell, pp. 165–222.CrossRef Google Scholar

Armstrong, D. P., Castro, I., Alley, J. C., Feenstra, B. and Perrott, J. K. (1999). Mortality and behaviour of hihi, an endangered New Zealand honeyeater, in the establishment phase following translocation. Biological Conservation 89: 329–339.CrossRef Google Scholar

Armstrong, D. P., Raeburn, E. H., Lewis, R. M. and Ravine, D. (2006). Estimating the viability of a reintroduced New Zealand robin population as a function of predator control. Journal of Wildlife Management 70(4): 1020–1027.CrossRef Google Scholar

Atkinson, I. A. E. (1990). Ecological restoration on islands: Prerequisites for success. In Ecological Restoration of New Zealand Islands, Towns, D. R., Daugherty, C. H. and Atkinson, I. A. E. (eds.). Conservation Sciences Publication No.2, Department of Conservation, Wellington.Google Scholar

Atkinson, I. A. E. (2001). Introduced mammals and models for restoration. Biological Conservation 99: 81–96.CrossRef Google Scholar

Atkinson, I. A. E. (2002). Recovery of wildlife and restoration of habitats in New Zealand. Pacific Conservation Biology 8(1): 27–35.CrossRef Google Scholar

Atkinson, I. A. E. and Cameron, E. K. (1993). Human influence on the terrestrial biota and biotic communities of New Zealand. Trends in Ecology & Evolution 8(12): 447–451.CrossRef Google Scholar PubMed

Bellingham, P. J., Towns, D. R., Cameron, E. K., et al. (2010). New Zealand island restoration: sea-birds, predators and the importance of history. New Zealand Journal of Ecology 34(1): 115–136.Google Scholar

Bradley, D. W., Molles, L. E., Valderrama, S. V., King, S. and Waas, J. R. (2012). Factors affecting post-release dispersal, mortality, and territory settlement of endangered kokako translocated from two distinct song neighborhoods. Biological Conservation 147(1): 79–86.CrossRef Google Scholar

Brekke, P., Bennett, P. M., Wang, J., Pettorelli, N. and Ewen, J. G. (2010). Sensitive males: inbreeding depression in an endangered bird. Proceedings of the Royal Society Biological Sciences Series B 277(1700): 3677–3684.CrossRef Google Scholar

Brown, K., Innes, J. and Shorten, R. (1993). Evidence that possums prey on and scavenge birds’ eggs, birds and mammals. Notornis 40: 169–177.Google Scholar

Butler, D. and Merton, D. (1992). The Black Robin: Saving the World’s Most Endangered Bird. Auckland, New Zealand, Auckland University Press.Google Scholar

Campbell, D. J. and Atkinson, I. A. E. (2002). Depression of tree recruitment by the Pacific rat (Rattus exulans Peale) on New Zealand’s northern offshore islands. Biological Conservation 107: 19–35.CrossRef Google Scholar

Case, T. J. (1996). Global patterns in the establishment and distribution of exotic birds. Biological Conservation 78: 69–96.CrossRef Google Scholar

Cassey, P. (2001). Determining variation in the success of New Zealand land-birds. Global Ecology & Biogeography 10: 161–172.CrossRef Google Scholar

Castro, I. (1995). Behavioural ecology and management of hihi (Notiomystis cincta), an endemic New Zealand honeyeater, Massey University.

Castro, I., Alley, J. C., Empson, R. A. and Minot, E. O. (1994). Translocation of hihi or stitchbird Notiomystis cincta to Kapiti Island, New Zealand: transfer techniques and comparison of release strategies. In Reintroduction Biology of Australian and New Zealand Fauna. M. Serena, Surrey Beatty and Sons.Google Scholar

Caughley, G. (1989). New Zealand plant–herbivore systems: past and present. New Zealand Journal of Ecology 12: 3–10.Google Scholar

Clapperton, B. K. and Day, T. D. (2001). Cost-effectiveness of Exclusion Fencing for Stoat and Other Pest Control Compared with Conventional Control. DoC Internal Series 14. Wellington, Department of Conservation.Google Scholar

Clout, M. N. (2001). Where protection is not enough: active conservation in New Zealand. Trends in Ecology & Evolution 16(8): 415–416.CrossRef Google Scholar

Clout, M. N. (2002). Biodiversity loss caused by invasive alien vertebrates. Zeitschrift fuer Jagdwissenschaft 48(Supplement): 51–58.Google Scholar

Conner, R. N., Saenz, D., Schaefer, R. R., et al. (2004). Group size and nest success in Red-cockaded Woodpeckers in the West Gulf Coastal Plain: helpers make a difference. Journal of Field Ornithology 75(1): 74–78.CrossRef Google Scholar

Cooper, A. and Cooper, R. A. (1995). The Oligocene bottleneck and New Zealand biota: genetic record of a past environmental crisis. Proceedings of the Royal Society of London B 261(1362): 293–302.CrossRef Google Scholar PubMed

Cooper, R. A. and Millener, P. R. (1993). The New Zealand biota: historical background and new research. Trends in Ecology and Evolution 8(12): 429–433.CrossRef Google Scholar PubMed

Daugherty, C. H., Gibbs, G. W. and Hitchmough, R. A. (1993). Mega-island or micro-continent? New Zealand and its fauna. Trends in Ecology & Evolution 8(12): 437–442.CrossRef Google Scholar PubMed

Daugherty, C. H., Towns, D. R., Atkinson, I. A. E. and Gibbs, G. (1990). The significance of the biological resources of New Zealand islands for ecological restoration. In Ecological Restoration of New Zealand Islands, Towns, D. R., Daugherty, C. H. and Atkinson, I. A. E. (eds.). Conservation Sciences Publication No.2, Department of Conservation, Wellington.Google Scholar

Derraik, J. G. B., Tompkins, D. M., Alley, M. R., Holder, P. and Atkinson, T. (2008). Epidemiology of an avian malaria outbreak in a native bird species (Mohoua ochrocephala) in New Zealand. Journal of the Royal Society of New Zealand 38(4): 237–242.CrossRef Google Scholar

Diamond, J. M. (1990). New Zealand as an archipelago: an international perspective. In Ecological Restoration of New Zealand Islands, Towns, D. R., Daugherty, C. H. and Atkinson, I. A. E. (eds.). Conservation Sciences Publication No.2, Department of Conservation, Wellington.Google Scholar

Diamond, J. M. and Veitch, C. R. (1981). Extinctions and introductions in the New Zealand avifauna: cause and effect?Science 211(4481): 499–501.CrossRef Google Scholar PubMed

Dowding, J. E. and Murphy, E. C. (2001). The impact of predation by introduced mammals on endemic shore-birds in New Zealand: a conservation perspective. Biological Conservation 99(1): 47–64.CrossRef Google Scholar

Duncan, R. P. B. and Worthy, T. H. (2002). Prehistoric bird extinctions and human hunting. Proceedings: Biological Sciences 269(1490): 517–521.Google Scholar PubMed

Elliott, G. P., Merton, D. V. and Jansen, P. W. (2001). Intensive management of a critically endangered species: the kakapo. Biological Conservation 99: 121–133.CrossRef Google Scholar

Ewen, J. G., Acevedo-Whitehouse, K. and Alley, M. R., Eds. (2012). Empirical consideration of parasites and health in reintroduction. In Reintroduction Biology: Integrating Science and Management. Oxford, UK, Wiley-Blackwell, pp. 290–335.CrossRef

Fischer, J. and Lindenmayer, D. B. (2000). An assessment of the published results of animal relocations. Biological Conservation 96: 1–11.CrossRef Google Scholar

Fleming, C. A. (1962). History of the New Zealand land-bird fauna. Notornis 9(8): 270–275.Google Scholar

Franklin, D. C. and Wilson, K.-J. (2003). Are low reproductive rates characteristic of New Zealand ’s native terrestrial birds? Evidence from the allometry of nesting parameters in altricial species. New Zealand Journal of Zoology 30(3): 185–204.CrossRef Google Scholar

Gaskin, C. P. and Rayner, M. J. (2013). Sea-birds of the Hauraki Gulf: Natural History, Research and Conservation, Hauraki Gulf Forum.

Gibbs, G. (2006). Ghosts of Gondwana: The History of Life in New Zealand. Nelson, Craig Potton Publishing.Google Scholar

Gillies, C. A., Leach, M. R., Coad, N. B., et al. (2003). Six years of intensive pest mammal control at Trounson Kauri Park, a Department of Conservation ‘mainland island’, June 1996 – July 2002. New Zealand Journal of Zoology 30(4): 399–420.CrossRef Google Scholar

Goldberg, J., Trewick, S. A. and Paterson, A. M. (2008). Evolution of New Zealand’s terrestrial fauna: a review of molecular evidence. Philosophical Transactions: Biological Sciences 363(1508): 3319–3334.CrossRef Google Scholar PubMed

Griffith, B., Scott, J. Michael, Carpenter, J. W. and Reed, C. (1989). Translocation as a species conservation tool: status and strategy. Science 245: 477–479.CrossRef Google Scholar PubMed

Holdaway, R. N. (1989). New Zealand’s prehuman avifauna and its vulnerability. New Zealand Journal of Ecology 12: 11–25.Google Scholar

Holdaway, R. N. (1990). Changes in the diversity of New Zealand forest-birds. New Zealand Journal of Zoology 17(3): 309–322.CrossRef Google Scholar

Holdaway, R. N. and Jacomb, C. (2000). Rapid extinction of the Moas (Aves: Dinornithiformes): model, test and implications. Science 287(5461): 2250–2254.CrossRef Google Scholar PubMed

Holdaway, R. N., Worthy, T. H. and Tennyson, A. J. D. (2001). A working list of breeding bird species of the New Zealand region at first human contact. New Zealand Journal of Zoology 28(2): 119–187.CrossRef Google Scholar

Howe, L., Castro, I. C., Schoener, E. R., et al. (2012). Malaria parasites (Plasmodium spp.) infecting introduced, native and endemic New Zealand birds. Parisitology Research 110: 913–923.CrossRef Google Scholar PubMed

Innes, J., Kelly, D., Overton, J. and Gillies, C. (2010). Predation and other factors currently limiting New Zealand forest-birds. New Zealand Journal of Ecology 34(1): 86–114.Google Scholar

Innes, J., Lee, W. G., Burns, B., et al. (2012). Role of predator-proof fences in restoring New Zealand’s biodiversity: a response to Scofield et al. (2011). New Zealand Journal of Ecology 36(2): 232–238.Google Scholar

IUCN (2012). IUCN Red List of Threatened Species. Version 2012.1. Downloaded on 07 August 2012.

Jamieson, I. G. and Ryan, C. J. (2000). Increased egg infertility associated with translocating inbred takahe (Porphyrio hochstetteri) to island refuges in New Zealand. Biological Conservation 94: 107–114.CrossRef Google Scholar

Jamieson, I. G., Tracy, L. N., Fletcher, D. and Armstrong, D. P. (2007). Moderate inbreeding depression in a reintroduced population of North Island robins. Animal Conservation 10(1): 95–102.CrossRef Google Scholar

Keast, A. (1971). Continental drift and the evolution of the biota on southern continents. The Quarterly Review of Biology 46(4): 335–378.CrossRef Google Scholar

King, C. M. (1990). The Handbook of New Zealand Mammals. Auckland, New Zealand, Oxford University Press.Google Scholar

Leech, T., Craig, E., Beaven, B., Mitchell, D. K. and Seddon, P. J. (2007). Reintroduction of rifleman Acanthisitta chloris to Ulva Island, New Zealand: evaluation of techniques and population persistence. Oryx 41(3): 369–375.CrossRef Google Scholar

Lever, C. (2005). Naturalised Birds of the World. London, U.K., Poyser.Google Scholar

Lloyd, B. D. and Powlesland, R. G. (1994). The decline of kakapo Strigops habroptilus and attempts at conservation by translocation. Biological Conservation 69(1): 75–85.CrossRef Google Scholar

Long, J. L. (1981). Introduced Birds of the World: the Worldwide History, Distribution and Influence of Birds Introduced to New Environments. Terrey Hills, NSW, Reed.Google Scholar

Lovegrove, T. G. (1996). Island releases of saddlebacks Philesturnus carunculatus in New Zealand. Biological Conservation 77(2–3): 151–157.CrossRef Google Scholar

Lovegrove, T. G. and Veitch, C. R. (1994). Translocating wild forest-birds. Ecological Management 2: 23–35.Google Scholar

Mackintosh, M. A. B. (2005). High levels of hatching failure in an insular population of the South Island robin: a consequence of food limitation?Biological Conservation 122: 409–416.CrossRef Google Scholar

Masuda, B. M. and Jamieson, I. G. (2012). Age-specific differences in settlement rates of saddlebacks (Philesturnus carunculatus) reintroduced to a fenced mainland sanctuary. New Zealand Journal of Ecology 36(2): 123–130.Google Scholar

McDowall, R. M. (2008). Process and pattern in the biogeography of New Zealand – a global microcosm?Journal of Biogeography 35: 197–212.CrossRef Google Scholar

McGlone, M. S. (1989). The polynesian settlement of New Zealand in relation to environmental and biotic changes. New Zealand Journal of Ecology 12: 115–129.Google Scholar

McLennan, J. A., Potter, M. A., Robertson, H. A., et al. (1996). Role of predation in the decline of kiwi, Apteryx spp., in New Zealand. New Zealand Journal of Ecology 20(1): 27–35.Google Scholar

Miskelly, C. M. and Powlesland, R. G. (2013). Conservation translocation of New Zealand birds, 1863–2012. Notornis 60: 3–28.Google Scholar

Miskelly, C. M., Taylor, G. A., Gummer, H. and Williams, R. (2009). Translocations of eight species of burrow-nesting sea-birds (genera Pterodroma, Pelecanoides, Pachyptila and Puffinus: Family Procellaridae). Biological Conservation 142: 1965–1980.CrossRef Google Scholar

Nugent, G., Fraser, W. and Sweetapple, P. (2001). Top down or bottom up? Comparing the impacts of introduced arboreal possums and ‘terrestrial’ ruminants on native forests in New Zealand. Biological Conservation 99: 65–79.CrossRef Google Scholar

Osborne, P. E. and Seddon, P. J., Eds. (2012). Selecting suitable habitats for reintroductions: variation, change and the role of species distribution modelling. In Reintroduction Biology: Integrating Science and Management. Oxford, UK, Wiley-Blackwell, pp. 73–104.CrossRef

Owens, I. P. F. and Bennett, P. M. (2000). Ecological basis of extinction risk in birds: habitat loss versus human persecution and introduced predators. PNAS 97(22): 12 144–12 148.CrossRef Google Scholar PubMed

Parkes, J. and Murphy, E. (2003). Management of introduced mammals in New Zealand. New Zealand Journal of Zoology 30(4): 335–359.CrossRef Google Scholar

Reed, C. E. M., Murray, D. P. and Butler, D. J. (1993). Black Stilt Recovery Plan (Himantopus novaezealandiae). Threatened Species Recovery Plan Series No.4. Wellington, Department of Conservation.Google Scholar

Rickett, J., Dey, C. J., Stothart, J., et al. (2013). The influence of supplemental feeding on survival, dispersal and competition in translocated Brown Teal, or Pateke (Anas chlorotis). Emu 113(1): 62–68.CrossRef Google Scholar

Robertson, C. J. R. (1985). Reader’s Digest Complete Book of New Zealand Birds. Sydney, Reader’s Digest Services Pty Ltd.Google Scholar

Rowe, S. J. (2007). The influence of geographic variation in song dialect on post-translocation pair formation in North Island kokako (Callaeas cinerea wilsoni). Notornis 54: 28–37.Google Scholar

Saunders, A. and Norton, D. A. (2001). Ecological restoration at mainland islands in New Zealand. Biological Conservation 99(1): 109–119.CrossRef Google Scholar

Simberloff, D. (1990). Reconstructing the ambiguous: can island ecosystems be restored? In Ecological Restoration of New Zealand Islands, Towns, D. R., Daugherty, C. H. and Atkinson, I. A. E. (eds.). Conservation Sciences Publication No.2, Department of Conservation, Wellington.Google Scholar

Starling-Windhof, A., Massaro, M. and Briskie, J. V. (2011). Differential effects of exotic predator control on nest success of native and introduced birds in New Zealand. Biological Invasions 13: 1021–1028.CrossRef Google Scholar

Taylor, S. S., Jamieson, I. G. and Armstrong, D. P. (2005). Successful island reintroductions of New Zealand robins and saddlebacks with small numbers of founders. Animal Conservation 8: 415–420.CrossRef Google Scholar

Towns, D. R. (2011). Eradications of vertebrate pests from islands around New Zealand: what have we delivered and what have we learned? In Island Invasives: Eradication and Management. Veitch, C. R., Clout, M. N. and Towns, D. R. (eds.). IUCN, Gland, Switzerland.Google Scholar

Towns, D. R. and Ballantine, W. J. (1993). Conservation and restoration of New Zealand ecosystems. Trends in Ecology & Evolution 8(12): 452–457.CrossRef Google Scholar PubMed

Towns, D. R., Wardle, D. A., Mulder, C., et al. (2009). Predation of sea-birds by invasive rats: multiple indirect consequences for invertebrate communities. Oikos 118: 420–430.CrossRef Google Scholar

Trewick, S. A. and Gibb, G. C. (2010). Vicars, tramps and assembly of the New Zealand avifauna: a review of molecular phylogenetic evidence. Ibis 152: 226–253.CrossRef Google Scholar

Wallis, G. P. and Trewick, S. A. (2009). New Zealand phylogeography: evolution on a small continent. Molecular Ecology 18: 3548–3580.CrossRef Google Scholar PubMed

Wickes, C., Crouchley, D. and Maxwell, J. (2009). Takahe (Porphyrio hochstetteri) Recovery Plan. Threatened Species Recovery Plan No. 61. Wellington, Department of Conservation.Google Scholar

Wilson, K.-J. (1997). Extinct and introduced vertebrate species in New Zealand: a loss of biodistinctiveness and gain in biodiversity. Pacific Conservation Biology 3(3): 301–305.CrossRef Google Scholar

Wilson, P. R., Karl, B. J., Toft, R. J., Beggs, J. R. and Taylor, R. H. (1998). The role of introduced predators and competitors in the decline of kaka (Nestor meridionalis) populations in New Zealand. Biological Conservation 83(2): 175–185.CrossRef Google Scholar

Wolf, C. M., Griffith, B., Reed, C. and Temple, S. A. (1996). Avian and mammalian translocations: Update and reanalysis of 1987 survey data. Conservation Biology 10(4): 1142–1154.CrossRef Google Scholar

Book contents

Chapter 19 - Isolation, invasion and innovation: forces of change in the conservation of New Zealand birds

Summary

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive