A review of biodiversity outcomes from possum-focused pest control in New Zealand
Andrea E. Byrom A C E , John Innes B and Rachelle N. Binny A C DA Landcare Research-Manaaki Whenua, PO Box 69040, Lincoln 7640, New Zealand.
B Landcare Research-Manaaki Whenua, Private Bag 3127, Hamilton 3240, New Zealand.
C Te Pūnaha Matatini Centre of Research Excellence, University of Auckland, Private Bag 92019, Auckland 1011, New Zealand.
D Biomathematics Research Centre, University of Canterbury, Private Bag 4800, Christchurch 8140, New Zealand.
E Corresponding author. Email: byroma@landcareresearch.co.nz
Wildlife Research 43(3) 228-253 https://doi.org/10.1071/WR15132
Submitted: 1 July 2015 Accepted: 10 March 2016 Published: 3 June 2016
Abstract
Worldwide, introduced vertebrate pests impact primary production, native biodiversity, and human health. In New Zealand, extensive pest control (~10 million ha) is undertaken to protect native biota and to prevent losses to the primary sector from wildlife vectors of bovine tuberculosis (TB), primarily possums (Trichosurus vulpecula). Control is conducted by TBfree New Zealand and by conservation agencies. Remote, forested terrain is treated using the toxin 1080 via aerial delivery in bait with a return time of ~5 years. Ground-based control is conducted annually using traps and/or poison bait. Possums are controlled to very low abundance by these operations. Aerial 1080 is effective against another forest-dwelling vertebrate pest, the ship rat (Rattus rattus). Possum control has reduced TB rates, but collateral benefits for native biodiversity have not been quantified, making it difficult to demonstrate a return on investment. We review information from 47 accounts of responses of native biota to possum control. Of these, 60% quantified responses to aerial 1080; the remainder were ground-based. Possum control benefited vegetation by increasing foliage and fruit production, and by reducing tree mortality. Controlling ship rats and possums together improved bird populations, but rats recovered rapidly and long-term outcomes for rat-vulnerable birds are unknown. Large-bodied invertebrates also benefited from extensive pest control. We conducted a meta-analysis of 84 response measures from 35 of these 47 studies in order to provide a quantitative assessment of these findings. The analysis demonstrated that both ground and aerial control of this invasive pest in New Zealand has provided substantial collateral benefits for native biota. Few studies have taken advantage of decades of extensive pest control in New Zealand to monitor ecosystem-level outcomes, which have received only short-term attention thus far. Non-treatment experimental controls and replicate sites that enable validated assessments of outcomes for native biota are vital. Future studies would benefit from a standardised set of biodiversity indicators from a range of taxonomic and functional groupings, and from standardising experimental designs so individual studies can contribute to future meta-analyses, to strengthen the evidence base for the impacts of invasive pests on native biota in New Zealand and worldwide.
Additional keywords: biodiversity, invasive mammal impacts, mesopredator release, mustelid, pest management, possum, predation, rodent, tuberculosis, vertebrate pest control.
References
Animal Health Board (2011). Animal Health Board Annual Report 2010/11. pp. 1–67. Wellington, New Zealand. Available at http://www.tbfree.org.nz/Portals/0/AHB%20Annual%20Report_web.pdf.Alterio, N. (1996). Secondary poisoning of stoats (Mustela erminea), feral ferrets (Mustela furo), and feral house cats (Felis catus) by the anticoagulant poison, brodifacoum. New Zealand Journal of Zoology 23, 331–338.
| Secondary poisoning of stoats (Mustela erminea), feral ferrets (Mustela furo), and feral house cats (Felis catus) by the anticoagulant poison, brodifacoum.Crossref | GoogleScholarGoogle Scholar |
Alterio, N., Brown, K., and Moller, H. (1997). Secondary poisoning of mustelids in a New Zealand Nothofagus forest. Journal of Zoology 243, 863–869.
| Secondary poisoning of mustelids in a New Zealand Nothofagus forest.Crossref | GoogleScholarGoogle Scholar |
Anderson, D., Ramsey, D., de Lisle, G., Bosson, M., Cross, M., and Nugent, G. (2015). Development of integrated surveillance systems for the management of tuberculosis in New Zealand wildlife. New Zealand Veterinary Journal , .
| Development of integrated surveillance systems for the management of tuberculosis in New Zealand wildlife.Crossref | GoogleScholarGoogle Scholar | 25263814PubMed |
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. The Journal of Wildlife Management 70, 1020–1027.
| Estimating the viability of a reintroduced New Zealand robin population as a function of predator control.Crossref | GoogleScholarGoogle Scholar |
Baber, M. J., Babbitt, K. J., Brejaart, R., Ussher, G. T., DiManno, N., and Sexton, G. (2008). Does mammalian pest control benefit New Zealand’s Hochstetter’s frog (Leiopelma hochstetteri)? In ‘Conserv-Vision Conference Proceedings, The University of Waikato, Hamilton, New Zealand’. pp. 1–12. (Eds B. Clarkson, P. Kurian, T. Nachowitz and H. Rennie.) Available at http://www.waikato.ac.nz/fass/Conserv-Vision/proceedings/Baber%20et%20al.pdf
Bellingham, P. J., and Lee, W. G. (2006). Distinguishing natural processes from impacts of invasive mammalian herbivores. In ‘Biological Invasions in New Zealand. Ecological Studies no. 186’. pp. 323–336. (Eds R. B. Allen and W. G. Lee.) (Springer-Verlag: Berlin.)
Bellingham, P. J., Stewart, G. H., and Allen, R. B. (1999a). Tree species richness and turnover throughout New Zealand forests. Journal of Vegetation Science 10, 825–832.
| Tree species richness and turnover throughout New Zealand forests.Crossref | GoogleScholarGoogle Scholar |
Bellingham, P. J., Wiser, S. K., Hall, G. M. J., Alley, J. C., Allen, R. B., and Suisted, P. A. (1999b). Impacts of possum browsing on the long-term maintenance of forest biodiversity. Science for Conservation series publication no. 103. Department of Conservation, Wellington, New Zealand.
Bellingham, P. J., Towns, D. R., Cameron, E. K., Davis, J. J., and Wardle, D. A. (2010). New Zealand island restoration: seabirds, predators, and the importance of history. New Zealand Journal of Ecology 34, 115–136.
Benfield, W. F. (2011). Sodium monofluoroacetate (1080). New Zealand Journal of Forestry 56, 9–10.
Booth, L. H., and Wickstrom, M. L. (1999). The toxicity of sodium monofluoroacetate (1080) to Huberia striata, a New Zealand native ant. New Zealand Journal of Ecology 23, 161–165.
(a) Brown, K., and Urlich, S. (2005). Aerial 1080 operations to maximise biodiversity protection. Research & Development Series publication no. 216. Department of Conservation, Wellington, New Zealand.
Burns, B. R., Floyd, C. G., Smale, M. C., and Arnold, G. C. (2011). Effects of forest fragment maintenance on vegetation condition and maintenance of canopy composition in a New Zealand pastoral landscape. Austral Ecology 36, 153–166.
| Effects of forest fragment maintenance on vegetation condition and maintenance of canopy composition in a New Zealand pastoral landscape.Crossref | GoogleScholarGoogle Scholar |
Burns, B., Innes, J., and Day, T. (2012). The use and potential of pest-proof fencing for ecosystem restoration and fauna conservation in New Zealand. In ‘Fencing for Conservation: Restriction of Evolutionary Potential or a Riposte to Threatening Processes?’ pp. 65–90. (Eds M. J. Somers and M. E. Hayward.) (Springer Science+Business Media, LLC: New Zealand.)
Byrom, A. E. (2002). Dispersal and survival of juvenile feral ferrets Mustela furo in New Zealand. Journal of Applied Ecology 39, 67–78.
| Dispersal and survival of juvenile feral ferrets Mustela furo in New Zealand.Crossref | GoogleScholarGoogle Scholar |
Byrom, A. E., Caley, P., Paterson, B., and Nugent, G. (2015). Wild ferrets as hosts and sentinels of tuberculosis in New Zealand. New Zealand Veterinary Journal , .
| Wild ferrets as hosts and sentinels of tuberculosis in New Zealand.Crossref | GoogleScholarGoogle Scholar | 25495945PubMed |
Caley, P., Hickling, G. J., Cowan, P. E., and Pfeiffer, D. U. (1999). Effects of sustained control of brushtail possums on levels of Mycobacterium bovis infection in cattle and brushtail possum populations from Hohotaka, New Zealand. New Zealand Veterinary Journal 47, 133–142.
| Effects of sustained control of brushtail possums on levels of Mycobacterium bovis infection in cattle and brushtail possum populations from Hohotaka, New Zealand.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD2MznsVSjug%3D%3D&md5=fb96b0ad67158682bbecc23b03b099f1CAS | 16032090PubMed |
Clayton, R., and Cowan, P. E. (2010). Management of animal and plant pests in New Zealand – patterns of control and monitoring by regional agencies. Wildlife Research 37, 360–371.
| Management of animal and plant pests in New Zealand – patterns of control and monitoring by regional agencies.Crossref | GoogleScholarGoogle Scholar |
Clout, M. N., Denyer, K., James, R. E., and McFadden, I. G. (1995). Breeding success of New Zealand pigeons (Hemiphaga novaeseelandiae) in relation to control of introduced mammals. New Zealand Journal of Ecology 19, 209–212.
Coleman, J., and Caley, P. (2000). Possums as a reservoir of bovine TB. In ‘The Brushtail Possum. Biology, Impact and Management of an Introduced Marsupial’. pp. 92–104. (Ed. T. L. Montague.) (Manaaki Whenua Press: Lincoln, New Zealand.)
Cowan, P. E. (1991). Effects of introduced Australian brushtail possums (Trichosurus vulpecula) on the fruiting of the endemic New Zealand nikau palm (Rhopalostylis sapida). New Zealand Journal of Botany 29, 91–93.
| Effects of introduced Australian brushtail possums (Trichosurus vulpecula) on the fruiting of the endemic New Zealand nikau palm (Rhopalostylis sapida).Crossref | GoogleScholarGoogle Scholar |
Cowan, P. E., and Waddington, D. C. (1990). Suppression of fruit production of the endemic forest tree, Elaeocarpus dentatus, by introduced marsupial brushtail possums, Trichosurus vulpecula. New Zealand Journal of Botany 28, 217–224.
| Suppression of fruit production of the endemic forest tree, Elaeocarpus dentatus, by introduced marsupial brushtail possums, Trichosurus vulpecula.Crossref | GoogleScholarGoogle Scholar |
Dennis, G. C., and Gartrell, B. D. (2015). Non target mortality of New Zealand lesser short-tailed bats (Mystacina tuberculata) caused by diphacenone. Journal of Wildlife Diseases 51, 177–186.
| Non target mortality of New Zealand lesser short-tailed bats (Mystacina tuberculata) caused by diphacenone.Crossref | GoogleScholarGoogle Scholar | 25375946PubMed |
Didham, R. K., Barker, G. M., Costall, J. A., Denmead, L. H., Floyd, C. G., and Watts, C. H. (2009). The interactive effects of livestock exclusion and mammalian pest control on the restoration of invertebrate communities in small forest remnants. New Zealand Journal of Zoology 36, 135–163.
| The interactive effects of livestock exclusion and mammalian pest control on the restoration of invertebrate communities in small forest remnants.Crossref | GoogleScholarGoogle Scholar |
Dijkgraaf, A. C. (2002). Phenology and frugivory of large-fruited species in northern New Zealand and the impacts of introduced mammals. Ph.D. thesis, School of Biological Sciences, University of Auckland, New Zealand.
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 |
Duncan, R. P., Holland, E. P., Pech, R. P., Barron, M., Nugent, G., and Parkes, J. P. (2011). The relationship between possum density and browse damage on kamahi in New Zealand forests. Austral Ecology 36, 858–869.
| The relationship between possum density and browse damage on kamahi in New Zealand forests.Crossref | GoogleScholarGoogle Scholar |
Eason, C. T., Miller, A. M., Ogilvie, S. C., and Fairweather, A. (2011). An updated review of the toxicology and ecotoxicology of sodium fluoroacetate (1080) in relation to its use as a pest control tool in New Zealand. New Zealand Journal of Ecology 35, 1–20.
Forsyth, D. M., and Parkes, J. P. (2005). Browse on mahoe and kamahi leaf-fall as a trigger for possum control. New Zealand Journal of Ecology 29, 311–320.
Gillies, C. A., Leach, M. R., Coad, N. B., Theobald, S. W., Campbell, J., Herbert, T., Graham, P. J., and Pierce, R. J. (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, 399–420.
| Six years of intensive pest mammal control at Trounson Kauri Park, a Department of Conservation “mainland island”, June 1996-July 2002.Crossref | GoogleScholarGoogle Scholar |
Glen, A. S., Pech, R. P., and Byrom, A. E. (2013). Managing invasive species: towards an integrated landscape approach. Biological Invasions 15, 2127–2138.
Gormley, A. M., Pech, R. P., Holland, E. P., Thomson, C., and Reddiex, B. (2012). Impacts of an invasive herbivore on indigenous forests. Journal of Applied Ecology 49, 1296–1305.
| Impacts of an invasive herbivore on indigenous forests.Crossref | GoogleScholarGoogle Scholar |
Greene, T. C. (1998). The effects of compound 1080 on populations of specific non-target species, Waihaha Ecological Area, Pureora Forest Park, Winter 1994. Science for Conservation series 69. Department of Conservation, Wellington, New Zealand.
Haigh, A., Daglish, L., Pledger, S., and Holzapfel, A. (2010). How has a population of the critically endangered Archey’s frog (Leiopelma archeyi) responded to release from introduced ship rat (Rattus rattus) predation? Preliminary results 2005-08. Proceedings of the 2nd meeting of the Australasian Societies for Herpetology; Massey University, Auckland, 20-22 February 2009. New Zealand Journal of Zoology 37, 78.
Hamilton, B. (2009). Long-term benefits of aerial 1080 operations on South Island tomtits (Petroica macrocephala macrocephala). Ecological Networks Report EN9-2. Animal Health Board research reports, Wellington, New Zealand.
Hedges, L. V., Gurevitch, J., and Curtis, P. S. (1999). The meta-analysis of response ratios in experimental ecology. Ecology 80, 1150–1156.
| The meta-analysis of response ratios in experimental ecology.Crossref | GoogleScholarGoogle Scholar |
Hoare, J. M., and Hare, K. M. (2006). The impact of brodifacoum on non-target wildlife: gaps in knowledge. New Zealand Journal of Ecology 30, 157–168.
Hoare, J. M., Monks, A., and O’Donnell, C. F. J. (2013). Do population indicators work? Investigating correlated responses of bird populations in relation to predator management. Ecological Indicators 25, 23–34.
| Do population indicators work? Investigating correlated responses of bird populations in relation to predator management.Crossref | GoogleScholarGoogle Scholar |
Holland, E. P., Pech, R. P., Ruscoe, W. A., and Duncan, R. P. (2013). Thresholds for forest management: predicting tree mortality due to herbivore browse damage. Oecologia 172, 751–766.
| Thresholds for forest management: predicting tree mortality due to herbivore browse damage.Crossref | GoogleScholarGoogle Scholar | 23188054PubMed |
Holland, E. P., James, A., Ruscoe, W. A., Pech, R. P., and Byrom, A. E. (2015). Climate-based models for pulsed resources improve predictability of consumer population dynamics: outbreaks of house mice in forest ecosystems. PLoS One 10, e0119139.
| Climate-based models for pulsed resources improve predictability of consumer population dynamics: outbreaks of house mice in forest ecosystems.Crossref | GoogleScholarGoogle Scholar | 25785866PubMed |
Holmes, N. D., Campbell, K. J., Keitt, B. S., Griffiths, R., Beek, J., Donlan, C. J., and Broome, K. G. (2015). Reporting costs for invasive vertebrate eradications. Biological Invasions 17, 2913–2925.
| Reporting costs for invasive vertebrate eradications.Crossref | GoogleScholarGoogle Scholar |
Hunt, M., Sherley, G., and Wakelin, M. (1998). Results of a pilot study to detect benefits to large-bodied invertebrates from sustained regular poisoning of rodents and possums at Karioi, Ohakune. Science for Conservation series publication no. 102. Department of Conservation, Wellington, New Zealand.
Hutcheson, J., and Crabtree, R. (1994). A preliminary comparison of Malaise trapped beetles from tawa forest sites with varied management in the Onaia Ecological Area. Project no. 4058, Unpublished Record. New Zealand Forest Research Institute, Lincoln, New Zealand.
Hutchings, S. A., Hancox, N., and Livingstone, P. G. (2013). A strategic approach to eradication of bovine TB from wildlife in New Zealand. Transboundary and Emerging Diseases 60, 85–91.
| A strategic approach to eradication of bovine TB from wildlife in New Zealand.Crossref | GoogleScholarGoogle Scholar | 24171853PubMed |
Innes, J., and Barker, G. (1999). Ecological consequences of toxin use for mammalian pest control in New Zealand – an overview. New Zealand Journal of Ecology 23, 111–127.
Innes, J., Warburton, B., Williams, D., Speed, H., and Bradfield, P. (1995). Large-scale poisoning of ship rats (Rattus rattus) in indigenous forests of the North Island, New Zealand. New Zealand Journal of Ecology 19, 5–17.
Innes, J., Hay, R., Flux, I., Bradfield, P., Speed, H., and Jansen, P. (1999). Successful recovery of North Island kokako Callaeas cinerea wilsoni populations, by adaptive management. Biological Conservation 87, 201–214.
| Successful recovery of North Island kokako Callaeas cinerea wilsoni populations, by adaptive management.Crossref | GoogleScholarGoogle Scholar |
Innes, J., Nugent, G., Prime, K., and Spurr, E. B. (2004). Responses of kukupa (Hemiphaga novaeseelandiae) and other birds to mammal pest control at Motatau, Northland. New Zealand Journal of Ecology 28, 73–81.
Innes, J., Kelly, D., Overton, J. M. C., and Gillies, C. (2010). Predation and other factors currently limiting New Zealand forest birds. New Zealand Journal of Ecology 34, 86–114.
Jones, C., Barron, M., Warburton, B., Coleman, M., Lyver, P., and Nugent, G. (2012). Serving two masters: reconciling economic and biodiversity outcomes of brushtail possum (Trichosurus vulpecula) fur harvest in an indigenous New Zealand forest. Biological Conservation 153, 143–152.
| Serving two masters: reconciling economic and biodiversity outcomes of brushtail possum (Trichosurus vulpecula) fur harvest in an indigenous New Zealand forest.Crossref | GoogleScholarGoogle Scholar |
Juliá, R., Holland, D. W., and Guenthner, J. (2007). Assessing the economic impact of invasive species: the case of yellow starthistle (Centaurea solstitialis L.) in the rangelands of Idaho, USA. Journal of Environmental Management 85, 876–882.
| Assessing the economic impact of invasive species: the case of yellow starthistle (Centaurea solstitialis L.) in the rangelands of Idaho, USA.Crossref | GoogleScholarGoogle Scholar | 17257736PubMed |
Kelly, D., Ladley, J. J., Robertson, A. W., Anderson, S. H., Wotton, D. M., and Wiser, S. K. (2010). Mutualisms with the wreckage of an avifauna: the status of bird pollination and fruit-dispersal in New Zealand. New Zealand Journal of Ecology 34, 66–85.
Kelly, D., Geldenhuis, A., James, A., Holland, E. P., Plank, M. J., Brockie, R. E., Cowan, P. E., Harper, G. A., Lee, W. G., Maitland, M. J., Mark, A. F., Mills, J. A., Wilson, P. R., and Byrom, A. E. (2013). Of mast and mean: differential-temperature cue makes mast seeding insensitive to climate change. Ecology Letters 16, 90–98.
| Of mast and mean: differential-temperature cue makes mast seeding insensitive to climate change.Crossref | GoogleScholarGoogle Scholar | 23113938PubMed |
King, C. M. (2005). ‘The Handbook of New Zealand Mammals.’ (Oxford University Press: Melbourne.)
King, C. M., Innes, J. G., Gleeson, D., Fitzgerald, N., Winstanley, T., O’Brien, B., Bridgman, L., and Cox, N. (2011). Reinvasion by ship rats (Rattus rattus) of forest fragments after eradication. Biological Invasions 13, 2391–2408.
| Reinvasion by ship rats (Rattus rattus) of forest fragments after eradication.Crossref | GoogleScholarGoogle Scholar |
Laycock, H. F., Moran, D., Smart, J. C. R., Raffaelli, D. G., and White, P. C. L. (2011). Evaluating the effectiveness and efficiency of biodiversity conservation spending. Ecological Economics 70, 1789–1796.
| Evaluating the effectiveness and efficiency of biodiversity conservation spending.Crossref | GoogleScholarGoogle Scholar |
Leathwick, J. R., Overton, J. M., and McLeod, M. (2003). An environmental domain classification of New Zealand and its use as a tool for biodiversity management. Conservation Biology 17, 1612–1623.
| An environmental domain classification of New Zealand and its use as a tool for biodiversity management.Crossref | GoogleScholarGoogle Scholar |
Lee, W., McGlone, M., and Wright, E. (2005). Biodiversity inventory and monitoring: a review of national and international systems and a proposed framework for future biodiversity monitoring by the Department of Conservation. Contract Report no. LC0405/122. Landcare Research, Lincoln, New Zealand.
Lettink, M., and Cree, A. (2006). Predation, by the feral house mouse (Mus musculus), of McCann’s skinks (Oligosoma maccanni) constrained in pitfall traps. Herpetofauna 36, 61–62.
Livingstone, P., Nugent, G., de Lisle, G., and Hancox, N. (2015). Toward eradication: the effect of Mycobacterium bovis infection in wildlife on the evolution and future direction of bovine tuberculosis management in New Zealand. New Zealand Veterinary Journal , .
| Toward eradication: the effect of Mycobacterium bovis infection in wildlife on the evolution and future direction of bovine tuberculosis management in New Zealand.Crossref | GoogleScholarGoogle Scholar | 25651829PubMed |
Lloyd, B. D., and McQueen, S. M. (2000). An assessment of the probability of secondary poisoning of forest insectivores following an aerial 1080 possum control operation. New Zealand Journal of Ecology 24, 47–56.
Macinnis-Ng, C., and Schwendenmann, L. (2015). Litterfall, carbon and nitrogen cycling in a southern hemisphere conifer forest dominated by kauri (Agathis australis) during drought. Plant Ecology 216, 247–262.
| Litterfall, carbon and nitrogen cycling in a southern hemisphere conifer forest dominated by kauri (Agathis australis) during drought.Crossref | GoogleScholarGoogle Scholar |
Mack, R. N., Simberloff, D., Lonsdale, W. M., Evans, H., Clout, M., and Bazzaz, F. A. (2000). Biotic invasions: causes, epidemiology, global consequences, and control. Ecological Applications 10, 689–710.
| Biotic invasions: causes, epidemiology, global consequences, and control.Crossref | GoogleScholarGoogle Scholar |
MacLeod, C., Blackwell, G., Moller, H., and Innes, J. (2008). The forgotten 60%: bird ecology and management in New Zealand’s agricultural landscape. New Zealand Journal of Ecology 32, 240–255.
Morgan, D. R. (2004). Maximising the effectiveness of aerial 1080 control of possums (Trichosurus vulpecula). Ph.D. thesis, Lincoln University, Lincoln, New Zealand.
Murphy, M. T. (2003). Avian population trends within the evolving agricultural landscape of Eastern and Central United States. The Auk 120, 20–34.
| Avian population trends within the evolving agricultural landscape of Eastern and Central United States.Crossref | GoogleScholarGoogle Scholar |
Murphy, E., and Bradfield, P. (1992). Change in diet of stoats following poisoning of rats in a New Zealand forest. New Zealand Journal of Ecology 16, 137–140.
Murphy, E. C., Robbins, L., Young, J. B., and Dowding, J. E. (1999). Secondary poisoning of stoats after an aerial 1080 poison operation in Pureora Forest, New Zealand. New Zealand Journal of Ecology 23, 175–182.
Murphy, E. C., Keedwell, R. J., Brown, K. P., and Westbrooke, I. (2004). Diet of mammalian predators in braided river beds in the central South Island, New Zealand. Wildlife Research 31, 631–638.
| Diet of mammalian predators in braided river beds in the central South Island, New Zealand.Crossref | GoogleScholarGoogle Scholar |
Myers, J. H., Simberloff, D., Kuris, A. M., and Carey, J. R. (2000). Eradication revisited: dealing with exotic species. Trends in Ecology & Evolution 15, 316–320.
Naidoo, R., Balmford, A., Ferraro, P. J., Polasky, S., Ricketts, T. H., and Rouget, M. (2006). Integrating economic costs into conservation planning. Trends in Ecology & Evolution 21, 681–687.
| Integrating economic costs into conservation planning.Crossref | GoogleScholarGoogle Scholar |
Nájera-Hillman, E., King, P., Alfaro, A. C., and Breen, B. B. (2009). Effect of pest-management operations on the abundance and size-frequency distribution of the New Zealand endemic frog Leiopelma hochstetteri. New Zealand Journal of Zoology 36, 389–400.
| Effect of pest-management operations on the abundance and size-frequency distribution of the New Zealand endemic frog Leiopelma hochstetteri.Crossref | GoogleScholarGoogle Scholar |
Norbury, G. L., Byrom, A. E., Pech, R. P., Smith, J., Clarke, D., Anderson, D. P., and Forrester, G. (2013). Invasive mammals and habitat modification interact to generate unforeseen outcomes for indigenous fauna. Ecological Applications 23, 1707–1721.
| Invasive mammals and habitat modification interact to generate unforeseen outcomes for indigenous fauna.Crossref | GoogleScholarGoogle Scholar |
Norton, D. A., and Warburton, B. (2015). The potential for biodiversity offsetting to fund effective invasive species control. Conservation Biology 29, 5–11.
| The potential for biodiversity offsetting to fund effective invasive species control.Crossref | GoogleScholarGoogle Scholar | 25047072PubMed |
Nugent, G., Whitford, J., Innes, J., and Prime, K. (2002). Rapid recovery of kohekohe (Dysoxylum spectabile) following possum control. New Zealand Journal of Ecology 26, 73–79.
Nugent, G., Whitford, J., Sweetapple, P., Duncan, R., and Holland, P. (2010). Effect of one-hit control on the density of possums (Trichosurus vulpecula) and their impacts on native forest. Science for Conservation 304. Department of Conservation, Wellington, New Zealand.
Nugent, G., Warburton, B., Thomson, C., Sweetapple, P. J., and Ruscoe, W. A. (2011). Effect of prefeeding, sowing rate and sowing pattern on efficacy of aerial 1080 poisoning of small-mammal pests in New Zealand. Wildlife Research 38, 249–259.
| Effect of prefeeding, sowing rate and sowing pattern on efficacy of aerial 1080 poisoning of small-mammal pests in New Zealand.Crossref | GoogleScholarGoogle Scholar |
Nugent, G., Buddle, B. M., and Knowles, G. (2015). Epidemiology and control of Mycobacterium bovis infection in brushtail possums (Trichosurus vulpecula), the primary wildlife host of bovine tuberculosis in New Zealand. New Zealand Veterinary Journal , .
| Epidemiology and control of Mycobacterium bovis infection in brushtail possums (Trichosurus vulpecula), the primary wildlife host of bovine tuberculosis in New Zealand.Crossref | GoogleScholarGoogle Scholar | 25651829PubMed |
O’Donnell, C. F. J., and Hoare, J. M. (2012). Quantifying the benefits of long-term integrated pest control for forest bird populations in a New Zealand temperate rainforest. New Zealand Journal of Ecology 36, 131–140.
O’Donnell, C. F. J., Christie, J. E., Hitchmough, R. A., Lloyd, B., and Parsons, S. (2010). The conservation status of New Zealand bats, 2009. New Zealand Journal of Zoology 37, 297–311.
| The conservation status of New Zealand bats, 2009.Crossref | GoogleScholarGoogle Scholar |
Osenberg, C. W., Sarnelle, O., and Cooper, S. D. (1997). Effect size in ecological experiments: the application of biological models in meta-analysis. American Naturalist 150, 798–812.
| Effect size in ecological experiments: the application of biological models in meta-analysis.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD1cnit1yitQ%3D%3D&md5=fe506f528b99e9a56886e1b5712ed7c8CAS | 18811337PubMed |
Parkes, J. P., and Murphy, E. (2003). Management of introduced mammals in New Zealand. New Zealand Journal of Zoology 30, 335–359.
| Management of introduced mammals in New Zealand.Crossref | GoogleScholarGoogle Scholar |
Parkes, J. P., and Panetta, F. D. (2009). Eradication of invasive species: progress and emerging issues in the 21st century. In ‘Invasive Species Management: a Handbook of Principles and Techniques’. pp. 47–60. (Eds M. N. Clout and P. Williams.) (Oxford University Press: Oxford.)
Parkes, J. P., Robley, A., Forsyth, D. M., and Choquenot, D. (2006). Adaptive management experiments in vertebrate pest control in New Zealand and Australia. Wildlife Society Bulletin 34, 229–236.
| Adaptive management experiments in vertebrate pest control in New Zealand and Australia.Crossref | GoogleScholarGoogle Scholar |
Pawson, S. M., Ecroyd, C. E., Seaton, R., Shaw, W. B., and Brockerhoff, E. G. (2010). New Zealand’s exotic plantation forests as habitats for threatened indigenous species. New Zealand Journal of Ecology 34, 342–355.
Payton, I. J., Forrester, L., Frampton, C. M., and Thomas, M. D. (1997). Response of selected tree species to culling of introduced Australian brushtail possums Trichosurus vulpecula at Waipoua Forest, Northland, New Zealand. Biological Conservation 81, 247–255.
| Response of selected tree species to culling of introduced Australian brushtail possums Trichosurus vulpecula at Waipoua Forest, Northland, New Zealand.Crossref | GoogleScholarGoogle Scholar |
PCE (2011). Evaluating the use of 1080: predators, poisons and silent forests. Parliamentary Commissioner for the Environment report. New Zealand Government publication, Wellington, New Zealand. pp 1–85. Available at www.pce.parliament.nz/assets/Uploads/PCE-1080.pdf.
Pech, R., Byrom, A. E., Anderson, D., Thomson, C., and Coleman, M. (2010). The effect of poisoned and notional vaccinated buffers on possum (Trichosurus vulpecula) movements: minimising the risk of TB spread from forest to farmland. Wildlife Research 37, 283–292.
| The effect of poisoned and notional vaccinated buffers on possum (Trichosurus vulpecula) movements: minimising the risk of TB spread from forest to farmland.Crossref | GoogleScholarGoogle Scholar |
Pekelharing, C. J., and Batcheler, C. L. (1990). The effect of control of brushtail possums (Trichosurus vulpecula) on condition of a southern rata/kamahi (Metrosideros umbellata/Weinmannia racemosa) forest canopy in Westland, New Zealand. New Zealand Journal of Ecology 13, 73–82.
Peltzer, D. A., Allen, R. B., Bellingham, P. J., Richardson, S. J., Wright, E. F., Knightbridge, P. I., and Mason, N. W. H. (2014). Disentangling drivers of tree population size distributions. Forest Ecology and Management 331, 165–179.
| Disentangling drivers of tree population size distributions.Crossref | GoogleScholarGoogle Scholar |
Perfect, A. J., and Bell, B. D. (2005). Assessment of the impact of 1080 on the native frogs Leiopelma archeyi and L. hochstetteri. Research and Development Series publication no. 209. Department of Conservation, Wellington, New Zealand.
Pimentel, D., Lach, L., Zuniga, R., and Morrison, D. (2000). Environmental and economic costs of nonindigenous species in the United States. Bioscience 50, 53–65.
| Environmental and economic costs of nonindigenous species in the United States.Crossref | GoogleScholarGoogle Scholar |
Powlesland, R. G., Knegtmans, J. W., and Marshall, I. S. J. (1998). Evaluating the impacts of 1080 possum control operations on North Island robins, North Island tomtits, and moreporks at Pureora – preliminary results. Science for Conservation series publication no. 74. Department of Conservation, Wellington, New Zealand.
Powlesland, R. G., Knegtmans, J. W., and Marshall, I. S. J. (1999). Costs and benefits of aerial 1080 possum control operations using carrot baits to North Island robins (Petroica australis longipes), Pureora Forest Park. New Zealand Journal of Ecology 23, 149–159.
Powlesland, R. G., Knegtmans, J. W., and Styche, A. (2000). Mortality of North Island tomtits (Petroica macrocephala toitoi) caused by aerial 1080 possum control operations, 1997-98, Pureora Forest Park. New Zealand Journal of Ecology 24, 161–168.
Powlesland, R. G., Wills, D. E., August, A. C. L., and August, C. K. (2003). Effects of a 1080 operation on kaka and kererū survival and nesting success, Whirinaki Forest Park. New Zealand Journal of Ecology 27, 125–137.
Powlesland, R. G., Stringer, I. A. N., and Hedderley, D. I. (2005). Effects of an aerial 1080 possum poison operation using carrot baits on invertebrates in artificial refuges at Whirinaki Forest Park, 1999-2002. New Zealand Journal of Ecology 29, 193–205.
Ragg, J. R., and Moller, H. (2000). Microhabitat selection by feral ferrets (Mustela furo) in a pastoral habitat, East Otago, New Zealand. New Zealand Journal of Ecology 24, 39–46.
Ramsey, D. S. L., and Efford, M. G. (2010). Management of bovine tuberculosis in brushtail possums in New Zealand: predictions from a spatially explicit, individual-based model. Journal of Applied Ecology 47, 911–919.
| Management of bovine tuberculosis in brushtail possums in New Zealand: predictions from a spatially explicit, individual-based model.Crossref | GoogleScholarGoogle Scholar |
Ramsey, D., Efford, M., Ball, S., and Nugent, G. (2005). The evaluation of indices of animal abundance using spatial simulation of animal trapping. Wildlife Research 32, 229–237.
| The evaluation of indices of animal abundance using spatial simulation of animal trapping.Crossref | GoogleScholarGoogle Scholar |
Rate, S. R. (2009). Does rat control benefit forest invertebrates at Moehau, Coromandel Peninsula? Research and Development Series publication no. 316. Department of Conservation, Wellington, New Zealand.
Reardon, J. T. N., Whitmore, N., Holmes, K. M., Judd, L. M., Hutcheon, A. D., Norbury, G., and Mackenzie, D. I. (2012). Predator control allows critically endangered lizards to recover on mainland New Zealand. New Zealand Journal of Ecology 36, 141–150.
Reddiex, B., Hickling, G. J., Norbury, G. L., and Frampton, C. M. (2002). Effects of predation and rabbit haemorrhagic disease on population dynamics of rabbits (Oryctolagus cuniculus) in North Canterbury, New Zealand. Wildlife Research 29, 627–633.
| Effects of predation and rabbit haemorrhagic disease on population dynamics of rabbits (Oryctolagus cuniculus) in North Canterbury, New Zealand.Crossref | GoogleScholarGoogle Scholar |
Reif, A., and Allen, R. B. (1988). Plant communities of the steep land conifer-broadleaved hardwood forests of central Westland, South Island, New Zealand. Phytocoenologia 16, 145–224.
| Plant communities of the steep land conifer-broadleaved hardwood forests of central Westland, South Island, New Zealand.Crossref | GoogleScholarGoogle Scholar |
Richardson, S. J., Allen, R. B., and Doherty, J. E. (2008). Shifts in leaf N : P ratio during resorption reflect soil P in temperate rainforest. Functional Ecology 22, 738–745.
| Shifts in leaf N : P ratio during resorption reflect soil P in temperate rainforest.Crossref | GoogleScholarGoogle Scholar |
Robertson, H. A., and de Monchy, P. J. M. (2012). Varied success from the landscape-scale management of kiwi Apteryx spp. in five sanctuaries in New Zealand. Bird Conservation International 22, 429–444.
| Varied success from the landscape-scale management of kiwi Apteryx spp. in five sanctuaries in New Zealand.Crossref | GoogleScholarGoogle Scholar |
Robertson, H. A., Colbourne, R. M., Graham, P. J., Miller, P. J., and Pierce, R. J. (1999). Survival of brown kiwi exposed to 1080 poison used for control of brushtail possums in northland, New Zealand. Wildlife Research 26, 209–214.
| Survival of brown kiwi exposed to 1080 poison used for control of brushtail possums in northland, New Zealand.Crossref | GoogleScholarGoogle Scholar |
Rogers, G. (1997). Trends in health of pahautea and Hall’s totara in relation to possum control in central North Island. Science for Conservation series publication no. 52. Department of Conservation, Wellington, New Zealand.
Rose, A. B., Pekelharing, C. J., and Hall, G. M. (1988). Forest dieback and the impact of brushtail possums in the Otira, Deception, and Taramakau catchments, Westland. Contract Report, /ROSE. Forest Research Institute, Christchurch, New Zealand.
Rose, A. B., Pekelharing, C. J., and Platt, K. H. (1992). Magnitude of canopy dieback and implications for conservation of southern rata-kamahi (Metrosideros umbellata – Weinmannia racemosa) forests, central Westland, New Zealand. New Zealand Journal of Ecology 16, 23–32.
Ross, J. (2007). Aorangi Forest Park – tomtit impact monitoring following possum control using 1080 bait containing deer repellent. Unpublished research report, Landsdown Ventures/Enviro Research Ltd. Animal Health Board publications (project no. R-80671), Wellington, New Zealand.
Ruscoe, W. A., Ramsey, D. S. L., Pech, R. P., Sweetapple, P. J., Yockney, I., Barron, M. C., Perry, M., Nugent, G., Carran, R., Warne, R., Brausch, C., and Duncan, R. P. (2011). Unexpected consequences of control: competitive vs. predator release in a four-species assemblage of invasive mammals. Ecology Letters 14, 1035–1042.
| Unexpected consequences of control: competitive vs. predator release in a four-species assemblage of invasive mammals.Crossref | GoogleScholarGoogle Scholar | 21806747PubMed |
Ruscoe, W. A., Sweetapple, P. J., Perry, M., and Duncan, R. P. (2013). Effects of spatially extensive control of invasive rats on abundance of native invertebrates in mainland New Zealand forests. Conservation Biology 27, 74–82.
| Effects of spatially extensive control of invasive rats on abundance of native invertebrates in mainland New Zealand forests.Crossref | GoogleScholarGoogle Scholar | 23020670PubMed |
Russell, J, Innes, J, Brown, P, and Byrom, AE (2015). Predator-free New Zealand: conservation country. BioScience , .
| Predator-free New Zealand: conservation country. Crossref | GoogleScholarGoogle Scholar | 26955079PubMed |
Salo, P., Korpimaki, E., Banks, P. B., Nordstrom, M., and Dickman, C. R. (2007). Alien predators are more dangerous than native predators to prey populations. Proceedings. Biological Sciences 274, 1237–1243.
| Alien predators are more dangerous than native predators to prey populations.Crossref | GoogleScholarGoogle Scholar |
Salo, P., Banks, P. B., Dickman, C. R., and Korpimaki, E. (2010). Predator manipulation experiments: impacts on populations of terrestrial vertebrate prey. Ecological Monographs 80, 531–546.
| Predator manipulation experiments: impacts on populations of terrestrial vertebrate prey.Crossref | GoogleScholarGoogle Scholar |
Sanders, M. D., and Maloney, R. F. (2002). Causes of mortality at nests of ground-nesting birds in the Upper Waitaki Basin, South Island, New Zealand: a 5-year video study. Biological Conservation 106, 225–236.
| Causes of mortality at nests of ground-nesting birds in the Upper Waitaki Basin, South Island, New Zealand: a 5-year video study.Crossref | GoogleScholarGoogle Scholar |
Saunders, A., and Norton, D. R. (2001). Ecological restoration at mainland islands in New Zealand. Biological Conservation 99, 109–119.
| Ecological restoration at mainland islands in New Zealand.Crossref | GoogleScholarGoogle Scholar |
Schadewinkel, R. B., Senior, A. M., Wilson, D. J., and Jamieson, I. G. (2014). Effects on South Island robins (Petroica australis) from pest control using aerially applied 1080 poison. New Zealand Journal of Ecology 38, 315–322.
Sessions, L. A., Rance, C., Grant, A., and Kelly, D. (2001). Possum (Trichosurus vulpecula) control benefits native beech mistletoes (Loranthaceae). New Zealand Journal of Ecology 25, 27–33.
Sherley, G. H., Stringer, I. A. N., Parrish, G. R., and Flux, I. (1998). Demography of two landsnail populations (Placostylus ambagiosus, pulmonata: Bulimulidae) in relation to predator control in the far north of New Zealand. Biological Conservation 84, 83–88.
| Demography of two landsnail populations (Placostylus ambagiosus, pulmonata: Bulimulidae) in relation to predator control in the far north of New Zealand.Crossref | GoogleScholarGoogle Scholar |
Simberloff, D., Martin, J.-L., Genovesi, P., Maris, V., Wardle, D. A., Aronson, J., Courchamp, F., Galil, B., García-Berthou, E., Pascal, M., Pyšek, P., Sousa, R., Tabacchi, E., and Vilà, M. (2013). Impacts of biological invasions: what’s what and the way forward. Trends in Ecology & Evolution 28, 58–66.
| Impacts of biological invasions: what’s what and the way forward.Crossref | GoogleScholarGoogle Scholar |
Sinclair, L., McCartney, J., Godfrey, J., Pledger, S., Wakelin, M., and Sherley, G. (2005). How did invertebrates respond to eradication of rats from Kapiti Island, New Zealand? New Zealand Journal of Zoology 32, 293–315.
| How did invertebrates respond to eradication of rats from Kapiti Island, New Zealand?Crossref | GoogleScholarGoogle Scholar |
Smale, M. C., Rose, A. B., Frampton, C. M., and Owen, H. J. (1995). The efficacy of possum control in reducing forest dieback in the Otira and Deception catchments, central Westland. Science for Conservation Series publication no. 13. Department of Conservation, Wellington, New Zealand. pp. 1–11.
Spurr, E. B., and Berben, P. H. (2004). Assessment of the non-target impact of 1080-poisoning for vertebrate pest control on weta (Orthoptera: Anostostomatidae and Raphidophoridae) and other invertebrates in artificial refuges. New Zealand Journal of Ecology 28, 63–72.
Spurr, E. B., and Drew, K. W. (1999). Invertebrates feeding on baits used for vertebrate pest control in New Zealand. New Zealand Journal of Ecology 23, 167–173.
Spurr, E. B., Borkin, K. M., and Drew, K. W. (2012). Line-transect sampling compared with fixed-width strip-transect counts for assessing tomtit (Petroica macrocephala) population trends. New Zealand Journal of Ecology 36, 365–370.
Sweetapple, P. J., and Nugent, G. (2007). Ship rat demography and diet following possum control in a mixed podocarp-hardwood forest. New Zealand Journal of Ecology 31, 186–201.
Sweetapple, P. J., Nugent, G., Whitford, J., and Knightbridge, P. I. (2002). Mistletoe (Tupeia antarctica) recovery and decline following possum control in a New Zealand forest. New Zealand Journal of Ecology 26, 61–71.
Tompkins, D. M., Byrom, A. E., and Pech, R. P. (2013). Predicted responses of invasive mammal communities to climate-related changes in mast frequency in forest ecosystems. Ecological Applications 23, 1075–1085.
| Predicted responses of invasive mammal communities to climate-related changes in mast frequency in forest ecosystems.Crossref | GoogleScholarGoogle Scholar | 23967576PubMed |
Urlich, S. C., and Brady, P. J. (2005). Benefits of aerial 1080 possum control to tree fuchsia in the Tararua Range, Wellington. New Zealand Journal of Ecology 29, 299–309.
Van Klink, P., and Crowell, M. (2015). Kea (Nestor notabilis) survivorship through a 1080 operation using cereal baits containing the bird repellent d-pulegone at Otira, central Westland. Research and Development Series publication no. 344. Department of Conservation, Wellington, New Zealand.
Van Klink, P. A., and Tansell, A. J. S. (2003). Western weka (Gallirallus australis australis) monitored before and after an aerial application of 1080 baits in the Copland Valley, Westland National Park. Science Internal Series publication no. 108. Department of Conservation, Wellington, New Zealand.
Van Klink, P., Kemp, J., and O’Donnell, C. F. J. (2013). The effect of aerial application of 1080 cereal baits on radio-tagged South Island fernbirds (Bowdleria punctata punctata). New Zealand Journal of Zoology 40, 145–153.
| The effect of aerial application of 1080 cereal baits on radio-tagged South Island fernbirds (Bowdleria punctata punctata).Crossref | GoogleScholarGoogle Scholar |
Veltman, C. J., and Pinder, D. N. (2001). Brushtail possum mortality and ambient temperatures following aerial poisoning using 1080. The Journal of Wildlife Management 65, 476–481.
| Brushtail possum mortality and ambient temperatures following aerial poisoning using 1080.Crossref | GoogleScholarGoogle Scholar |
Veltman, C. J., and Westbrooke, I. M. (2011). Forest bird mortality and baiting practices in New Zealand aerial 1080 operations from 1986 to 2009. New Zealand Journal of Ecology 35, 21–29.
Veltman, C. J., Westbrooke, I. M., Powlesland, R. G., and Greene, T. C. (2014). A principles-based decision tree for future investigations of native New Zealand birds during aerial 1080 operations. New Zealand Journal of Ecology 38, 103–109.
Vitousek, P. M., D’Antonio, C. M., Loope, L. L., Rejmanek, M., and Westbrooks, R. (1997). Introduced species: a significant component of human-caused global change. New Zealand Journal of Ecology 21, 1–16.
Walker, K. (1997). Effect of aerial distribution of 1080 for possum control on weka, great spotted kiwi, morepork and fernbird. Ecological Management 5, 29–37.
Warburton, B., and Livingstone, P. (2015). Managing and eradicating wildlife tuberculosis from New Zealand. New Zealand Veterinary Journal 63, 77–88.
| Managing and eradicating wildlife tuberculosis from New Zealand.Crossref | GoogleScholarGoogle Scholar | 25582863PubMed |
Watts, C., Thornburrow, D., Cave, V., and Innes, J. (2014). Beetle community changes following pest mammal control at two biodiversity sanctuaries in Wellington, New Zealand. Journal of the Royal Society of New Zealand 44, 61–87.
| Beetle community changes following pest mammal control at two biodiversity sanctuaries in Wellington, New Zealand.Crossref | GoogleScholarGoogle Scholar |
Wilson, P. R. (1984). The effects of possums on mistletoe on Mt Misery, Nelson Lakes National Park. In ‘Protection and Parks: Essays in the Preservation of Natural Values in Protected Areas’. (Ed. P. R. Dingwall.) pp. 53–60. Department of Lands and Survey Information Series No. 12, Department of Lands and Survey, Wellington, New Zealand.
Wotton, D. M., and Kelly, D. (2011). Frugivore loss limits recruitment of large-seeded trees. Proceedings. Biological Sciences 278, 3345–3354.
| Frugivore loss limits recruitment of large-seeded trees.Crossref | GoogleScholarGoogle Scholar |
Wotton, D. M., and Kelly, D. (2012). Do larger frugivores move seeds further? Body size, seed dispersal distance, and a case study of a large, sedentary pigeon. Journal of Biogeography 39, 1973–1983.
| Do larger frugivores move seeds further? Body size, seed dispersal distance, and a case study of a large, sedentary pigeon.Crossref | GoogleScholarGoogle Scholar |
Yemshanov, D., McKenney, D. W., de Groot, P., Haugen, D., Sidders, D., and Joss, B. (2009). A bioeconomic approach to assess the impact of an alien invasive insect on timber supply and harvesting: a case study with Sirex noctilio in eastern Canada. Canadian Journal of Forest Research 39, 154–168.
| A bioeconomic approach to assess the impact of an alien invasive insect on timber supply and harvesting: a case study with Sirex noctilio in eastern Canada.Crossref | GoogleScholarGoogle Scholar |