[1]	Armstrong DP, Raeburn EH, Lewis RM, 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, 1020–7.

[2]

Atkinson IAE (1978). Evidence for effects of rodents on the vertebrate wildlife of New Zealand islands. In: Dingwall PR, Atkinson IAE, Hay C, eds. The Ecology and Control of Rodents in New Zealand Nature Reserves. Information Series 4. Department of Lands and Survey, Wellington, New Zealand, pp. 7–30.

[3]	Baber M, Brejaart R, Babbitt K, Lovegrove T, Ussher G (2009). Response of non-target native birds to mammalian pest control for kokako (Callaeas cinerea) in the Hunua Ranges. Notornis 56, 176–82.

[4]	Baker SE, Ayers M, Beasoleil NJ et al. (2022). An assessment of animal welfare impacts in wild Norway rat (Rattus norvegicus) management. Animal Welfare 31, 51–68.

[5]	Bell EA, Bell BD, Merton DV (2016). The legacy of Big South Cape: Rat irruption to rat eradication. New Zealand Journal of Ecology 40, 212–8.

[6]	Bell MAN, Armstrong DP, Tinnemans JSJ et al. (2021). The effects of beech masts and 1080 pest control on South Island robins (Petroica australis). New Zealand Journal of Ecology 45, 3452.

[7]	Bell P, Nathan H, Mulgan N (2019). 'Island' eradication within large landscapes: the remove and protect model. In: Veitch CR, Clout MMN, Martin AR, Russell JC, West CJ, eds. Island Invasives: Scaling Up to Meet the Challenge. Occasional Paper SSC no. 62. IUCN, Gland, Switzerland, pp. 604–10.

[8]	Bellingham PJ, Towns DR, Cameron EK et al. (2010). New Zealand island restoration: Seabirds, predators, and the importance of history. New Zealand Journal of Ecology 34, 115–36.

[9]	Binny RN, Innes J, Fitzgerald N et al. (2021). Long-term biodiversity trajectories for pest-managed ecological restorations: eradication versus suppression. Ecological Monographs 91, e01439.

[10]	Bombaci SP, Innes J, Kelly D, Flaherty V, Pejchar L (2021). Excluding mammalian predators increases bird densities and seed dispersal in fenced ecosanctuaries. Ecology 102, e03340.

[11]	Bombaci S, Pejchar L, Innes J (2018). Fenced sanctuaries deliver conservation benefits for most common and threatened native island birds in New Zealand. Ecosphere 9, e02497.

[12]	Bomford M, O'Brien P (1995). Eradication or control for vertebrate pests? Wildlife Society Bulletin 23, 249–55.

[13]	Breedt B, King CM (2021). Distribution and detectability of mammalian pests in the Waikato region. New Zealand Journal of Zoology 49, 37–52.

[14]	Bridgman LJ, Innes J, Gillies C, Fitzgerald NB, Miller S, King CM (2013). Do ship rats display predatory behaviour towards house mice? Animal Behaviour 86, 257–68.

[15]	Broome K (2009). Beyond Kapiti—A decade of invasive rodent eradications from New Zealand islands. Biodiversity 10, 14–24.

[16]	Byrom AE, Innes J, Binny R (2016). A review of biodiversity outcomes from possum-focused pest control in New Zealand. Wildlife Research 43, 228–53.

[17]	Caravaggi A, Cuthbert RJ, Ryan PG, Cooper J, Bond AL (2019). The impacts of introduced house mice on the breeding success of nesting seabirds on Gough Island. Ibis 161, 648–61.

[18]	Carpenter JK, Monks A, Innes J, Griffiths J (2022). Pushing the limits: Ship rat (Rattus rattus) population dynamics across an elevational gradient in response to mast seeding and supplementary feeding. Biological Invasions 24, 3065–81.

[19]	Carter ZT (2021). Through space and time: Novel methods to prioritise management actions for threatened species (PhD thesis). The University of Auckland, Auckland, New Zealand.

[20]	Carter ZT, Bodey TW, Russell JC (2021). Terrestrial vertebrate survey of Motukawanui. New Zealand Journal of Zoology 48, 174–84.

[21]	Cook B, Mulgan N (2022). Targeted mop up and robust response tools can achieve and maintain possum freedom on the mainland. Animals 12, 921.

[22]

Cromarty PL, Broome KG, Cox A, Empson RA, Hutchinson WM, McFadden I (2002). Eradication planning for invasive alien animal species on islands – the approach developed by the New Zealand Department of Conservation. In: Veitch CR, Clout MN, eds. Turning the Tide—The Eradication of Invasive Species. IUCN SSC Invasive Species Specialist Group. IUCN, Gland, Switzerland, pp. 85–91.

[23]

Day T, MacGibbon R (2007). Multiple-species exclusion fencing and technology for mainland sites. In: Witmer GW, Pitt WC, Fagerstone KA, eds. Managing Vertebrate Invasive Species. Proceedings of an International Symposium; USDA/APHIS/WS. National Wildlife Research Center, Fort Collins, CO, pp. 418–33.

[24]	Department of Conservation (2020). Te Mana o Te Taiao – Aotearoa New Zealand Biodiversity Strategy 2020. NZ Department of Conservation, Wellington, New Zealand.

[25]	Department of Conservation (2021). Predator Free 2050 5-year progress report. NZ Department of Conservation, Wellington, New Zealand.

[26]	Dilks P, Sjoberg T, Murphy EC (2020). Effectiveness of aerial 1080 for control of mammal pests in the Blue Mountains, New Zealand. New Zealand Journal of Ecology 44, 3406.

[27]	Duhr M, Flint E, Hunter SA et al. (2019). Control of house mice preying on adult albatrosses at Midway Atoll National Wildlife Refuge. In: Veitch CR, Clout MN, Martin AR, Russell JCC, West CJ, eds. Island Invasives: Scaling Up to Meet the Challenge. IUCN, Gland, Switzerland, pp. 21–5.

[28]	Eason CT, Shapiro L, Ogilvie S, King C, Clout M (2017). Trends in the development of mammalian pest control technology in New Zealand. New Zealand Journal of Zoology 44, 267–304.

[29]	Efford MG, Fitzgerald BM, Karl BJ, Berben PH (2006). Population dynamics of the ship rat Rattus rattus L. in the Orongorongo Valley, New Zealand. New Zealand Journal of Zoology 33, 273–97.

[30]	Elliott G, Kemp J (2016). Large-scale pest control in New Zealand beech forests. Ecological Management and Restoration 17, 200–9.

[31]	Ewers RM, Kliskey AD, Walker S, Rutledge D, Harding JS, Didham RK (2006). Past and future trajectories of forest loss in New Zealand. Biological Conservation 133, 312–25.

[32]	Fea N, Linklater W, Hartley S (2020). Responses of New Zealand forest birds to management of introduced mammals. Conservation Biology 35, 35–49.

[33]	Fitzgerald N, Innes J, Watts C et al. (2021). Increasing urban abundance of tui (Prosthemadera novaeseelandiae) by pest mammal control in surrounding forests. Notornis 68, 93–107.

[34]	Foster NJ, Maloney RF, Seddon PJ, Recio MR, Khan MSI, van Heezik Y (2021). Altitudinal distribution of the entire invasive small mammal guild in the eastern dryland zone of New Zealand's Southern Alps. Biological Invasions 23, 1837–57.

[35]	Fukami T, Wardle DA, Bellingham PJ et al. (2006). Above- and below-ground impacts of introduced predators in seabird-dominated island ecosystems. Ecology Letters 9, 1299–307.

[36]	Genovesi P (2001). Guidelines for Eradication of Terrestrial Vertebrates: A European Contribution to the Invasive Alien Species Issue. T-PVS (2000) 65 revised 2. IUCN/SSC Invasive Species Specialist Group, National Wildlife Institute, Italy.

[37]	Gillies CAA, Leach MR, Coad NB 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, 399–420.

[38]	Gillies C, Williams D (2013). Using Tracking Tunnels to Monitor Rodents and Other Small Mammals. Version 2.5.2. Department of Conservation, Wellington, New Zealand.

[39]	Gollin JF, Gorman N, Armstrong DP (2021). Twenty years on: Changes in lizard encounter rates following eradication of rats from Kapiti Island. New Zealand Journal of Ecology 45, 3423.

[40]	Grant-Hoffman MN, Mulder CPH, Bellingham PJ (2010). Effects of invasive rats and burrowing seabirds on seeds and seedlings on New Zealand islands. Oecologia 162, 1005–16.

[41]	Green W, Rohan M (2012). Opposition to aerial 1080 poisoning for control of invasive mammals in New Zealand: Risk perceptions and agency responses. Journal of the Royal Society of New Zealand 42, 185–213.

[42]	Griffiths JW, Barron MC (2016). Spatiotemporal changes in relative rat (Rattus rattus) abundance following large-scale pest control. New Zealand Journal of Ecology 40, 371–80.

[43]	Griffiths R, Buchanan F, Broome K, Neilsen J, Brown D, Weakley M (2015). Successful eradication of invasive vertebrates on Rangitoto and Motutapu Islands, New Zealand. Biological Invasions 17, 1355–69.

[44]	Hansford D (2016). Protecting Paradise: 1080 and the Fight to Save New Zealand's Wildlife. Potton and Burton, Nelson, New Zealand.

[45]	Harper GA, Bunbury N (2015). Invasive rats on tropical islands: Their population biology and impacts on native species. Global Ecology and Conservation 3, 607–27.

[46]	Harper GA, Pahor S, Birch D (2020). The Lord Howe Island rodent eradication: Lessons learnt from an inhabited island. In: Woods DM, ed. Proceedings 29th Vertebrate Pest Conference, Paper 31. Santa Barbara, California, 11 pp.

[47]	Harris AL, Kelly D, Innes J, Allen RB (2022). Invasive species and thermal squeeze: distribution of two invasive predators and drivers of black rat (Rattus rattus) invasion in mid-elevation Fuscospora forest. Biological Invasions 24, 2547–59.

[48]	Hill S, Hill J (1987). Richard Henry of Resolution Island. John McIndoe, Dunedin, New Zealand.

[49]	Hitchmough R (1994). Feasibility study. In: Aviss M, Roberts A, eds. Pest Fences: Notes and Comments. Threatened Species Occasional Publication 5. NZ Department of Conservation, Wellington, New Zealand, pp. 31–5.

[50]	Horn SR, Sagar RL, Cox FS et al. (2022). The next frontier: assessing the feasibility of eradicating mammalian pests from Auckland Island. New Zealand Journal of Ecology 46, CrossRef Google scholar

[51]	Iles JM, Kelly D (2014). Restoring bird pollination of Fuchsia excorticata by mammalian predator control. New Zealand Journal of Ecology 38, 297–306.

[52]	Innes J, Fitzgerald N, Binny R et al. (2019). New Zealand ecosanctuaries: Types, attributes and outcomes. Journal of the Royal Society of New Zealand 49, 370–93.

[53]	Innes J, Hay JR, Flux I, Bradfield P, Speed H, Jansen P (1999). Successful recovery of North Island kokako Callaeas cinerea wilsoni populations, by adaptive management. Biological Conservation 87, 201–14.

[54]	Innes J, Kelly C, Fitzgerald N, Warnock M, Waas J (2018). Detection of wild house mice and other small mammals up trees and on the ground in New Zealand native forest. New Zealand Journal of Zoology 45, 227–37.

[55]	Innes J, Kelly D, Overton JM, Gillies C (2010). Predation and other factors currently limiting New Zealand forest birds. New Zealand Journal of Ecology 34, 86–114.

[56]	Innes JG, Russell JC (2021). Rattus rattus. In: King CM, Forsyth DM, eds. The Handbook of New Zealand Mammals, 3rd edn. CSIRO Publishing, Melbourne, pp. 161–240.

[57]	Innes J, Warburton B, Williams D, Speed H, Bradfield P (1995). Large-scale poisoning of ship rats in North Island indigenous forests. New Zealand Journal of Ecology 19, 5–17.

[58]	Keedwell RJ, Brown KP (2001). Relative abundance of mammalian predators in the upper Waitaki Basin, South Island, New Zealand. New Zealand Journal of Zoology 28, 31–8.

[59]	Kelly D, Sullivan JJ (2010). Life histories, dispersal, invasions, and global change: progress and prospects in New Zealand ecology, 1989−2029. New Zealand Journal of Ecology 34, 207–17.

[60]	Kemp JR, Mosen CC, Elliott GP, Hunter CM (2018). Effects of the aerial application of 1080 to control pest mammals on kea reproductive success. New Zealand Journal of Ecology 42, 158–68.

[61]	King CM, Forsyth DM, eds (2021). The Handbook of New Zealand Mammals, 3rd edn. CSIRO Publishing, Clayton, Victoria.

[62]	King CM, Innes JG, Flux M, Kimberley MO, Leathwick JR, Williams DS (1996). Distribution and abundance of small mammals in relation to habitat in Pureora Forest Park. New Zealand Journal of Ecology 20, 215–40.

[63]	Linklater W, Steer J (2018). Predator Free 2050: A flawed conservation policy displaces higher priorities and better, evidence-based alternatives. Conservation Letters 11, e12593.

[64]	Lohr MT, Davis RA (2018). Anticoagulant rodenticide use, non-target impacts and regulation: A case study from Australia. Science of the Total Environment 634, 1372–84.

[65]	Longson CG, Brejaart R, Baber MJ, Babbitt KJ (2017). Rapid recovery of a population of the cryptic and evolutionarily distinct Hochstetter's Frog, Leiopelma hochstetteri, in a pest-free environment. Ecological Management and Restoration 18, 26–31.

[66]

Macdonald DW, Mathews F, Berdoy M (1999). The behaviour and ecology of Rattus norvegicus: from opportunism to kamikaze tendencies. In: Singleton GR, Hinds LA, Leirs H, Zhang Z, eds. Ecologically-Based Management of Rodent Pests. Australian Centre for International Agricultural Research, Camberra, pp. 49–80.

[67]	McIlroy JC (1982). The sensitivity of Australian animals to 1080 poison IV. Native and introduced rodents. Australian Wildlife Research 9, 505–17.

[68]	Martin AR, Richardson MG (2019). Rodent eradication scaled up: clearing rats and mice from South Georgia. Oryx 53, 27–35.

[69]	Miller KF, Wilson DJ, Hartley S et al. (2022). Invasive urban mammalian predators: Distribution and multi-scale habitat selection. Biology 11, 1527.

[70]	Miskelly CM (2018). Changes in the forest bird community of an urban sanctuary in response to pest mammal eradications and endemic bird reintroductions. Notornis 65, 132–51.

[71]	Moorhouse RJ, Greene T, Dilks P et al. (2003). Control of introduced mammalian predators improves kaka Nestor meridionalis breeding success: Reversing the decline of a threatened New Zealand parrot. Biological Conservation 110, 33–44.

[72]	Morgan DKJ, Waas JR, Innes J (2009). An inventory of mammalian pests in a New Zealand city. New Zealand Journal of Zoology 36, 23–33.

[73]	Morgan DR, Nugent G, Warburton B (2006). Benefits and feasibility of local elimination of possum populations. Wildlife Research 33, 605–14.

[74]	Morgan D, Warburton B, Nugent G (2015). Aerial prefeeding followed by ground based toxic baiting for more efficient and acceptable poisoning of invasive small mammalian pests. PLoS ONE 10, e0134032.

[75]	Mulder CP, Grant-Hoffman MN, Towns DR et al. (2009). Direct and indirect effects of rats: Does rat eradication restore ecosystem functioning of New Zealand seabird islands? Biological Invasions 11, 1671–88.

[76]	Murphy EC, Nathan HW (2021). Mus musculus. In: King CM, Forsyth DM, eds. The Handbook of New Zealand Mammals, 3rd edn. CSIRO Publishing, Melbourne, pp. 161–240.

[77]	Murphy EC, Russell JC, Broome KG, Ryan GJ, Dowding JE (2019). Conserving New Zealand's native fauna: A review of tools being developed for the Predator Free 2050 programme. Journal of Ornithology 160, 883–92.

[78]	Murphy EC, Young JB, Robbins L, Dowding JE (1999). Secondary poisoning of stoats after an aerial 1080 poison operation in Pureora Forest, New Zealand. New Zealand Journal of Ecology 23, 175–82.

[79]	Nichols M, Nathan H, Mulgan N (2021). Dual aerial 1080 baiting operation removes predators at a large spatial scale. New Zealand Journal of Ecology 45, 3428.

[80]	Norbury G, Hutcheon A, Reardon J, Daigneault A (2014). Pest fencing or pest trapping: A bio-economic analysis of cost-effectiveness. Austral Ecology 39, 795–87.

[81]	Norbury GL, Pech RP, Byrom AE, Innes J (2015). Density-impact functions for terrestrial vertebrate pests and indigenous biota: Guidelines for conservation managers. Biological Conservation 191, 409–20.

[82]	Norbury G, van den Munckhof M, Neitzel S, Hutcheon A, Reardon J, Ludwig K (2014). Impacts of invasive house mice on post-release survival of translocated lizards. New Zealand Journal of Ecology 38, 322–7.

[83]	Norbury G, Wilson DJ, Clarke D, Hayman E, Smith J, Howard S(2022). Density-impact functions for invasive house mouse (Mus musculus) effects on indigenous lizards and invertebrates. Biological Invasions 25, 801–15.

[84]	Nugent G, Morriss GA, Warburton B (2019). Attempting local elimination of possums (and rats) using dual aerial 1080 baiting. New Zealand Journal of Ecology 43, 3373.

[85]	Nugent G, Warburton B, Thomson C, Sweetapple P, Ruscoe WA (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, 249–59.

[86]	O'Donnell CFJ, Weston KA, Monks JM (2017). Impacts of introduced mammalian predators on New Zealand's alpine fauna. New Zealand Journal of Ecology 41, 1–22.

[87]	Ogden J, Gilbert J (2009). Prospects for the eradication of rats from a large inhabited island: community based ecosystem studies on Great Barrier Island, New Zealand. Biological Invasions 11, 1705–17.

[88]	O'Malley TDR, Stanley MC, Russell JC (2022). Assessing two different aerial toxin treatments for the management of invasive rats. Animals 12, 309.

[89]	Parkes JP, Nugent G, Forsyth DM et al. (2017). Past, present and two potential futures for managing New Zealand s mammalian pests. New Zealand Journal of Ecology 41, 151–61.

[90]	Peay KGG, Dickie IA, Wardle DA, Bellingham PJ, Fukami T (2013). Rat invasion of islands alters fungal community structure, but not wood decomposition rates. Oikos 122, 258–64.

[91]	Pejchar L, Lepczyk CA, Fantle-Lepczyk JE et al. (2020). Hawaii as a microcosm: Advancing the science and practice of managing introduced and invasive species. BioScience 70, 184–93.

[92]	Pender RJ, Shiels AB, Bialic-Murphy L, Mosher SM (2013). Large-scale rodent control reduces pre- and post-dispersal seed predation of the endangered Hawaiian lobeliad, Cyanea superba subsp. superba (Campanulaceae). Biological Invasions 15, 213–23.

[93]	Peters MA, Hamilton D, Eames C (2015). Action on the ground: A review of community environmental groups' restoration objectives, activities and partnerships in New Zealand. New Zealand Journal of Ecology 39, 179–89.

[94]	Pickerell GA, O'Donnell CFJ, Wilson DJ, Seddon PJ (2014). How can we detect introduced mammalian predators in non-forest habitats? A comparison of techniques. New Zealand Journal of Ecology 38, 86–102.

[95]	Powlesland RG, Knegtmans JW, Marshall ISJ (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, 149–59.

[96]

Preston GR, Dilley BJ, Cooper J et al. (2019). South Africa works towards eradicating introduced house mice from sub-Antarctic Marion Island: the largest island yet attempted for mice. In: Veitch CR, Clout MN, Martin AR, Russell JC, West CJ, eds. Island Invasives: Scaling Up to Meet the Challenge. IUCN, Gland, Switzerland, pp. 40–6.

[97]	Reardon JT, Whitmore N, Holmes KM et al. (2012). Predator control allows critically endangered lizards to recover on mainland New Zealand. New Zealand Journal of Ecology 36, 141–50.

[98]	Rennison D, Laita O, Conole D et al. (2013). Prodrugs of N-dicarboximide derivatives of the rat selective toxicant norbormide. Bioorganic and Medicinal Chemistry 21, 5886–99.

[99]	Robertson HA, Baird KA, Elliott GP et al. (2021). Conservation status of birds in Aotearoa New Zealand 2021. New Zealand Threat Classification Series 36. Department of Conservation, Wellington, New Zealand.

[100]

Robertson HA, de Monchy PJM (2012). Varied success from the landscape-scale management of kiwi Apteryx spp. in five sanctuaries in New Zealand. Bird Conservation International 22, 429–44.

[101]

Robertson HA, Guillotel J, Lawson T, Sutton N (2019). Landscape-scale applications of 1080 pesticide benefit brown kiwi (Apteryx mantelli) and fantails (Rhipidura fuliginosa) at Tongariro Forest, New Zealand. Notornis 66, 1–15.

[102]

Ross J, Eason C (2021). Sodium fluoroacetate (1080) in relation to its use in New Zealand revisited: A 2021 review. Lincoln University Wildlife Management Report 74. Lincoln University, Lincoln, New Zealand.

[103]

Ruscoe WA, Ramsey DSL, Pech RP et al. (2011). Unexpected consequences of control: competitive vs. predator release in a four-species assemblage of invasive mammals. Ecology Letters 14, 1035–42.

[104]

Russell JC (2014). A comparison of attitudes towards introduced wildlife in New Zealand in 1994 and 2012. Journal of the Royal Society of New Zealand 44, 136–51.

[105]

Russell JC, Broome KG (2016). Fifty years of rodent eradications in New Zealand: Another decade of advances. New Zealand Journal of Ecology 40, 197–204.

[106]

Russell JC, Carter Z (2021). Table 6.2. Distribution of rodents on 320 islands >5 ha, not connected to the North or South islands at low tide, and excluding mangrove islands and sand bars. In: King CM, Forsyth DM, eds. The Handbook of New Zealand Mammals, 3rd edn. CSIRO Publishing, Melbourne, pp. 161–240.

[107]

Russell JC, Innes JG (2021). Rattus norvegicus. In: King CM, Forsyth DM, eds. The Handbook of New Zealand Mammals, 3rd edn. CSIRO Publishing, Melbourne, pp. 161–240.

[108]

Russell JC, Innes JG, Brown PH, Byrom AE (2015). Predator-free New Zealand: Conservation country. Bioscience 65, 520–5.

[109]

Russell JC, Stanley MC (2018). An overview of introduced predator management in inhabited landscapes. Pacific Conservation Biology 24, 371–8.

[110]

Samaniego-Herrera A, Aguirre-Munoz A, Rodriguez-Malagon M et al. (2011). Rodent eradications on Mexican islands: Advances and challenges. In: Veitch CR, Clout MN, Towns DR, eds. Island Invasives: Eradication and Management. IUCN, Gland, Switzerland and Auckland, New Zealand, pp. 350–5.

[111]

Samaniego A, Kappes P, Broome K et al. (2021). Factors leading to successful island eradications following initial failure. Conservation Science and Practice 3, e404.

[112]

Saunders A, Norton DA (2001). Ecological restoration at mainland islands in New Zealand. Biological Conservation 99, 108–19.

[113]

Shiels AB, Pitt WC, Sugihara R, Witmer GW (2014). Biology and impacts of Pacific Island invasive species 11. Rattus rattus, the black rat (Rodentia: Muridae). Pacific Science 68, 145–84.

[114]

Shiels AB, Medeiros AC, von Allmen EI (2017). Shifts in an invasive rodent community favoring Black rats (Rattus rattus) following restoration of native forest. Restoration Ecology 25, 759–67.

[115]

Singleton GR, Hinds LA, Leirs H, Zhang Z eds (1999). Ecologically-based Management of Rodent Pests. Australian Centre for International Agricultural Research, Canberra, ACT, Australia.

[116]

Spatz DR, Holmes ND, Will DJ et al. (2022). The global contribution of invasive vertebrate eradication as a key island restoration tool. Scientific Reports 12, 13391.

[117]

Speedy C, Day T, Innes J (2007). Pest eradication technology – the critical partner to pest exclusion technology; the Maungatautari experience. In: Witmer GW, Pitt WC, Fagerstone KA, eds. Managing Vertebrate Invasive Species: Proceedings of an International Symposium. USDA/APHIS/WS. National Wildlife Research Center, Fort Collins, CO, pp. 115–26.

[118]

Sran SPK, Gartrell BG, Fisher P, Armstrong DP (2022). Apparent resistance to brodifacoum in Rattus rattus in a New Zealand site with no history of anticoagulant-based rodent control. Wildlife Research 50, 28–38.

[119]

Steffens KE, Malham JP, Davies RS, Elliott GP (2022). Testing the effectiveness of integrated pest control at protecting whio (Hymenolaimus malacorhynchos) from stoat (Mustela erminea) in beech forest (Nothofagaceae). New Zealand Journal of Ecology 46, 3470.

[120]

Sweetapple PJ, 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.

[121]

Tompkins DM (2018). The research strategy for a 'Predator Free' New Zealand. In: Woods DM, ed. Proceedings of the Vertebrate Pest Conference. University of California, Davis, CA, pp. 11–8.

[122]

Towns DR, Atkinson IAE, Daugherty CH (2006). Have the harmful effects of introduced rats on islands been exaggerated? Biological Invasions 8, 863–91.

[123]

Towns DDR, Borelle SB, Thoreson J, Buxton RT, Evans A (2016). Mercury Islands and their role in understanding seabird island restoration. New Zealand Journal of Ecology 40, 235–49.

[124]

Towns DR, Simberloff D, Atkinson IAE (1997). Restoration of New Zealand islands: Redressing the effects of introduced species. Pacific Conservation Biology 3, 99–124.

[125]

Towns DR, Wardle DA, Mulder CP et al. (2009). Predation of seabirds by invasive rats: Multiple indirect consequences for invertebrate communities. Oikos 118, 420–30.

[126]

Van Vianen J, Burge OR, MacFarlane AT, Kelly D (2018). The effects of single aerial 1080 possum-control operations on common forest birds in the South Island, New Zealand. New Zealand Journal of Ecology 42, 169–78.

[127]

Walker S, Kemp JR, Elliott GP, Mosen CC, Innes JG (2019). Spatial patterns and drivers of invasive rodent dynamics in New Zealand forests. Biological Invasions 21, 1627–42.

[128]

Warburton B, Tompkins DM, Choquenot D, Cowan P (2012). Minimising number killed in long-term vertebrate pest management programmes, and associated economic incentives. Animal Welfare 21, 141–9.

[129]

Wardle DA, Bellingham PJ, Bonner KI, Mulder CPH (2009). Indirect effects of invasive predators on litter decomposition and nutrient absorption on seabird-dominated islands. Ecology 90, 452–64.

[130]

Watts C, Innes J, Wilson DJ et al. (2022). Do mice matter? Impacts of mice alone on invertebrates, seedlings and fungi at Sanctuary Mountain Maungatautari. New Zealand Journal of Ecology 46, 3472.

[131]

Wilmshurst JM, Ruscoe WA (2021). Rattus exulans. In: King CM, Forsyth DM, eds. The Handbook of New Zealand Mammals, 3rd edn. CSIRO Publishing, Melbourne, pp. 161–240.

[132]

Wilson DJ, Innes JG, Fitzgerald NB, Bartlam S, Watts C, Smale M (2018). Population dynamics of house mice without mammalian predators and competitors. New Zealand Journal of Ecology 42, 192–203.

[133]

Wilson DJ, Lee WG (2010). Primary and secondary resource pulses in an alpine ecosystem: Snow tussock grass (Chionocloa spp.) flowering and house mouse (Mus musculus) populations in New Zealand. Wildlife Research 37, 89–103.

[134]

Wilson N, McIntyre M, Blaschke P, Muellner P, Mansoon OD, Baker MG (2018). Potential public health benefits from eradicating rats in New Zealand cities and a tentative research agenda. Journal of the Royal Society of New Zealand 48, 280–90.