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Island extinctions: processes, patterns, and potential for ecosystem restoration

Part of: Humans and Island Environments

Published online by Cambridge University Press:  24 July 2017

JAMIE R. WOOD ,
JOSEP A. ALCOVER ,
TIM M. BLACKBURN ,
PERE BOVER ,
RICHARD P. DUNCAN ,
JULIAN P. HUME ,
JULIEN LOUYS ,
HANNEKE J.M. MEIJER ,
JUAN C. RANDO  and
JANET M. WILMSHURST
JAMIE R. WOOD*
Affiliation:
Landcare Research, PO Box 69040, Lincoln 7640, New Zealand
JOSEP A. ALCOVER
Affiliation:
Institut Mediterrani d'Estudis Avançats (CSIC-UIB), 07190 Esporles, Illes Balears, Spain
TIM M. BLACKBURN
Affiliation:
Department of Genetics, Evolution & Environment, Centre for Biodiversity & Environment Research, University College London, Gower Street, London, WC1E 6BT, UK Institute of Zoology, Zoological Society of London, Regent's Park, London, NW1 4RY, UK
PERE BOVER
Affiliation:
Institut Mediterrani d'Estudis Avançats (CSIC-UIB), 07190 Esporles, Illes Balears, Spain
RICHARD P. DUNCAN
Affiliation:
Institute for Applied Ecology, University of Canberra, ACT 2617, Australia
JULIAN P. HUME
Affiliation:
Department of Life Sciences, Natural History Museum, Akeman St, Tring, Herts HP23 6AP, UK
JULIEN LOUYS
Affiliation:
Department of Archaeology and Natural History, School of Culture, History and Languages, The Australian National University, Canberra, ACT, Australia
HANNEKE J.M. MEIJER
Affiliation:
Department of Natural History, The University Museum, University of Bergen, Bergen, Norway
JUAN C. RANDO
Affiliation:
Departamento de Biología Animal (UDI Zoología), Universidad de La Laguna, La Laguna, Tenerife, Canary Islands, Spain
JANET M. WILMSHURST
Affiliation:
Landcare Research, PO Box 69040, Lincoln 7640, New Zealand School of Environment, The University of Auckland, Private Bag 92019, Auckland 1142, New Zealand
*
*Correspondence: Dr Jamie R. Wood email: [email protected]
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Summary

Extinctions have altered island ecosystems throughout the late Quaternary. Here, we review the main historic drivers of extinctions on islands, patterns in extinction chronologies between islands, and the potential for restoring ecosystems through reintroducing extirpated species. While some extinctions have been caused by climatic and environmental change, most have been caused by anthropogenic impacts. We propose a general model to describe patterns in these anthropogenic island extinctions. Hunting, habitat loss and the introduction of invasive predators accompanied prehistoric settlement and caused declines of endemic island species. Later settlement by European colonists brought further land development, a different suite of predators and new drivers, leading to more extinctions. Extinctions alter ecological networks, causing ripple effects for islands through the loss of ecosystem processes, functions and interactions between species. Reintroduction of extirpated species can help restore ecosystem function and processes, and can be guided by palaeoecology. However, reintroduction projects must also consider the cultural, social and economic needs of humans now inhabiting the islands and ensure resilience against future environmental and climate change.

Keywords

human settlementintroduced speciespredationhabitat losshuntingpalaeoecologyarchaeologyprehistoryecological restorationconservation biology
Type
Subject Reviews
Information
Environmental Conservation , Volume 44 , Issue 4: Thematic section: Humans and Island Environments , December 2017 , pp. 348 - 358
Copyright
Copyright © Foundation for Environmental Conservation 2017 

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References

Anderson, A. (2009) The rat and the octopus: initial human colonization and the prehistoric introduction of domestic animals to remote Oceania. Biological Invasions 11: 15031519.Google Scholar
Athens, J.S. (2009) Rattus exulans and the catastrophic disappearance of Hawai'i’s native lowland forest. Biological Invasions 11: 14891501.CrossRefGoogle Scholar
Atkinson, R. & Sevathian, J.C. (2007) A Guide to the Plants of Mauritius. Port Louis, Mauritius: Mauritius Stationery Manufacturers Ltd.Google Scholar
Barnosky, A.D., Koch, P.L., Feranec, R.S., Wing, S.L. & Shabel, A.B. (2004) Assessing the causes of late Pleistocene extinctions on the continents. Science 306: 7075.CrossRefGoogle ScholarPubMed
Barnosky, A.D., Hadly, E.A., Gonzalez, P., Head, J., Polly, P.D., Lawing, A.M. et al. (2017) Merging paleobiology with conservation biology to guide the future of terrestrial ecosystems. Science 355: eaah4787.Google Scholar
Bell, E.A., Bell, B.D. & Merton, D.V. (2016) The legacy of Big South Cape: rat irruption to rat eradication. New Zealand Journal of Ecology 40: 212218.Google Scholar
Benning, T.L., LaPointe, D., Atkinson, C.T. & Vitousek, P.M. (2002) Interactions of climate change with biological invasions and land use in the Hawaiian Islands: modeling the fate of endemic birds using a geographic information systems. Proceedings of the National Academy of Sciences of the United States of America 99: 1424614249.CrossRefGoogle Scholar
Bird, M. I., Taylor, D. & Hunt, C. (2005) Palaeoenvironments of insular Southeast Asia during the last glacial period: a savanna corridor in Sundaland? Quaternary Science Reviews 24: 22282242.Google Scholar
Blackburn, T.M., Cassey, P., Duncan, R.P., Evans, K.L. & Gaston, K.J. (2004) Avian extinction and mammalian introductions on oceanic islands. Science 305: 19551958.Google Scholar
Bonfiglio, L., Mangano, G., Marra, A.C., Masini, F., Pavia, M. & Petruso, D. (2002) Pleistocene Calabrian and Sicilian paleobioprovinces. Geobios, Mémoire Spécial 24: 2939.CrossRefGoogle Scholar
Bover, P. & Alcover, J.A. (2003) Understanding late Quaternary extinctions: the case of Myotragus balearicus (Bate, 1909). Journal of Biogeography 30: 771781.CrossRefGoogle Scholar
Bover, P., Valenzuela, A., Torres, E., Cooper, A., Pons, J. & Alcover, J.A. (2016) Closing the gap: new data on the last documented Myotragus and the first human evidence on Mallorca (Balearic Islands, Western Mediterranean Sea). The Holocene 26: 18871891.CrossRefGoogle Scholar
Bowman, D.M.J.S., Balch, J., Artaxo, P., Bond, W.J., Cochrane, M.A., D'Antonia, C.M. et al. (2011) The human dimension of fire regimes on Earth. Journal of Biogeography 38: 22232236.Google Scholar
Brodie, J.F., Aslan, C.E., Rogers, H.S., Redford, K.H. & Maron, J.L. (2014) Secondary extinctions of biodiversity. Trends in Ecology & Evolution 29: 664672.Google Scholar
Bullock, D. & North, S. (1984) Round Island in 1982. Oryx 18: 3641.CrossRefGoogle Scholar
Burney, D.A. & Burney, L.P. (2016) Monitoring results from a decade of native plant translocations at Makauwahi Cave Reserve, Kaua'i. Plant Ecology 217: 139153.Google Scholar
Bush, M.B., Restrepo, A. & Collins, A.F. (2014) Galápagos history, restoration, and a shifted baseline. Restoration Ecology 22: 296298.Google Scholar
Chapin, M.H., Wood, K.R., Perlman, S.P. & Maunder, M. (2004) A review of the conservation status of the endemic Pritchardia palms of Hawaii. Oryx 38: 273281.CrossRefGoogle Scholar
Cheke, A.S. (2013) Extinct birds of the Mascarenes and Seychelles – a review of the causes of extinction in the light of an important new publication on extinct birds. Phelsuma 21: 419.Google Scholar
Cheke, A.S. & Bour, R. (2014) Unequal struggle – how humans displaced the dominance of tortoises in island ecosystems. In: Western Indian Ocean Tortoises, ed. Gerlach, J., pp. 31120. Manchester, UK: Siri Scientific Press.Google Scholar
Cheke, A.S. & Hume, J.P. (2008) Lost Land of the Dodo: The Ecological History of the Mascarene Islands. London, UK: A&C Black Publishers.Google Scholar
Clarke, S.J., Miller, G.H., Fogel, M.L., Chivas, A.R. & Murray-Wallace, C.V. (2006) The amino acid and stable isotope biogeochemistry of elephant bird (Aepyornis) eggshells from southern Madagascar. Quaternary Science Reviews 25: 23432356.Google Scholar
Coffey, E.E.D., Froyd, C.A. & Willis, K.J. (2011) When is an invasive not an invasive? Macrofossil evidence of doubtful plant species in the Galápagos Islands. Ecology 92: 805812.CrossRefGoogle Scholar
Connor, S.E., van Leeuwen, J.F.N., Rittenour, T.M., van der Knaap, W.O., Ammann, B. & Björck, S.B. (2012) The ecological impact of oceanic island colonization – a palaeoecological perspective from the Azores. Journal of Biogeography 39: 10071023.Google Scholar
Corlett, R.T. (2007) The impact of hunting on the mammalian fauna of tropical Asian forests. Biotropica 39: 292303.Google Scholar
Davidson, N.C. (2014) How much wetland has the world lost? Long-term and recent trends in global wetland area. Marine and Freshwater Research 65: 934941.Google Scholar
de Lange, P.J., Norton, D.A., Heenan, P.B., Courtney, S.P., Molloy, B.P.J., Ogle, C.C. et al. (2004) Threatened and uncommon plants of New Zealand. New Zealand Journal of Botany 42: 4576.Google Scholar
Dodd, C.K. & Seigel, R.A. (1991) Relocation, repatriation, and translocation of amphibians and reptiles: are they conservation strategies that work? Herpetologica 47: 336350.Google Scholar
Duffy, J.E. (2003) Biodiversity loss, trophic skew and ecosystem functioning. Ecology Letters 6: 680687.CrossRefGoogle Scholar
Duncan, R.P. & Blackburn, T.M. (2004) Extinction and endemism in the New Zealand avifauna. Global Ecology and Biogeography 13: 509517.Google Scholar
Duncan, R.P., Blackburn, T.M. & Worthy, T.H. (2002) Prehistoric bird extinctions and human hunting. Proceedings of the Royal Society B 269: 517521.CrossRefGoogle ScholarPubMed
Duncan, R.P., Boyer, A.G. & Blackburn, T.M. (2013) Magnitude and variation of prehistoric bird extinctions in the Pacific. Proceedings of the National Academy of Sciences of the United States of America 110: 64366441.Google Scholar
Dunlap, T.R. (1997) Remaking the land: the acclimatization movement and Anglo ideas of nature. Journal of World History 8: 309319.CrossRefGoogle Scholar
Dunn, R.R., Harris, N.C., Colwell, R.K., Koh, L.P. & Sodhi, N.S. (2009) The sixth mass coextinction: are most endangered species parasites and mutualists? Proceedings of the Royal Society B 276: 30373045.Google Scholar
Ecroyd, C.E. (1995) Dactylanthus taylorii Recovery Plan. Wellington, New Zealand: Department of Conservation.Google Scholar
Ewers, R.M., Kliskey, A.D., Walker, S., Rutledge, D., Harding, J.S. & Didham, R.K. (2006) Past and future trajectories of forest loss in New Zealand. Biological Conservation 133: 312325.Google Scholar
Fleming, C.A. (1969) Rats and moa extinction. Notornis 16: 210211.Google Scholar
Flenley, J.R., King, A.S.M., Jackson, J., Chew, C., Teller, J.T. & Prentice, M.E. (1991) The late Quaternary vegetational and climatic history of Easter Island. Journal of Quaternary Science 6: 85115.CrossRefGoogle Scholar
Gibbs, J.P., Marquez, C. & Sterling, E.J. (2008) The role of endangered species reintroduction in ecosystem restoration: tortoise–cactus interactions on Española Island, Galapagos. Restoration Ecology 16: 8893.Google Scholar
Glover, I. (1986) Archaeology in Eastern Timor, 1966–67. Terra Australis 11: 1241.Google Scholar
Goodfriend, G.A., Cameron, R.A.D. & Cook, L.M. (1994) Fossil evidence of recent human impact on the land snail fauna of Madeira. Journal of Biogeography 21: 309320.CrossRefGoogle Scholar
Griffiths, C.J., Hansen, D.M., Jones, C.G., Zuēl, N. & Harris, S. (2011) Resurrecting extinct interactions with extant substitutes. Current Biology 21: 14 CrossRefGoogle ScholarPubMed
Griffiths, C.J. (2014) Rewilding in the Western Indian Ocean. In: Western Indian Ocean Tortoises, ed. Gerlach, J., pp. 325349. Manchester, UK: Siri Scientific Press.Google Scholar
Griffiths, O.L. & Florens, V.F.B. (2006) A Field Guide to the Non-marine Molluscs of the Mascarene Islands (Mauritius, Rodrigues and Réunion) and the Northern Dependencies of Mauritius. Port Louis, Mauritius: Bioculture Press.Google Scholar
Grove, R.H. (1996) Green Imperialism: Colonial Expansion, Tropical Island Edens and the Origins of Environmentalism, 1600–1860. Cambridge, UK: Cambridge University Press.Google Scholar
Hansen, D.M. (2010) On the use of taxon substitutes in rewilding projects on islands. In: Islands and evolution, eds. V. Pérez-Mellado & C. Ramon, pp. 111–146. Menorca, Spain: Institut Menorqí d'Estudis, Recerca.Google Scholar
Hansen, D.M. & Galetti, M. (2009) The forgotten megafauna. Science 324: 4243.Google Scholar
Hansen, D.M., Donlan, C.J., Griffiths, C.J. & Campbell, K.J. (2010) Ecological history and latent conservation potential: large and giant tortoises as a model or taxon substitions. Ecography 33: 272284.CrossRefGoogle Scholar
Heaney, L.R. (1991) A synopsis of climatic and vegetational change in Southeast Asia. Climatic Change 19: 5361.Google Scholar
Hearty, P.J., Olson, S.L., Kaufman, D.S., Edwards, R.L. & Cheng, H. (2004) Stratigraphy and geochronology of pitfall accumulations in caves and fissures, Bermuda. Quaternary Science Reviews 23: 11511171.Google Scholar
Hume, J.P. (2013) A synopsis of the pre-human avifauna of the Mascarene Islands. In: Proceedings of the 8th International Meeting of the Society of Avian Paleontology and Evolution, eds. Göhlich, U.B. & Kroh, A., pp. 195237. Vienna, Austria: Naturhistorisches Museum.Google Scholar
Hume, J.P. (2014a) Systematics, morphology, and ecological history of the Mascarene starlings (Aves: Sturnidae) with the description of a new genus and species from Mauritius. Zootaxa 3849: 175.CrossRefGoogle ScholarPubMed
Hume, J.P. (2014b) Fossil discoveries on Mauritius and Rodrigues. In: Western Indian Ocean Tortoises, ed. Gerlach, J., , J., pp. 203228. Manchester, UK: Siri Scientific Press.Google Scholar
Hunt, T.L. (2007) Rethinking Easter Island's ecological catastrophe. Journal of Archaeological Science 34: 485502.Google Scholar
Hunt, C.O. & Rabett, R.J. (2014) Holocene landscape intervention and plant food production strategies in island and mainland Southeast Asia. Journal of Archaeological Science 51: 2233.Google Scholar
Hutton, I., Parkes, J.P. & Sinclair, A.R.E. (2007) Reassembling island ecosystems: the case of Lord Howe Island. Animal Conservation 10: 2229.Google Scholar
Johnson, C.N. (2009) Ecological consequences of late Quaternary extinctions of megafauna. Proceedings of the Royal Society of London B 276: 25092519 Google Scholar
Johnson, T.H. & Stattersfield, A.J. (1990) A global review of island endemic birds. IBIS 132: 167180.Google Scholar
Karels, T.J., Dobson, F.S., Trevino, H.S. & Skibiel, A.L. (2008) The biogeography of avian extinctions on oceanic islands. Journal of Biogeography 35: 11061111.CrossRefGoogle Scholar
Keitt, B., Campbell, K., Saunders, A., Clout, M., Wang, Y., Heinz, R. et al. (2011) The Global Islands Invasive Vertebrate Eradication Database: a tool to improve and facilitate restoration of island ecosystems. In: Island Invasives: Eradication and Management, eds. Veitch, C.R, Clout, M.N. & Towns, D.R., pp. 7477. Morges, Switzerland: IUCN.Google Scholar
King, C.M. (1990) The Handbook of New Zealand Mammals. Oxford, UK: Oxford University Press.Google Scholar
Lee, W.G., Wood, J.R. & Rogers, G.M. (2010) The legacy of avian dominated plant-herbivore systems in New Zealand. New Zealand Journal of Ecology 34: 2847.Google Scholar
Liebherr, J.K. & Porch, N. (2015) Reassembling a lost lowland carabid beetle assemblage (Coleoptera) from Kauai, Hawaiian Islands. Invertebrate Systematics 29: 191213.CrossRefGoogle Scholar
Loope, L.L., Hughes, R.F. & Meyer, J.-Y. (2013) Plant invasions in protected areas of tropical Pacific Islands, with special reference to Hawaii. In: Plant Invasions in Protected Areas: Patterns, Problems and Challenges, ed. Foxcroft, L.C., Pyšek, P., Richardson, D.M. & Genovesi, P., pp. 313348. Berlin, Germany: Springer.Google Scholar
Louys, J. (2008) Quaternary extinctions in Southeast Asia. In: Mass Extinction, ed. Elewa, A.M.T., pp. 159189. Heidelberg, Germany: Springer-Verlag.CrossRefGoogle Scholar
Louys, J. (2014) The large terrestrial carnivore guild in Quaternary Southeast Asia. Quaternary Science Reviews 96: 8697.Google Scholar
Louys, J. & Meijaard, E. (2010) Palaeoecology of Southeast Asian megafauna‐bearing sites from the Pleistocene and a review of environmental changes in the region. Journal of Biogeography 37: 14321449.Google Scholar
Louys, J., Curnoe, D. & Tong, H.W. (2007) Characteristics of Pleistocene megafauna extinctions in Southeast Asia. Palaeogeography, Palaeoclimatology, Palaeoecology 243: 152173.CrossRefGoogle Scholar
Louys, J., Corlett, R.T., Price, G.J., Hawkins, S. & Piper, P.J. (2014) Rewilding the tropics, and other conservation translocations strategies in the tropical Asia-Pacific region. Ecology and Evolution 4: 43804398.Google Scholar
Louys, J., Price, G.J. & O'Connor, S. (2016) Direct dating of Pleistocene stegodon from Timor Island, East Nusa Tenggara. PeerJ 4: e1788.Google Scholar
Lyver, P.O'B., Wilmshurst, J.M., Wood, J.R., Jones, C.J., Fromont, M., Bellingham, P.J. et al. (2015) Looking back for the future: local knowledge and palaeoecology inform biocultural restoration of coastal ecosystems in New Zealand. Human Ecology 43: 681695.Google Scholar
McGlone, M.S., Wilmshurst, J.M. & Leach, H.M. (2005) An ecological and historical review of bracken (Pteridium esculentum) in New Zealand, and its cultural significance. New Zealand Journal of Ecology 29: 165184.Google Scholar
McWethy, D.B., Wilmshurst, J.M., Whitlock, C., Wood, J.R. & McGlone, M.S. (2014) A high-resolution chronology of rapid forest transitions following Polynesian arrival in New Zealand. PLoS ONE 9: e111328.Google Scholar
Maloney, B.K. (1980) Pollen analytical evidence for early forest clearance in North Sumatra. Nature 287: 324326.CrossRefGoogle Scholar
Maloney, B.K. (1985) Man's impact on the rainforests of West Malesia: the palynological record. Journal of Biogeography 12: 537558.Google Scholar
Manne, L.L., Brooks, T.M. & Pimm, S.L. (1999) Relative risk of extinction of passerine birds on continents and islands. Nature 399: 258261.CrossRefGoogle Scholar
Margono, B.A., Potapov, P.V., Turubanova, S., Stolle, F. & Hansen, M.C. (2014) Primary forest cover loss in Indonesia over 2000–2012. Nature Climate Change 4: 730735.Google Scholar
Meehan, H.J., McConkey, K.R. & Drake, D.R. (2002) Potential disruptions to seed dispersal mutualisms in Tonga, Western Polynesia. Journal of Biogeography 29: 695712.Google Scholar
Mey, E. (1990) Eine neue ausgestorbene Vogel-Ischnozere von Neuseeland, Huiacola extinctus (Insecta, Phthiraptera). Zoologischer Anzeiger 224: 4973.Google Scholar
Meyer, J.-Y. & Florence, J. (1996) Tahiti's native flora endangered by the invasion of Miconia calvescens DC. (Melastomataceae). Journal of Biogeography 23: 775781.Google Scholar
Minteer, B.A., Collins, J.P., Love, K.E. & Puschendorf, R. (2014) Avoiding (re)extinction. Science 344: 260261.Google Scholar
Miskelly, C.M. & Powlesland, R.G. (2013) Conservation translocations of New Zealand birds, 1863–2012. Notornis 60: 328.Google Scholar
Miskelly, C.M., Taylor, G.A., Gummer, H. & Williams, R. (2009) Translocations of eight species of burrow-nesting seabirds (genera Pterodroma, Pelecanoides, Pachyptila and Puffinus: family Procellariidae). Biological Conservation 142: 19651980.Google Scholar
Morwood, M.J., Sutikna, T., Saptomo, E.W., Westaway, K.E., Due, R.A., Moore, M.W. et al. (2008) Climate, people and faunal succession on Java, Indonesia: evidence from Song Gupuh. Journal of Archaeological Science 35: 17761789.CrossRefGoogle Scholar
Nogués-Bravo, D., Simberloff, D., Rahbek, C. & Sanders, N.J. (2016) Rewilding is the new Pandora's Box in conservation. Current Biology 26: R87–R91.Google Scholar
Olson, S.L. & Wingate, D.B. (2000) Two new species of flightless rails (Aves: Rallidae) from the middle Pleistocene ‘crane fauna’ of Bermuda. Proceedings of the Biological Society of Washington 113: 356368.Google Scholar
Page, W.S. & D'Argent, G. (1997) A Vegetation Survey of Mauritius. Port Louis, Mauritius: Mauritian Wildlife Foundation.Google Scholar
Pedrono, M., Griffiths, O.L., Clausen, A., Smith, L.L., Griffiths, C.J., Wilmé, L. & Burney, D.A. (2013) Using a surviving lineage of Madagascar's vanished megafauna for ecological restoration. Biological Conservation 159: 501506.Google Scholar
Perry, G.L.W., Wilmshurst, J.M., McGlone, M.S., McWethy, D.B. & Whitlock, C. (2012) Explaining fire-driven landscape transformation during the Initial Burning Period of New Zealand's prehistory. Global Change Biology 18: 16091621.Google Scholar
Perry, G.L., Wheeler, A., Wood, J.R. & Wilmshurst, J.M. (2014) A high-precision chronology for the rapid extinction of New Zealand moa (Aves, Dinornithiformes). Quaternary Science Reviews 105: 126135.Google Scholar
Piper, P.J., Rabett, R.J. & Kurui, E.B. (2008) Using community, composition and structural variation in terminal Pleistocene vertebrate assemblages to identify human hunting behaviour at the Niah Caves, Borneo. Bulletin of the Indo-Pacific Prehistory Association 28: 8898.Google Scholar
Prebble, M. (2008) No fruit on that beautiful shore: what plants were introduced to the subtropical Polynesian islands prior to European contact. Terra Australis 29: 227251.Google Scholar
Prebble, M. & Dowe, J.L. (2008) The late Quaternary decline and extinction of palms on oceanic Pacific islands. Quaternary Science Reviews 27: 25462567.CrossRefGoogle Scholar
Rabett, R.J. & Piper, P.J. (2012) The emergence of bone technologies at the end of the Pleistocene in Southeast Asia: regional and evolutionary implications. Cambridge Archaeological Journal 22: 3756.CrossRefGoogle Scholar
Rando, J.C. & Alcover, J.A. (2007) Evidence for a second western Palaearctic seabird extinction during the last Millennium: the lava shearwater Puffinus olsoni . IBIS 150: 188192.CrossRefGoogle Scholar
Rando, J.C., Pieper, H. & Alcover, J.A. (2014) Radiocarbon evidence for house mouse presence on Madeira Island (North Atlantic) one millennium ago. Proceedings of the Royal Society B 281: 20133126.Google Scholar
Rawlence, N.J., Metcalf, J., Wood, J.R., Worthy, T.H., Austin, J.J. & Cooper, A. (2012) The effect of climate and environmental change on the megafaunal moa of New Zealand in the absence of humans. Quaternary Science Reviews 50: 141153.CrossRefGoogle Scholar
Rocha, L.A., Aleixo, A., Allen, G., Almeda, F., Baldwin, C.C., Barclay, M.V.L. et al. (2014) Specimen collection: an essential tool. Science 344: 814815.Google Scholar
Roff, D.A. & Roff, R.J. (2003) Of rats and Maoris: a novel method for the analysis of patterns of extinction in the New Zealand avifauna before European contact. Evolutionary Ecology Research 5: 759779.Google Scholar
Russell, J.C., Innes, J.G., Brown, P.H. & Byrom, A.E. (2015) Predator-free New Zealand: conservation country. BioScience 65: 520525.Google Scholar
Russel, J.C., Meyer, J.-Y., Holmes, N.D. & Pagad, S. (in press) Invasive alien species on islands: impacts, distribution, interactions and management. Environmental Conservation.Google Scholar
Sax, D.F. & Gaines, S.D. (2008) Species invasions and extinction: the future of native biodiversity on islands. Proceedings of the National Academy of Sciences of the United States of America 105 (Suppl. 1): 1149011497.Google Scholar
Schüle, W. (1993) Mammals, vegetation and the initial human settlement of the Mediterranean islands: a palaeoecological approach. Journal of Biogeography 20: 399412.CrossRefGoogle Scholar
Seddon, P.J., Strauss, W.M. & Innes, J. (2012) Animal translocations: what are they and why do we do them? In: Reintroduction Biology: Integrating Science and Management, eds. Ewen, J.G., Armstrong, D.P., Parker, K.A. & Seddon, P.J., pp. 132. Hoboken, NJ, USA: Wiley-Blackwell.Google Scholar
Seddon, P.J., Griffiths, C.J., Soorae, P.S. & Armstrong, D.P. (2014) Reversing defaunation: restoring species in a changing world. Science 345: 406412.Google Scholar
Shapiro, B. (2015) How to Clone a Mammoth. Princeton, NJ, USA: Princeton University Press.Google Scholar
Smith, J.L., Mulder, C.P.H. & Ellis, J.C. (2011) Seabirds as ecosystem engineers: nutrient inputs and physical disturbance. In: Seabird Islands: Ecology, Invasion and Restoration, eds. Mulder, C.P.H., Anderson, W.B., Towns, D.R. & Bellingham, P.J., pp. 2755. New York, NY, USA: Oxford University Press.CrossRefGoogle Scholar
Sobral, F.L., Lees, A.C. & Cianciaruso, M.V. (2016) Introductions do not compensate for functional and phylogenetic losses following extinctions in insular bird assemblages. Ecology Letters 19: 10911100.Google Scholar
Sodhi, N.S., Koh, L.P., Brook, B.W. & Ng, P.K.L. (2004) Southeast Asian biodiversity: an impending disaster. Trends in Ecology and Evolution 19: 654660.Google Scholar
Steadman, D.W. (1995) Prehistoric extinctions of Pacific Island birds: biodiversity meets zooarchaeology. Science 267: 11231131.Google Scholar
Steadman, D.W. (1996) Human-caused extinction of birds. In: Biodiversity II: Understanding and Protecting Our Biological Resources, eds. Reaka-Kudla, M.L., Wilson, D.E. & Wilson, E.O, pp. 139161. Washington, DC, USA: Joseph Henry Press.Google Scholar
Steadman, D.W. (2006) Extinction & Biogeography of Tropical Pacific Birds. Chicago, IL, USA: Chicago University Press.Google Scholar
Steadman, D.W., Pregill, G.K. & Burley, D.V. (2002) Rapid prehistoric extinction of iguanas and birds in Polynesia. Proceedings of the National Academy of Sciences of the United States of America 99: 36733677.Google Scholar
Swisher, C.C., Curtis, van den Bergh, G.H., Suprijo, G.D., Widiasmoro, A.. (1994) Age of the earliest known hominids in Java, Indonesia. Science 263: 11181121.Google Scholar
Taylor, R. (1979) How the Macquarie Island parakeet became extinct. New Zealand Journal of Ecology 2: 4245.Google Scholar
Terzopoulou, S., Rigal, F., Whittaker, R.J., Borges, P.A.V. & Triantis, K.A. (2015) Drivers of extinction: the case of Azorean beetles. Biology Letters 11: 20150273.Google Scholar
Thaman, R. (2002) Threats to Pacific Island biodiversity and biodiversity conservation in the Pacific Islands. Development Bulletin 58: 2327.Google Scholar
Triantis, K.A., Borges, P.A.V., Ladle, R.J., Hortal, J., Cardoso, P., Gaspar, C. et al. (2010) Extinction debt on oceanic islands. Ecography 33: 285294.CrossRefGoogle Scholar
Turvey, S.T., Oliver, J.R., Narganes, Y.M. & Rye, P. (2007) Late Holocene extinction of Puerto Rican native land mammals. Biology Letters 3: 193196.Google Scholar
Valenzuela, A. & Alcover, J.A. (2013) Radiocarbon evidence for a prehistoric deliberate translocation: the weasel (Mustela nivalis) of Mallorca. Biological Invasions 15: 717722.Google Scholar
Van Den Bergh, G.D., Li, B., Brumm, A., Grün, R., Yurnaldi, D., Moore, M.W., Kurniawan, I., Setiawan, R., Aziz, F., Roberts, R.G. & Storey, M. (2016) Earliest hominin occupation of Sulawesi, Indonesia. Nature 529: 208211.CrossRefGoogle ScholarPubMed
Vigne, J.D., Zazzo, A., Saliège, J.F., Poplin, F., Guilaine, J. & Simmons, A. (2009) Pre-Neolithic wild boar management and introduction to Cyprus more than 11,400 years ago. Proceedings of the National Academy of Sciences of the United States of America 106: 1613516138.Google Scholar
Warner, R.E. (1968) The role of introduced diseases in the extinction of the endemic Hawaiian avifauna. The Condor 70: 101120.Google Scholar
Watts, C., Stringer, I., Sherley, G., Gibbs, G. & Green, C. (2008) History of weta (Orthoptera: Anostostomatidae) translocation in New Zealand: lessons learned, islands as sanctuaries and the future. Journal of Insect Conservation 12: 359370.Google Scholar
Weisler, M.I. (1995) Henderson Island prehistory: colonization and extinction on a remote Polynesian island. Biological Journal of the Linnean Society 56: 377404.Google Scholar
Wikelski, M., Foufopoulos, J., Vargas, H. & Snell, H. (2004) Galápagos birds and diseases: invasive pathogens as threats for island species. Ecology and Society 9: 5.Google Scholar
Wilmshurst, J.M., Anderson, A.J., Higham, T.F.G. & Worthy, T.H. (2008) Dating the late prehistoric dispersal of Polynesians to New Zealand using the commensal Pacific rat. Proceedings of the National Academy of Sciences of the United States of America 105: 76767680.Google Scholar
Wilmshurst, J.M., Hunt, T.L., Lipo, C.P. & Anderson, A.J. (2011) High-precision radiocarbon dating shows recent and rapid initial human colonization of East Polynesia. Proceedings of the National Academy of Sciences of the United States of America 108: 18151820.Google Scholar
Wilmshurst, J.M., Moar, N.T., Wood, J.R., Bellingham, P., Findlater, A., Robinson, J. & Stone, C. (2014) Pollen and ancient DNA provide conservation baselines for offshore islands in New Zealand. Conservation Biology 28: 202212.Google Scholar
Wood, J.R. (2013) New Zealand, 500 years ago. In: Grzimek's Animal Life Encyclopedia: Extinction, ed. MacLeod, N., pp. 595604. Farmington Hills, MI, USA: Gale.Google Scholar
Wood, J.R., Perry, G.L.W. & Wilmshurst, J.M. (2017) Using palaeoecology to determine baseline ecological requirements and interaction networks for de-extinction candidate species. Functional Ecology 31: 10121020.Google Scholar
Wood, J.R. & Wilmshurst, J.M. (2017) Changes in New Zealand forest plant communities following the prehistoric extinction of avian megaherbivores. Journal of Vegetation Science 28: 160171.Google Scholar
Wood, J.R., Wilmshurst, J.M., Holzapfel, A.S., Worthy, T.H. & Cooper, A. (2012) A lost link between a flightless parrot and a parasitic plant and the potential role of coprolites in conservation paleobiology. Conservation Biology 26: 10911099.Google Scholar
Wood, J.R., Wilmshurst, J.M., Rawlence, N.J., Bonner, K.I., Worthy, T.H., Kinsella, J.M. & Cooper, A. (2013) A megafauna's microfauna: gastrointestinal parasites of New Zealand's extinct moa (Aves: Dinornithiformes). PLoS ONE 8: e57315.Google Scholar
Worthy, T.H. & Holdaway, R.N. (2002) The Lost World of the Moa. Christchurch, New Zealand: Canterbury University Press.Google Scholar
Wyatt, K.B., Campos, P.F., Gilbert, M.T.P., Kolokotronis, S., Hynes, W.H., DeSalle, R. et al. (2008) Historical mammal extinction on Christmas Island (Indian Ocean) correlates with introduced infectious disease. PLoS ONE 3: e3602.Google Scholar
Zazzo, A., Lebon, M., Quiles, A., Reiche, I. & Vigne, J.D. (2015) Direct dating and physico-chemical analyses cast doubts on the coexistence of humans and dwarf hippos in Cyprus. PLoS ONE 10: e0134429.CrossRefGoogle ScholarPubMed