Advanced search
Publication Cover
New Zealand Journal of Zoology Volume 45, 2018 - Issue 2
Submit an article Journal homepage
1,883
Views
8
CrossRef citations to date
0
Altmetric
Review article

The ancient DNA revolution: the latest era in unearthing New Zealand’s faunal history

Theresa L. ColeDepartment of Zoology, University of Otago, Dunedin, New Zealand;Long Term Ecology Lab, Landcare Research, Lincoln, New ZealandCorrespondence[email protected]
View further author information
&
Jamie R. WoodLong Term Ecology Lab, Landcare Research, Lincoln, New ZealandView further author information
Pages 91-120 | Received 08 Aug 2017, Accepted 01 Sep 2017, Published online: 25 Sep 2017

References

  • Allen MS, Matisoo-Smith E, Horsburgh A. 2001. Pacific ‘Babes’1: issues in the origins and dispersal of Pacific pigs and the potential of mitochondrial DNA analysis. International Journal of Osteoarchaeology. 11:4–13.
  • Allentoft EA, Collins M, Harker D, Haile J, Oskam C, Hale M, Campos PF, Samaniego JA, Gilbert MTP, Willerslev E, et al. 2012. The half-life of DNA in bone: measuring decay kinetics in 158 dated fossils. Proceedings of the Royal Society B. 279:4724–4733.
  • Allentoft ME, Bunce M, Scofield RP, Hale ML, Holdaway RN. 2010. Highly skewed sex ratios and biased fossil deposition of moa: ancient DNA provides new insight on New Zealand's extinct megafauna. Quaternary Science Reviews. 29:753–762.
  • Allentoft ME, Schuster SC, Holdaway RN, Hale ML, McLay E, Oskam C, Gilbert MT, Spencer P, Willerslev E, Bunce M. 2009. Identification of microsatellites from an extinct moa species using high-throughput (454) sequence data. BioTechniques. 46:195–200.
  • Allentoft ME, Rawlence NJ. 2012. Moa’s Ark or volant ghosts of Gondwana? Insights from nineteen years of ancient DNA research on the extinct moa (Aves: Dinornithiformes) of New Zealand. Annals of Anatomy - Anatomischer Anzeiger. 194:36–51.
  • Allwood J, Gleeson D, Mayer G, Daniels S, Beggs JR, Buckley TR. 2010. Support for vicariant origins of the New Zealand Onychophora. Journal of Biogeography. 37:669–681.
  • Anderson AJ. 1996. Was Rattus exulans in New Zealand 2000 years ago? AMS radiocarbon ages from Shag River mouth. Archaeology in Oceania. 31:178–184.
  • Anderson AJ. 2000. Differential reliability of 14C AMS ages of Rattus exulans bone gelatin in south Pacific prehistory. Journal of the Royal Society of New Zealand. 30:243–261.
  • Anderson AJ. 2017. Changing perspectives upon Māori colonisation voyaging. Journal of the Royal Society of New Zealand. 47:222–231.
  • Anmarkrud JA, Lifjeld JT. 2017. Complete mitochondrial genomes of eleven extinct or possibly extinct bird species. Molecular Ecology Resources. 17:334–341.
  • Austin JJ, Joseph L, Pedler LP, Black AB. 2013. Uncovering cryptic evolutionary diversity in extant and extinct populations of the southern Australian arid zone western and thick-billed grasswrens (Passeriformes: Maluridae: Amytornis). Conservation Genetics. 14:1173–1184.
  • Bergner LM, Dussex N, Jamieson IG, Robertson BC. 2016. European colonization, not Polynesian arrival, impacted population size and genetic diversity in the critically endangered New Zealand kākāpō. Journal of Heredity. 107:593–602.
  • Boessenkool S, Austin JJ, Worthy TH, Scofield RP, Cooper A, Seddon PJ, Waters JM. 2009. Relict or colonizer? Extinction and range expansion of penguins in southern New Zealand. Proceedings of the Royal Society B. 276:815–821.
  • Boessenkool S, Star B, Scofield RP, Seddon PJ, Waters JM. 2010. Lost in translation or deliberate falsification? Genetic analyses reveal erroneous museum data for historic penguin specimens. Proceedings of the Royal Society B. 277:1057–1064.
  • Brace S, Palkopoulou E, Dalén L, Lister AM, Miller M, Otte M, Germonpre M, Blockley SPE, Stewart JR, Barnes I. 2012. Serial population extinctions in a small mammal indicate Late Pleistocene ecosystem instability. Proceedings of the National Academy of Sciences USA. 109:20532–20536.
  • Briggs AW, Stenzel U, Johnson PLF, Green RE, Kelso J, Prüfer K, Meyer M, Krause J, Ronan MT, Lachmann M, et al. 2007. Patterns of damage in genomic DNA sequences from a Neanderthal. Proceedings of the National Academy of Sciences. 104:14616–14621.
  • Bunce M, Szulkin M, Lerner HRL, Barnes I, Shapiro B, Cooper A, Holdaway RN, Penny D. 2005. Ancient DNA provides new insights into the evolutionary history of New Zealand’s extinct giant eagle. PLOS Biology. 3:e9.
  • Bunce M, Worthy TH, Ford T, Hoppitt W, Willerslev E, Drummond A, Cooper A. 2003. Extreme reversed sexual size dimorphism in the extinct New Zealand moa Dinornis. Nature. 425:172–175.
  • Bunce M, Worthy TH, Phillips MJ, Holdaway RN, Willerslev E, Haile J, Shapiro B, Scofield RP, Drummond A, Kamp PJJ, et al. 2009. The evolutionary history of the extinct ratite moa and New Zealand Neogene paleogeography. Proceedings of the National Academy of Sciences. 106:20646–20651.
  • Campbell KL, Roberts JEE, Watson LN, Stetefeld J, Sloan AM, Signore AV, Howatt JW, Tame JRH, Rohland N, Shen T-J, et al. 2010. Substitutions in woolly mammoth hemoglobin confer biochemical properties adaptive for cold tolerance. Nature Genetics. 42:536–540.
  • Chapple DG, Ritchie PA, Daugherty CH. 2009. Origin, diversification, and systematics of the New Zealand skink fauna (Reptilia: Scincidae). Molecular Phylogenetics and Evolution. 52:470–487.
  • Chinn WG, Gemmell NJ. 2004. Adaptive radiation within New Zealand endemic species of the cockroach genus Celatoblatta Johns (Blattidae): a response to Plio-Pleistocene mountain building and climate change. Molecular Ecology. 13:1507–1518.
  • Christidis L, Leeton PR, Westerman M. 1996. Were bowerbirds part of the New Zealand fauna? Proceedings of the National Academy of Sciences USA. 93:3898–3901.
  • Collins CJ, Rawlence NJ, Prost S, Anderson CNK, Knapp M, Scofield RP, Robertson BC, Smith I, Matisoo-Smith EA, Chilvers BL, et al. 2014. Extinction and recolonization of coastal megafauna following human arrival in New Zealand. Proceedings of the Royal Society B. 281:20140097.
  • Collins CJ, Rawlence NJ, Worthy TH, Scofield RP, Tennyson AJD, Smith I, Knapp M, Waters JM. 2014. Pre-human New Zealand sea lion (Phocarctos hookeri) rookeries on mainland New Zealand. Journal of the Royal Society of New Zealand. 44:1–16.
  • Cooper A, Cooper RA. 1995. The Oligocene bottleneck and New Zealand biota: genetic record of a past environmental crisis. Proceedings of the Royal Society B. 261:293–302.
  • Cooper A, Lalueza-Fox C, Anderson S, Rambaut A, Austin J, Ward R. 2001. Complete mitochondrial genome sequences of two extinct moas clarify ratite evolution. Nature. 409:704–707.
  • Cooper A, Mourer-Chauviré C, Chambers GK, von Haeseler A, Wilson AC, Pääbo S. 1992. Independent origins of New Zealand moas and kiwis. Proceedings of the National Academy of Sciences USA. 89:8741–8744.
  • Cooper A, Poinar HN. 2000. Ancient DNA: do it right or not at all. Science. 1139:416.
  • Cooper JH, Tennyson AJD. 2008. Wrecks and residents: the fossil gadfly petrels (Pterodroma spp.) of the Chatham Islands, New Zealand. Oryctos. 7:227–248.
  • Cracraft J. 1972. Continental drift and Australian avian biogeography. Emu. 72:171–174.
  • Dabney J, Knapp M, Glocke I, Gansauge M, Weihmann A, Nickel B, Valdiosera C, Garcia N, Paabo S, Arsuaga J-L, et al. 2013. Complete mitochondrial genome sequence of a Middle Pleistocene cave bear reconstructed from ultrashort DNA fragments. Proceedings of the National Academy of Sciences USA. 110:15758–15763.
  • DeSalle R, Gatesy J, Wheeler W, Grimaldi D. 1992. DNA sequences from a fossil termite in Oligo-Miocene amber and their phylogenetic implications. Science. 257:1933–1936.
  • Diamond J. 1990. New Zealand as an archipelago: an international perspective. In: Towns DR, CH Daugherty, IAE Atkinson, editors. Ecological restoration of New Zealand islands. Conservation Sciences Publication No 2. Wellington, New Zealand: Department of Conservation; p. 3–8.
  • Dumbacher JP, Pratt TK, Fleischer RC. 2003. Phylogeny of the owlet-nightjars (Aves: Aegothelidae) based on mitochondrial DNA sequence. Molecular Phylogenetics and Evolution. 29:540–549.
  • Dussex N, Rawlence NJ, Robertson BC, Hofreiter M. 2015. Ancient and contemporary DNA reveal a pre-human decline but no population bottleneck associated with recent human persecution in the kea (Nestor notabilis). PloS ONE. 10:e0118522.
  • Emerson BC, Hickerson MJ. 2015. Lack of support for the time-dependent molecular evolution hypothesis. Molecular Ecology. 24:702–709.
  • Fain MG, Krajewski C, Houde P. 2007. Phylogeny of ‘core Gruiformes’ (Aves: Grues) and resolution of the Limpkin-Sungrebe problem. Molecular Phylogenetics and Evolution. 43:515–529.
  • Fleming CA. 1979. The geological history of New Zealand and its life. Auckland, New Zealand: Auckland University Press. 141 p.
  • Gansauge M, Meyer M. 2013. Single-stranded DNA library preparation for the sequencing of ancient or damaged DNA. Nature Protocols. 8:737–748.
  • Gansauge M, Meyer M. 2014. Selective enrichment of damaged DNA molecules for ancient genome sequencing. Genome Research. 24:1543–1549.
  • Gansauge M, Gerber T, Glocke I, Korlević P, Lippik L, Nagel S, Riehl LM, Schmidt A, Meyer A. 2017. Single-stranded DNA library preparation from highly degraded DNA using T4 DNA ligase. Nucleic Acids Research. 45:D79–D84.
  • Garcia-R JC, Trewick SA. 2015. Dispersal and speciation in purple swamphens (Rallidae: Porphyrio). The Auk. 132:140–155.
  • Garcia-R JC, Gibb GC, Trewick SA. 2014a. Deep global evolutionary radiation in birds: diversification and trait evolution in the cosmopolitan bird family Rallidae. Molecular Phylogenetics and Evolution. 81:96–108.
  • Garcia-R JC, Gibb GC, Trewick SA, Rook L. 2014b. Eocene diversification of crown group rails (Aves: Gruiformes: Rallidae). PLoS ONE. 9:e109635.
  • Gibb GC, England R, Hartig G, McLenachan PA, Taylor Smith BL, McComish BJ, Cooper A, Penny D. 2015. New Zealand passerines help clarify the diversification of major songbird lineages during the Oligocene. Genome Biology and Evolution. 7:2983–2995.
  • Gibbs G. 2016. Ghosts of Gondwana. Nelson, New Zealand: Potton & Burton. 367 p.
  • Gilbert MTP, Bandelt H-J, Hofreiter M, Barnes I. 2005. Assessing ancient DNA studies. Trends in Ecology and Evolution. 20:541–554.
  • Goldberg J, Trewick SA, Paterson AM. 2008. Evolution of New Zealand’s terrestrial fauna: a review of molecular evidence. Philosophical Transactions of the Royal Society B. 363:3319–3334.
  • Golenberg EM, Giannasi DE, Clegg MT, Smiley CJ, Durbin M, Henderson D, Zurawski G. 1990. Chloroplast DNA sequence from a Miocene Magnolia species. Nature. 344:656–658.
  • Grealy AC, McDowell MC, Scofield RP, Murray DC, Fusco DA, Haile J, Prideaux GJ, Bunce M. 2015. A critical evaluation of how ancient DNA bulk bone metabarcoding complements traditional morphological analysis of fossil assemblages. Quaternary Science Reviews. 128:37–47.
  • Grealy AC, Rawlence NJ, Bunce M. 2017. Time to spread your wings: a review of the avian ancient DNA field. Genes. 8:e184.
  • Green RE, Krause J, Briggs AW, Maricic T, Stenzel U, Kircher M, Patterson N, Li H, Zhai W, Fritz MHY. 2010. A draft sequence of the Neanderthal genome. Science. 328:710–722.
  • Greig K, Boocock J, Prost S, Horsburgh KA, Jacomb C, Walter R, Matisoo-Smith E, Kayser M. 2015. Complete mitochondrial genomes of New Zealand’s first dogs. PLoS ONE. 10:e013856.
  • Grosser S, Burridge CP, Peucker AJ, Waters JM, Chiang T-Y. 2015. Coalescent modelling reveals recent secondary-contact of cryptic penguin species. PLoS ONE. 10:e0144966.
  • Grosser S, Rawlence NJ, Anderson CNK, Smith IWG, Scofield RP, Waters JM. 2016. Invader or resident? Ancient-DNA reveals rapid species turnover in New Zealand little penguins. Proceedings of the Royal Society B. 283:20152879.
  • Grosser S, Scofield RP, Waters JM. 2017. Multivariate skeletal analyses support a taxonomic distinction between New Zealand and Australian Eudyptula penguins (Sphenisciformes: Spheniscidae). Emu. 117:276–283.
  • Haile J, Holdaway R, Oliver K, Bunce M, Gilbert MTP, Nielsen R, Munch K, Ho SYW, Shapiro B, Willerslev E. 2007. Ancient DNA chronology within sediment deposits: are paleobiological reconstructions possible and is DNA leaching a factor? Molecular Biology and Evolution. 24:982–989.
  • Hamel J, Leach HM. 1979. Radiocarbon dates from Long Beach, Otago, New Zealand. New Zealand Archaeological Association Newsletter. 22:128.
  • Hartnup K, Huynen L, Te Kanawa R, Shepherd L, Millar C, Lambert D. 2009. A molecular study of a rare Maori cloak. In: Haslam M, Robertson G, Crowther A, Nugent S, Kirkwood S, editors. Archaeological science under a microscope. Studies in residue and ancient DNA analysis in honour of Thomas H. Loy. Terra Australis 30. Canberra, Australia: ANU E Press; p. 198–206.
  • Hartnup K, Huynen L, Te Kanawa R, Shepherd LD, Millar CD, Lambert DM. 2011. Ancient DNA recovers the origins of Māori feather cloaks. Molecular Biology and Evolution. 28:2741–2750.
  • Heintzman PD, Soares AER, Chang D, Shapiro B. 2015. Paleogenomics. Reviews in Cell Biology and Molecular Medicine. 1:243–267.
  • Higuchi R, Bowman B, Freiberger M, Ryder OA, Wilson AC. 1984. DNA sequences from the quagga, an extinct member of the horse family. Nature. 312:282–284.
  • Ho SYW, Duchéne S, Molak M, Shapiro B. 2015. Time-dependent estimates of molecular evolutionary rates: evidence and causes. Molecular Ecology. 24:6007–6012.
  • Hofreiter M, Serre D, Poinar HN, Kuch M, Paabo S. 2001. Ancient DNA. Nature Reviews Genetics. 2:353–359.
  • Holdaway RN. 1996. Arrival of rats in New Zealand. Nature. 384:225–226.
  • Holdaway RN, Thorneycroft JM, McClelland P, Bunce M. 2010. Former presence of a parakeet (Cyanoramphus sp.) on Campbell Island, New Zealand subantarctic, with notes on the island's fossil sites and fossil record. Notornis. 57:8–18.
  • Horrocks M, Jones MD, Beever RE, Sutton DG. 2002. Analysis of plant microfossils in prehistoric coprolites from Harataonga Bay, Great Barrier Island, New Zealand. Journal of the Royal Society of New Zealand. 32:617–628.
  • Houde P, Cooper A, Leslie E, Strand AE, Montano GA. 1997. Phylogeny and evolution of 12S rDNA in Gruiformes (Aves). In: Mindell P, editor. Avian molecular evolution and systematics. San Diego, USA: Academic Press; p. 121–158.
  • Huynen L, Millar CD, Scofield RP, Lambert DM. 2003. Nuclear DNA sequences detect species limits in ancient moa. Nature. 425:175–178.
  • Huynen L, Susuki T, Ogura T, Watanabe Y, Millar CD, Hofreiter M, Smith C, Mirmoeini S, Lambert DM, 2014. Reconstruction and in vivo analysis of the extinct tbx5 gene from ancient wingless moa (Aves: Dinornithiformes). BMC Evolutionary Biology. 14:75.
  • Johansson US, Pasquet E, Irestedt M, Turvey ST. 2011. The New Zealand thrush: an extinct oriole. Plos One. 6:e24317.
  • Johnson JA, Altwegg R, Evans DM, Ewen JG, Gordon IJ, Pettorelli N, Young JK. 2016. Is there a future for genome-editing technologies in conservation? Animal Conservation. 19:97–101.
  • King GA, Gilbert MTP, Willerslev E, Collins MJ, Kenward H. 2009. Recovery of DNA from archaeological insect remains: first results, problems and potential. Journal of Archaeological Science. 36:1179–1183.
  • Knapp M, Clarke AC, Horsburgh KA, Matisoo-Smith EA. 2012. Setting the stage—building and working in an ancient DNA laboratory. Annals of Anatomy. 194:3–6.
  • Lambert DM, Ritchie PA, Millar CD, Holland B, Drummond AJ, Baroni C. 2002. Rates of evolution in ancient DNA from Adélie penguins. Science. 295:2270–2273.
  • Leonardi M, Librado P, Der Sarkissian C, Schubert M, Alfarhan AH, Alquraishi SA, Al-Rasheid KAS, Gamba C, Willerslev E, Orlando L. 2017. Evolutionary patterns and processes: lessons from ancient DNA. Systematic Biology. 66:e1–e29.
  • Lerner H, Christidis L, Gamauf A, Griffiths C, Haring E, Huddleston CJ, Kabra S, Kocum A, Krosby M, Kvaløy K. 2017. Phylogeny and new taxonomy of the booted eagles (Accipitriformes: Aquilinae). Zootaxa. 4216:301–320.
  • Lindahl T. 1993. Instability and decay of the primary structure of DNA. Nature. 362:709–715.
  • Lindahl T, Nyberg B. 1972. Rate of depurination of native deoxyribonucleic acid. Biochemistry. 11:3610–3618.
  • Loreille O, Roumat E, Verneau O, Bouchet F, Hänni C. 2001. Ancient DNA from Ascaris: extraction amplification and sequences from eggs collected in coprolites. International Journal of Parasitology. 31:1101–1106.
  • Margulies M, Egholm M, Altman WE, Attiya S, Bader JS, Bemben LA, Berka J, Braverman MS, Chen Y-J, Chen Z, et al. 2005. Genome sequencing in microfabricated high-density picolitre reactors. Nature. 437:377–380.
  • Matisoo-Smith E. 1994. The human colonisation of Polynesia. A novel approach: genetic analyses of the Polynesian rat (Rattus exulans). The Journal of the Polynesian Society. 103:75–87.
  • Matisoo-Smith E. 2002. Something old: something new: do genetic studies of contemporary populations reliably represent prehistoric populations of Pacific Rattus exulans? Human Biology. 74:489–496.
  • Matisoo-Smith E, Allen JS. 2001. Name that rat: molecular and morphological identification of Pacific rodent remains. International Journal of Osteoarchaeology. 11:34–42.
  • Matisoo-Smith E, Robins J. 2004. Origins and dispersals of Pacific peoples: evidence from mtDNA phylogenies of the Pacific rat. Proceedings of the National Academy of Sciences USA. 101:9167–9172.
  • Matisoo-Smith E, Robins J. 2009. Mitochondrial DNA evidence for the spread of Pacific rats through Oceania. Biological Invasions. 11:1521–1527.
  • Matisoo-Smith E, Allen JS, Ladefoged TN, Roberts RM, Lambert DM. 1997. Ancient DNA from Polynesian rats: extraction, amplification and sequence from single small bones. Electrophoresis. 18:1534–1537.
  • Matisoo-Smith E, Sutton DG, Ladefoged TN, Lambert DM, Allen JS. 1999. Prehistoric mobility in Polynesia: mtDNA variation in Rattus exulans from the Chatham and Kermadec Islands. Asian Perspectives. 38:186–199.
  • Matisoo-Smith E, Roberts K, Welikala N, Tannock G, Chester P, Feek D, Flenley J. 2008. Recovery of DNA and pollen from New Zealand lake sediments. Quaternary International. 184:139–149.
  • McCormack JE, Rodríguez-Gómez F, Tsai WLE, Faircloth BC. 2017. Transforming museum specimens into genomic resources. In: Webster MS, editor. The extended specimen: emerging frontiers in collections-based ornithological research. Boca Raton, FL: CRC Press.
  • Meyer M, Kircher M. 2010. Illumina sequencing library preparation for highly multiplexed target capture and sequencing. Cold Spring Harbor Protocols. doi:10.1101/pdb.prot5448.
  • Miller GH, Fogel ML, Magee JW, Gagan MK, Clarke SJ, Johnson BJ. 2005. Ecosystem collapse in Pleistocene Australia and a human role in megafaunal extinction. Science. 309:287–290.
  • Mitchell KJ, Llamas B, Soubrier J, Rawlence NJ, Worthy TH, Wood JR, Lee MSY, Cooper A. 2014. Ancient DNA reveals elephant birds and kiwi are sister taxa and clarifies ratite bird evolution. Science. 344:898–900.
  • Mitchell KJ, Wood JR, Scofield RP, Llamas B, Cooper A. 2014. Ancient mitochondrial genome reveals unsuspected taxonomic affinity of the extinct Chatham duck (Pachyanas chathamica) and resolves divergence times for New Zealand and sub-Antarctic brown teals. Molecular Phylogenetics and Evolution. 70:420–428.
  • Mitchell KJ, Wood JR, Llamas B, McLenachan PA, Kardailsky O, Scofield RP, Worthy TH, Cooper A. 2016. Ancient mitochondrial genomes clarify the evolutionary history of New Zealand’s enigmatic acanthisittid wrens. Molecular Phylogenetics and Evolution. 102:295–304.
  • Mullis KB, Faloona FA. 1987. Specific synthesis of DNA in vitro via a polymerase-catalyzed chain reaction. Methods in Enzymology. 155:335–350.
  • Murray DC, Haile J, Dortch J, White NE, Haouchar D, Bellgard MI, Allcock RJ, Prideaux GJ, Bunce M. 2013. Scrapheap challenge: a novel bulk-bone metabarcoding method to investigate ancient DNA in faunal assemblages. Scientific Reports. 3:3371.
  • Myšková E, Ditrich O, Sak B, Kváč M, Cymbalak T. 2014. Detection of ancient DNA of Encephalitozoon intestinalis (Microsporidia) in archaeological material. Journal of Parasitology. 100:356–359.
  • Oh CS, Seo M, Chai JY, Lee SJ, Kim MJ, Park JB, Shin DH. 2010. Amplification and sequencing of Trichuris trichiura ancient DNA extracted from archaeological sediments. Journal of Archaeological Science. 37:1269–1273.
  • Orlando L, Ginolhac A, Zhang G, Froese D, Albrechtsen A, Stiller M, Schubert M, Cappellini E, Petersen B, Moltke I. et al. 2013. Recalibrating Equus evolution using the genome sequence of an early Middle Pleistocene horse. Nature. 499:74–81.
  • Oskam C, Haile J, Rigby P, Allentoft M, Olsen M, Gifford M, Bengtsson C, Miller GH, Schwenninger JL, Jacomb C, et al. 2010. Fossil avian eggshell preserves ancient DNA. Proceedings of the Royal Society B. 277:1991–2000.
  • Oskam CL, Allentoft ME, Walter R, Scofield RP, Haile J, Holdaway RN, Bunce M, Jacomb C. 2012. Ancient DNA analyses of early archaeological sites in New Zealand reveal extreme exploitation of moa (Aves: Dinornithiformes) at all life stages. Quaternary Science Reviews. 52:41–48.
  • Oskam CL, Jacomb C, Allentoft ME, Walter R, Scofield RP, Haile J, Holdaway RN, Bunce M. 2011. Molecular and morphological analyses of avian eggshell excavated from a late thirteenth century earth oven. Journal of Archaeological Science. 38:2589–2595.
  • Pääbo S. 1989. Ancient DNA: extraction, characterization, molecular cloning, and enzymatic amplification. Proceedings of the National Academy of Sciences. 86:1939–1943.
  • Pääbo S, Higuchi RG, Wilson AC. 1989. Ancient DNA and the polymerase chain reaction. The Journal of Biological Chemistry. 264:9709–9712.
  • Pääbo S, Poinar H, Serre D, Jaenicke-Despres V, Hebler J, Rohland N, Kuch M, Krause J, Vigilant L, Hofreiter M. 2004. Genetic analyses from ancient DNA. Annual Review of Genetics. 38:645–679.
  • Perry GL, Wheeler A, Wood JR, Wilmshurst JM. 2014. A high-precision chronology for the rapid extinction of New Zealand moa (Aves, Dinornithiformes). Quaternary Science Reviews. 105:126–135.
  • Phillips MJ, Gibb GC, Crimp EA, Penny D. 2010. Tinamous and moa flock together: mitochondrial genome sequence analysis reveals independent losses of flight among ratites. Systematic Biology. 59:90–107.
  • Poinar HN, Schwarz C, Qi J, Shapiro B, MacPhee RDE, Buigues B, Tikhonov A, Huson DH, Tomsho LP, Auch A, et al. 2006. Metagenomics to paleogenomics: large scale sequencing of mammoth DNA. Science. 311:392–394.
  • Prum RO, Berv JS, Dornburg A, Field DJ, Townsend JP, Lemmon EM, Lemmon AR. 2015. A comprehensive phylogeny of birds (Aves) using targeted next-generation DNA sequencing. Nature. 526:569–573.
  • Rasmussen M, Li Y, Lindgreen S, Pedersen JS, Albrechtsen A, Moltke I, Metspalu M, Metspalu E, Kivisild T, Gupta R, et al. 2010. Ancient human genome sequence of an extinct Palaeo-Eskimo. Nature. 463:757–762.
  • Rawlence NJ, Collins CJ, Anderson CNK, Maxwell JJ, Smith IWG, Robertson BC, Knapp M, Horsburgh KA, Stanton J-AL., Scofield RP, et al. 2016. Human-mediated extirpation of the unique Chatham Islands sea lion and implications for the conservation management of remaining New Zealand sea lion populations. Molecular Ecology. 25:3950–3961.
  • Rawlence NJ, Kardamaki A, Easton LJ, Tennyson AJD, Scofield RP, Waters JM. 2017. Ancient DNA and morphometric analysis reveal extinction and replacement of New Zealand’s unique black swans. Proceedings of the Royal Society B: Biological Sciences. 284:20170876.
  • Rawlence NJ, Kennedy M, Anderson CNK, Prost S, Till CE, Smith IWG, Scofield RP, Tennyson AJD, Hamel J, Lalas C, et al. 2015. Geographically contrasting biodiversity reductions in a widespread New Zealand seabird. Molecular Ecology. 24:4605–4616.
  • Rawlence NJ, Kennedy M, Waters JM, Scofield RP. 2014. Morphological and ancient DNA analyses reveal inaccurate labels on two of Buller’s bird specimens. Journal of the Royal Society of New Zealand. 44:163–169.
  • Rawlence NJ, Lowe D, Wood JR, Young J, Churchman GJ, Huang Y, Cooper A. 2014. Using palaeoenvironmental DNA to reconstruct past environments: progress and prospects. Journal of Quaternary Science. 29:610–626.
  • Rawlence NJ, Metcalf J, Wood JR, Worthy TH, Austin JJ, 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. 50:141–153.
  • Rawlence NJ, Perry GLW, Smith IWG, Scofield RP, Tennyson AJD, Matisoo-Smith EA, Boessenkool S, Austin JJ, Waters JM. 2015. Radiocarbon-dating and ancient DNA reveal rapid replacement of extinct prehistoric penguins. Quaternary Science Reviews. 112:59–65.
  • Rawlence NJ, Till CE, Easton LJ, Spencer HG, Schuckard R, Melville DS, Scofield RP, Tennyson AJD, Rayner MJ, Waters JM, et al. In Press. Speciation, range contraction and extinction in the endemic New Zealand king shag complex. Molecular Phylogenetics and Evolution.
  • Rawlence NJ, Wood JR, Armstrong KN, Cooper A. 2009. DNA content and distribution in ancient feathers and potential to reconstruct the plumage of extinct avian taxa. Proceedings of the Royal Society of London B. 1672:3395–3402.
  • Rawlence NJ, Wood JR, Scofield RP, Fraser C, Tennyson AJD. 2013. Soft-tissue specimens from pre-European extinct birds of New Zealand. Journal of the Royal Society of New Zealand. 43:154–181.
  • Ritchie PA, Millar CD, Gibb GC, Baroni C, Lambert DM. 2004. Ancient DNA enables timing of the Pleistocene origin and Holocene expansion of two Adélie penguin lineages in Antarctica. Molecular Biology and Evolution. 21:240–248.
  • Rizzi E, Lari M, Gigli E, De Bellis G, Caramelli D. 2012. Ancient DNA studies: new perspectives on old samples. Genetics Selection Evolution. 44:21.
  • Salis AT, Easton LJ, Robertson BC, Gemmell N, Smith IWG, Weisler M, Waters JM, Rawlence NJ. 2016. Myth or relict: does ancient DNA detect the enigmatic upland seal? Molecular Phylogenetics and Evolution. 97:101–106.
  • Scofield RP, Mitchell KJ, Wood JR, De Pietri VL, Jarvie S, Llamas B, Cooper A. 2017. The origin and phylogenetic relationships of the New Zealand ravens. Molecular Phylogenetics and Evolution. 106:136–143.
  • Shapiro B. 2017. Pathways to de-extinction: how close can we get to resurrection of an extinct species? Functional Ecology. 31:996–1002.
  • Shapiro B, Hofreiter M. 2014. A paleogenomic perspective on evolution and gene function: new insights from ancient DNA. Science. 343:1236573.
  • Shepherd LD, Lambert DM. 2007. The relationships and origins of the New Zealand wattlebirds (Passeriformes, Callaeatidae) from DNA sequence analyses. Molecular Phylogenetics and Evolution. 43:480–492.
  • Shepherd LD, Lambert DM. 2008. Ancient DNA and conservation: lessons from the endangered kiwi of New Zealand. Molecular Ecology. 17:2174–2184.
  • Shepherd LD, Worthy TH, Tennyson AJD, Scofield RP, Ramstad KM, Lambert DM. 2012. Ancient DNA analyses reveal contrasting phylogenetic patterns amongst kiwi (Apteryx spp.) and a recently extinct lineage of spotted kiwi. PLoS ONE. 7:e42384.
  • Shepherd LD, Tennyson AJD, Lambert DM. 2013. Using ancient DNA to enhance museum collections: a case study of rare kiwi (Apteryx spp.) specimens. Journal of the Royal Society of New Zealand. 43:119–127.
  • Skoglund P, Northoff BH, Shunkov MV, Derevianko AP, Pääbo S, Krause J, Jakobsson M. 2014. Seperating endogenous ancient DNA from modern day contamination in a Siberian Neanderthal. Proceedings of the National Academy of Sciences USA. 111:2229–2234.
  • Slon V, Hopfe C, Weiß CL, Mafessoni F, de la Rasilla M, Lalueza-Fox C, Rosas A, Soressi M, Knul MV, Miller R, et al. 2017. Neandertal and Denisovan DNA from Pleistocene sediments. Science. 356:605–608.
  • Subramanian S, Denver DR, Millar CD, Heupink T, Aschrafi A, Emslie SD, Baroni C, Lambert DM., 2009. High mitogenomic evolutionary rates and time dependency. Trends in Genetics. 25:482–486.
  • Tennyson AJD. 2010. The origin and history of New Zealand’s terrestrial vertebrates. New Zealand Journal of Ecology. 34:6–27.
  • Tennyson AJD, Cooper JH, Shepherd LD. 2015. A new species of extinct Pterodroma petrel (Procellariiformes: Procellariidae) from the Chatham Islands, New Zealand. Bulletin of the British Ornithologist’s Club. 135:267–277.
  • Tennyson AJD, Martinson P. 2006. Extinct birds of New Zealand. Wellington, New Zealand: Te Papa Press. 140 p.
  • Tennyson AJD, Shepherd LD. 2017. DNA reveals the relationships of the extinct Scarlett’s shearwater Puffinus spelaeus (Procellariiformes: Procellariidae). Journal of Ornithology. 158:379–384.
  • Tennyson AJD, Worthy TH, Jones CM, Scofield RP, Hand SJ. 2010. Moa’s Ark: Miocene fossils reveal the great antiquity of moa (Aves: Dinornithiformes) in Zealandia. Records of the Australian Museum. 62:105–114.
  • Thomson VA, Lebrasseur O, Austin JJ, Hunt TL, Burney DA, Denham T, Rawlence NJ, Wood JR, Gongora J, Girdland Flink L, et al. 2014. Using ancient DNA to study the origins and dispersal of ancestral Polynesian chickens across the Pacific. Proceedings of the National Academy of Sciences USA. 111:4826–4831.
  • Trewick SA. 1997. Flightlessness and phylogeny amongst endemic rails (Aves: Rallidae) of the New Zealand region. Philosophical Transactions of the Royal Society. 352:429–446.
  • Trewick SA. 2000. Molecular evidence for dispersal rather than vicariance as the origin of flightless insect species on the Chatham Islands, New Zealand. Journal of Biogeography. 27:1189–1200.
  • Trewick SA, Pilkington S, Shepherd LD, Gibb GC, Morgan-Richards M. In press. Closing the gap: avian lineage splits at a young, narrow seaway imply a protracted history of mixed population response. Molecular Ecology.
  • Waters JM, Fraser CI, Maxwell JJ, Rawlence NJ. 2017. Did interaction between human pressure and Little Ice Age drive biological turnover in New Zealand? Journal of Biogeography. 44:1481–1490.
  • Waters JM, Grosser S. 2016. Managing shifting species: ancient DNA reveals conservation conundrums in a dynamic world. Bioessays. 38:1177–1184.
  • Waters JM, Wallis GP. 2001. Mitochondrial DNA phylogenetics of the Galaxias vulgaris complex from South Island, New Zealand: rapid radiation of a species flock. Journal of Fish Biology. 58:1166–1180.
  • Weir JT, Haddrath O, Robertson HA, Colbourne RM, Baker AJ. 2016. Explosive ice age diversification of kiwi. Proceedings of the National Academy of Sciences USA. 113:E5580–E5587.
  • Willerslev E, Cappellini E, Boomsma W, Nielsen R, Hebsgaard MB, Brand TB, Hofreiter M, Bunce M, Poinar HN, Dahl-Jensen D, et al. 2007. Ancient biomolecules from deep ice cores reveal a forested southern Greenland. Science. 317:111–114.
  • Willerslev E, Cooper A. 2005. Ancient DNA. Proceedings of the Royal Society B. 272:3–16.
  • Willerslev E, Davison J, Moora M, Zobel M, Coissac E, Edwards ME, Lorenzen ED, Vestergård M, Gussarova G, Haile J, et al. 2014. Fifty thousand years of Arctic vegetation and megafaunal diet. Nature. 506:47–51.
  • Willerslev E, Hansen AJ, Binladen J, Brand TB, Gilbert MTP, Shapiro B, Bunce M, Wiuf C, Gilichinsky DA, Cooper A. 2003. Diverse plant and animal genetic records from Holocene and Pleistocene sediments. Science. 300:791–795.
  • Wilmshurst JM, Anderson AJ, Higham TFG, Worthy TH. 2008. Dating the late prehistoric dispersal of Polynesians to New Zealand using the commensal Pacific rat. Proceedings of the National Academy of Sciences USA. 105:7676–7680.
  • Wood JR. 2013. New Zealand, 500 years ago. In: MacLeod N, editor. Grzimek’s animal life encyclopedia: extinction. Farmington Hills, USA: Gale; p. 595–604.
  • Wood JR, Crown A, Cole TL, Wilmshurst JM. 2016. Microscopic and ancient DNA profiling of Polynesian dog (kūri) coprolites from northern New Zealand. Journal of Archaeological Science Reports. 6:496–505.
  • Wood JR, Herrera MJB, Scofield RP, Wilmshurst JM. 2016. Origin and timing of the earliest domestic chickens in New Zealand: Polynesian commensals or European introductions? Royal Society Open Science. 3:160258.
  • Wood JR, Mitchell KJ, Scofield RP, de Pietri VL, Rawlence NJ, Cooper A. 2017. Phylogenetic relationships and terrestrial adaptations of the extinct laughing owl (Sceloglaux albifacies). Zoological Journal of the Linnean Society. 179:907–918.
  • Wood JR, Mitchell KJ, Scofield RP, Tennyson AJD, Fidler AE, Wilmshurst JM, Llamas B, Cooper A. 2014. An extinct nestorid parrot (Aves, Psittaciformes, Nestoridae) from the Chatham Islands, New Zealand. Zoological Journal of the Linnean Society. 172:185–199.
  • Wood JR, Rawlence NJ, Rogers GM, Austin JJ, Worthy TH, Cooper A. 2008. Coprolite deposits reveal the diet and ecology of the extinct New Zealand megaherbivore moa (Aves, Dinornithiformes). Quaternary Science Reviews. 27:2593–2602.
  • Wood JR, Wilmshurst JM. 2014. Late Quaternary terrestrial vertebrate coprolites from New Zealand. Quaternary Science Reviews. 98:33–44.
  • Wood JR, Wilmshurst JM, Holzapfel AS, Worthy TH, 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. 26:1091–1099.
  • Wood JR, Wilmshurst JM, Rawlence NJ, Bonner KI, Worthy TH, Kinsella JM, Cooper A, Farke AA. 2013. A megafauna’s microfauna: gastrointestinal parasites of New Zealand's extinct moa (Aves: Dinornithiformes). PLoS ONE. 8:e57315.
  • Wood JR, Wilmshurst JM, Richardson SJ, Rawlence NJ, Wagstaff SJ, Worthy TH, Cooper A. 2013. Resolving lost herbivore community structure using coprolites of four sympatric moa species (Aves: Dinornithiformes). Proceedings of the National Academy of Sciences USA. 110:16910–16915.
  • Wood JR, Wilmshurst JM, Wagstaff SJ, Worthy TH, Rawlence NJ, Cooper A, Orlando Ludovic. 2012. High-resolution coproecology: using coprolites to reconstruct the habits and habitats of New Zealand’s extinct upland moa (Megalapteryx didinus). PLoS ONE. 7:e40025.
  • Wood JR, Wilmshurst JM, Worthy TH, Cooper A. 2012. First coprolite evidence for the diet of little bush moa (Anomalopteryx didiformis); an extinct forest ratite from New Zealand. New Zealand Journal of Ecology. 36:164–170.
  • Woodward SR, Weyand NJ, Bunnell M. 1994. DNA sequence from Cretaceous period bone fragments. Science. 266:1229–1232.
  • Worthy TH. 2010. Accipitriformes. In: Gill BJ, convenor. Checklist of the birds of New Zealand, Norfolk and Macquarie Islands, and the Ross Dependency, Antarctica. Wellington, New Zealand: Te Papa Press; p. 169–173.
  • Worthy TH, Holdaway RN. 2002. The lost world of the moa. Christchurch, New Zealand: Canterbury University Press. 718 p.
  • Worthy TH, Scofield RP. 2012. Twenty-first century advances in knowledge of the biology of moa (Aves: Dinornithiformes): a new morphological analysis and moa diagnoses revised. New Zealand Journal of Zoology. 39:87–153.
  • Worthy TH, Tennyson AJD, Jones C, McNamara JA, Douglas BJ. 2007. Miocene waterfowl and other birds from Central Otago, New Zealand. Journal of Systematic Palaeontology. 5:1–39.
  • Worthy TH, Worthy JP, Tennyson AJD, Salisbury SW, Hand SJ, Scofield RP. 2013. Miocene fossils show that kiwi (Apteryx, Apterygidae) are probably not phyletic dwarves. Proceedings of the 8th International Meeting of the Society of Avian Paleontology and Evolution, Verlag Naturhistorisches Museum Wien; p. 63–80.
  • Zuccon D, Ericson PGP. 2012. Molecular and morphological evidences place the extinct New Zealand endemic Turnagra capensis in the Oriolidae. Molecular Phylogenetics and Evolution. 62:414–426.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.