Your search keyword '"Scofield RP"' showing total 84 results

1. Flightless rails (Aves: Rallidae) from the early Miocene St Bathans Fauna, Otago, New Zealand

Author

Mather, E, Tennyson, AJD, Scofield, RP, DePietri, VL, Hand, SJ, Archer, M, Handley, WD, Worthy, TH, Mather, E, Tennyson, AJD, Scofield, RP, DePietri, VL, Hand, SJ, Archer, M, Handley, WD, and Worthy, TH

Published

2018

2. A new, large-bodied omnivorous bat (Noctilionoidea: Mystacinidae) reveals lost morphological and ecological diversity since the Miocene in New Zealand

Author

Hand, SJ, Beck, RMD, Archer, M, Simmons, NB, Gunnell, GF, Scofield, RP, Tennyson, AJD, De Pietri, VL, Salisbury, SW, Worthy, TH, Hand, SJ, Beck, RMD, Archer, M, Simmons, NB, Gunnell, GF, Scofield, RP, Tennyson, AJD, De Pietri, VL, Salisbury, SW, and Worthy, TH

Published

2018

3. The diversity of early Miocene pigeons (Columbidae) in New Zealand

Author

Acosta Hospitaleche, C, Agnolin, FL, Haidr, N, Noriega, JI, Tambussi, CP, De Pietri, VL, Scofield, RP, Tennyson, AJD, Hand, SJ, Worthy, TH, Acosta Hospitaleche, C, Agnolin, FL, Haidr, N, Noriega, JI, Tambussi, CP, De Pietri, VL, Scofield, RP, Tennyson, AJD, Hand, SJ, and Worthy, TH

Published

2017

4. The crocodilian fauna of the lower Miocene Bannockburn Formation of St Bathans, Central Otago, New Zealand

Author

Salisbury, SW, Tennyson, AJD, Scofield, RP, Hand, SJ, Archer, M, DePietri, V, Worthy, JP, Barham, K, Worthy, TH, Salisbury, SW, Tennyson, AJD, Scofield, RP, Hand, SJ, Archer, M, DePietri, V, Worthy, JP, Barham, K, and Worthy, TH

Published

2017

5. Sheathbill-like birds (Charadriiformes: Chionoidea) from the Oligocene and Miocene of Australasia

Author

De Pietri, VL, Scofield, RP, Hand, SJ, Tennyson, AJD, Worthy, TH, De Pietri, VL, Scofield, RP, Hand, SJ, Tennyson, AJD, and Worthy, TH

Abstract

The Chionoidea are a small, southern hemispheric shorebird clade that today includes the Magellanic Plover (Pluvianellidae) and two species of sheathbills (Chionidae). Here we describe the first fossil remains attributable to this group. The two newly described species, the early Miocene Neilus sansomae gen. et sp. nov. from New Zealand and the late Oligocene Chionoides australiensis gen. et sp. nov. from South Australia, are overall more similar to sheathbills, but the mosaic of characters shared with both Chionidae and Pluvianellidae preclude referral to either lineage. Attribution of fossils this age to these lineages also conflicts with divergence dates based on molecular data, as the split between the Magellanic Plover and sheathbills is hypothesised to be more recent. We therefore suggest that these Australasian, plover-size species represent the first record of stem-group taxa within Chionoidea. http://zoobank.org/urn:lsid:zoobank.org:pub:2A5A2FD1-C3B5-4BAB-88D8-5862FE9E7976

Published

2016

6. Sheathbill-like birds (Charadriiformes: Chionoidea) from the Oligocene and Miocene of Australasia

Author

De Pietri, VL, primary, Scofield, RP, additional, Hand, SJ, additional, Tennyson, AJD, additional, and Worthy, TH, additional

Published

2016

7. How Australasian “Plains-wanderer” fossils are reshaping our understanding of the evolutionary history of shorebirds (Charadriiformes)

Author

De Pietri, VL, Scofield, RP, Camens, AB, Tennyson, AJD, Hand, SJ, Worthy, TH, De Pietri, VL, Scofield, RP, Camens, AB, Tennyson, AJD, Hand, SJ, and Worthy, TH

Published

2015

8. Wading a lost southern connection: Miocene fossils from New Zealand reveal a new lineage of shorebirds (Charadriiformes) linking Gondwanan avifaunas

Author

De Pietri, V, Scofield, RP, Tennyson, AJD, Hand, SJ, Worthy, TH, De Pietri, V, Scofield, RP, Tennyson, AJD, Hand, SJ, and Worthy, TH

Published

2015

9. Miocene fossils reveal ancient roots for New Zealand's endemic Mystacina (Chiroptera) and its rainforest habitat

Author

Hand, SJ, Lee, DE, Worthy, TH, Archer, M, Worthy, JP, Tennyson, AJD, Salisbury, SW, Scofield, RP, Mildenhall, DC, Kennedy, EM, Lindqvist, JK, Hand, SJ, Lee, DE, Worthy, TH, Archer, M, Worthy, JP, Tennyson, AJD, Salisbury, SW, Scofield, RP, Mildenhall, DC, Kennedy, EM, and Lindqvist, JK

Abstract

The New Zealand endemic bat family Mystacinidae comprises just two Recent species referred to a single genus, Mystacina. The family was once more diverse and widespread, with an additional six extinct taxa recorded from Australia and New Zealand. Here, a new mystacinid is described from the early Miocene (19-16 Ma) St Bathans Fauna of Central Otago, South Island, New Zealand. It is the first pre-Pleistocene record of the modern genus and it extends the evolutionary history of Mystacina back at least 16 million years. Extant Mystacina species occupy old-growth rainforest and are semi-terrestrial with an exceptionally broad omnivorous diet. The majority of the plants inhabited, pollinated, dispersed or eaten by modern Mystacina were well-established in southern New Zealand in the early Miocene, based on the fossil record from sites at or near where the bat fossils are found. Similarly, many of the arthropod prey of living Mystacina are recorded as fossils in the same area. Although none of the Miocene plant and arthropod species is extant, most are closely related to modern taxa, demonstrating potentially long-standing ecological associations with Mystacina.

Published

2015

10. Taxonomic status ofCyanoramphusparakeets on the Auckland Islands and implications for the validity of the orange-fronted parakeet as a discrete species

Author

Rawlence, NJ, primary, Kennedy, M, additional, Scofield, RP, additional, Tennyson, AJD, additional, Boussès, P, additional, and Chambers, GK, additional

Published

2015

11. Morphological and ancient DNA analyses reveal inaccurate labels on two of Buller's bird specimens

Author

Rawlence, NJ, primary, Kennedy, M, additional, Waters, JM, additional, and Scofield, RP, additional

Published

2014

12. Distribution and predictability of foraging areas in breeding Chatham albatrosses Thalassarche eremita in relation to environmental characteristics

Author

Deppe, L, primary, McGregor, KF, additional, Tomasetto, F, additional, Briskie, JV, additional, and Scofield, RP, additional

Published

2014

13. First diagnosable non-sphenisciform bird from the early Paleocene of New Zealand

Author

Mayr, G, primary and Scofield, RP, additional

Published

2014

14. Early Miocene fossil frogs (Anura: Leiopelmatidae) from New Zealand

Author

Worthy, TH, primary, Tennyson, AJD, additional, Scofield, RP, additional, and Hand, SJ, additional

Published

2013

15. Differences in vocalisations, morphology and mtDNA support species status for New Zealand saddlebackPhilesturnusspp

Author

Parker, KA, primary, Ludwig, K, additional, King, TM, additional, Brunton, DH, additional, Scofield, RP, additional, and Jamieson, IG, additional

Published

2013

16. Pre-human New Zealand sea lion (Phocarctos hookeri) rookeries on mainland New Zealand

Author

Collins, CJ, primary, Rawlence, NJ, additional, Worthy, TH, additional, Scofield, RP, additional, Tennyson, AJD, additional, Smith, I, additional, Knapp, M, additional, and Waters, JM, additional

Published

2013

17. Soft-tissue specimens from pre-European extinct birds of New Zealand

Author

Rawlence, NJ, primary, Wood, JR, additional, Scofield, RP, additional, Fraser, C, additional, and Tennyson, AJD, additional

Published

2013

18. A molecular characterization of a newly discovered megafaunal fossil site in North Canterbury, South Island, New Zealand

Author

Allentoft, ME, primary, Scofield, RP, additional, Oskam, CL, additional, Hale, ML, additional, Holdaway, RN, additional, and Bunce, M, additional

Published

2012

19. Twenty-first century advances in knowledge of the biology of moa (Aves: Dinornithiformes): a new morphological analysis and moa diagnoses revised

Author

Worthy, TH, primary and Scofield, RP, additional

Published

2012

20. New palaeontological data from the excavation of the Late Glacial Glencrieff miring bone deposit, North Canterbury, South Island, New Zealand

Author

Rawlence, NJ, primary, Scofield, RP, additional, Wood, JR, additional, Wilmshurst, JM, additional, Moar, NT, additional, and Worthy, TH, additional

Published

2011

21. Taxonomic status of Cyanoramphus parakeets on the Auckland Islands and implications for the validity of the orange-fronted parakeet as a discrete species.

Author

Rawlence, NJ, Kennedy, M, Scofield, RP, Tennyson, AJD, Boussès, P, and Chambers, GK

Subjects

CYANORAMPHUS, ANIMAL classification, ANIMAL species, MITOCHONDRIAL DNA

Abstract

Cyanoramphusparakeets are a key biogeographic element of the Pacific. Many of these parakeets are, however, endangered, with ongoing conservation management hampered by the unresolved taxonomic status of some populations. We used modern and ancient DNA (mitochondrial DNA control region) to assess the taxonomy of the Auckland Islands populations of red-crowned (Cyanoramphus novaezelandiae novaezelandiae) and yellow-crowned (Cyanoramphus auriceps) parakeets. Our analyses show that both red-crowned and yellow-crowned parakeets on the Auckland Islands are nested within the mainland New Zealand diversity of the two species. However, we also found an orange-fronted parakeet (Cyanoramphus malherbi) mitochondrial DNA lineage within the genome of both of these species in the Auckland Islands population. Further sampling of historic orange-fronted parakeet museum skins showed that the orange-fronted morphotype is paraphyletic with respect to mitochondrial haplotype, which is probably caused by hybridisation or incomplete lineage sorting. In light of this, we review and critically assess the taxonomic history of the orange-fronted parakeet, and address whether the species was historically present on the Auckland Islands. [ABSTRACT FROM PUBLISHER]

Published

2015

22. Differences in vocalisations, morphology and mtDNA support species status for New Zealand saddleback Philesturnus spp.

Author

Parker, KA, Ludwig, K, King, TM, Brunton, DH, Scofield, RP, and Jamieson, IG

Subjects

MITOCHONDRIAL DNA, MORPHOLOGY, CREADION, PHENOTYPES, FEATHERS

Abstract

Appropriate definitions of species limits are critical for scientific study and conservation management. Many subspecies of birds are defined on the basis of phenotypic variation. However, it has been suggested that following close examination many of these subspecies will be recognised as good species. North Island (NI) (Philesturnus rufusater) and South Island (SI) saddlebacks (P. carunculatus) differ in plumage and apparent vulnerability to introduced predators and, until recently, were considered subspecific. Here, we formally compare vocalisations, morphology and mtDNA between NI and SI saddlebacks. We show significant differences in male song and chatter calls which are fundamental saddleback vocalisations. A discriminant analysis correctly allocated 90% of birds based on significantly larger tarsus, weight and wing measurements in SI saddlebacks relative to NI saddlebacks. Finally, molecular data show c. 5% sequence divergence in mtDNA between the two groups. We concur with previous work elevating NI and SI saddleback to full species. [ABSTRACT FROM AUTHOR]

Published

2014

23. Pre-human New Zealand sea lion ( Phocarctos hookeri ) rookeries on mainland New Zealand.

Author

Collins, CJ, Rawlence, NJ, Worthy, TH, Scofield, RP, Tennyson, AJD, Smith, I, Knapp, M, and Waters, JM

Subjects

HOOKER'S sea lion, FOSSIL DNA, RADIOCARBON dating, COASTAL animals

Abstract

Holocene New Zealand sea lion (Phocarctos hookeri) bones collected from the north of New Zealand's South Island strengthen existing evidence for the former Holocene presence of breeding colonies ofP. hookerion mainland New Zealand. The taxonomic identity ofPhocarctosbones is confirmed using both morphology and ancient DNA analysis. Five radiocarbon dates on four adult and one pup bone from Creighton's Cave near Paturau, northwest Nelson, ranged from 1290±30 yr BP to 5430±30 yr BP. Three radiocarbon dates on pup bones spanning 20014C yr (1550±30 yr BP to 1390±30 yr BP) reveal that a prehistoric breeding rookery was present at Delaware Bay, Nelson, until shortly before the time of human arrival c. AD 1280 (670 yr BP). The Delaware Bay site in particular provides a valuable ‘snapshot’ of coastal New Zealand faunas shortly before human arrival, one that has potential to enhance our understanding of changes in the endemic coastal fauna associated with human colonisation. [ABSTRACT FROM AUTHOR]

Published

2014

24. A swan-sized fossil anatid (Aves: Anatidae) from the early Miocene St Bathans Fauna of New Zealand.

Author

Worthy TH, Scofield RP, Hand SJ, DE Pietri VL, and Archer M

Subjects

Animals, Birds anatomy & histology, New Zealand, Phylogeny, Anseriformes, Fossils

Abstract

A large fossil anserine-like anatid (Aves, Anatidae, Notochen bannockburnensis gen. et sp. nov.) is described based on a distal humerus from the lower Bannockburn Formation, early Miocene (1916 Ma), St Bathans Fauna from New Zealand. Its morphology and size suggest that this taxon represents an early swan rather than a goose. Extant anserines are split into Northern and Southern Hemisphere clades. The St Bathans Fauna is known to have the oldest anserines in the Southern Hemisphere, unnamed cereopsines perhaps ancestral to species of Cnemiornis (New Zealand geese). The elongate and flat morphology of the tuberculum supracondylare ventrale of the new species, however, preclude affinities with cereopsines. It is a rare taxon and the eighth anatid represented in the fauna and is the largest known anseriform from the Oligo-Miocene of Australasia. We also reassess other large anatid specimens from the St Bathans Fauna and identify Miotadorna catrionae Tennyson, Greer, Lubbe, Marx, Richards, Giovanardi Rawlence, 2022 as a junior synonym of Miotadorna sanctibathansi Worthy, Tennyson, Jones, McNamara Douglas, 2007.

Published

2022

25. AVONET: morphological, ecological and geographical data for all birds.

Author

Tobias JA, Sheard C, Pigot AL, Devenish AJM, Yang J, Sayol F, Neate-Clegg MHC, Alioravainen N, Weeks TL, Barber RA, Walkden PA, MacGregor HEA, Jones SEI, Vincent C, Phillips AG, Marples NM, Montaño-Centellas FA, Leandro-Silva V, Claramunt S, Darski B, Freeman BG, Bregman TP, Cooney CR, Hughes EC, Capp EJR, Varley ZK, Friedman NR, Korntheuer H, Corrales-Vargas A, Trisos CH, Weeks BC, Hanz DM, Töpfer T, Bravo GA, Remeš V, Nowak L, Carneiro LS, Moncada R AJ, Matysioková B, Baldassarre DT, Martínez-Salinas A, Wolfe JD, Chapman PM, Daly BG, Sorensen MC, Neu A, Ford MA, Mayhew RJ, Fabio Silveira L, Kelly DJ, Annorbah NND, Pollock HS, Grabowska-Zhang AM, McEntee JP, Carlos T Gonzalez J, Meneses CG, Muñoz MC, Powell LL, Jamie GA, Matthews TJ, Johnson O, Brito GRR, Zyskowski K, Crates R, Harvey MG, Jurado Zevallos M, Hosner PA, Bradfer-Lawrence T, Maley JM, Stiles FG, Lima HS, Provost KL, Chibesa M, Mashao M, Howard JT, Mlamba E, Chua MAH, Li B, Gómez MI, García NC, Päckert M, Fuchs J, Ali JR, Derryberry EP, Carlson ML, Urriza RC, Brzeski KE, Prawiradilaga DM, Rayner MJ, Miller ET, Bowie RCK, Lafontaine RM, Scofield RP, Lou Y, Somarathna L, Lepage D, Illif M, Neuschulz EL, Templin M, Dehling DM, Cooper JC, Pauwels OSG, Analuddin K, Fjeldså J, Seddon N, Sweet PR, DeClerck FAJ, Naka LN, Brawn JD, Aleixo A, Böhning-Gaese K, Rahbek C, Fritz SA, Thomas GH, and Schleuning M

Subjects

Animals, Biodiversity, Biological Evolution, Humans, Phylogeny, Birds, Ecosystem

Abstract

Functional traits offer a rich quantitative framework for developing and testing theories in evolutionary biology, ecology and ecosystem science. However, the potential of functional traits to drive theoretical advances and refine models of global change can only be fully realised when species-level information is complete. Here we present the AVONET dataset containing comprehensive functional trait data for all birds, including six ecological variables, 11 continuous morphological traits, and information on range size and location. Raw morphological measurements are presented from 90,020 individuals of 11,009 extant bird species sampled from 181 countries. These data are also summarised as species averages in three taxonomic formats, allowing integration with a global phylogeny, geographical range maps, IUCN Red List data and the eBird citizen science database. The AVONET dataset provides the most detailed picture of continuous trait variation for any major radiation of organisms, offering a global template for testing hypotheses and exploring the evolutionary origins, structure and functioning of biodiversity., (© 2022 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published

2022

26. New Zealand's extinct giant raptor ( Hieraaetus moorei ) killed like an eagle, ate like a condor.

Author

van Heteren AH, Wroe S, Tsang LR, Mitchell DR, Ross P, Ledogar JA, Attard MRG, Sustaita D, Clausen P, Scofield RP, and Sansalone G

Subjects

Animals, Beak, New Zealand, Predatory Behavior, Eagles, Falconiformes, Raptors

Abstract

The extinct Haast's eagle or harpagornis ( Hieraaetus moorei ) is the largest known eagle. Historically, it was first considered a predator, then a scavenger, but most recent authors have favoured an active hunting ecology. However, the veracity of proposed similarities to carrion feeders has not been thoroughly tested. To infer feeding capability and behaviour in harpagornis, we used geometric morphometric and finite-element analyses to assess the shape and biomechanical strength of its neurocranium, beak and talons in comparison to five extant scavenging and predatory birds. The neurocranium of harpagornis is vulture-like in shape whereas its beak is eagle-like. The mechanical performance of harpagornis is closer to extant eagles under biting loads but is closest to the Andean condor ( Vultur gryphus ) under extrinsic loads simulating prey capture and killing. The talons, however, are eagle-like and even for a bird of its size, able to withstand extremely high loads. Results are consistent with the proposition that, unlike living eagles, harpagornis habitually killed prey larger than itself, then applied feeding methods typical of vultures to feed on the large carcasses. Decoupling of the relationship between neurocranium and beak shape may have been linked to rapid evolution.

Published

2021

27. Correction to 'Evidence for a giant parrot from the Early Miocene of New Zealand'.

Author

Worthy TH, Hand SJ, Archer M, Scofield RP, and De Pietri VL

Published

2021

28. Correction to: First monk seal from the Southern Hemisphere rewrites the evolutionary history of true seals.

Author

Rule JP, Adams JW, Marx FG, Evans AR, Tennyson AJD, Scofield RP, and Fitzgerald EMG

Published

2021

29. Global political responsibility for the conservation of albatrosses and large petrels.

Author

Beal M, Dias MP, Phillips RA, Oppel S, Hazin C, Pearmain EJ, Adams J, Anderson DJ, Antolos M, Arata JA, Arcos JM, Arnould JPY, Awkerman J, Bell E, Bell M, Carey M, Carle R, Clay TA, Cleeland J, Colodro V, Conners M, Cruz-Flores M, Cuthbert R, Delord K, Deppe L, Dilley BJ, Dinis H, Elliott G, De Felipe F, Felis J, Forero MG, Freeman A, Fukuda A, González-Solís J, Granadeiro JP, Hedd A, Hodum P, Igual JM, Jaeger A, Landers TJ, Le Corre M, Makhado A, Metzger B, Militão T, Montevecchi WA, Morera-Pujol V, Navarro-Herrero L, Nel D, Nicholls D, Oro D, Ouni R, Ozaki K, Quintana F, Ramos R, Reid T, Reyes-González JM, Robertson C, Robertson G, Romdhane MS, Ryan PG, Sagar P, Sato F, Schoombie S, Scofield RP, Shaffer SA, Shah NJ, Stevens KL, Surman C, Suryan RM, Takahashi A, Tatayah V, Taylor G, Thompson DR, Torres L, Walker K, Wanless R, Waugh SM, Weimerskirch H, Yamamoto T, Zajkova Z, Zango L, and Catry P

Abstract

Migratory marine species cross political borders and enter the high seas, where the lack of an effective global management framework for biodiversity leaves them vulnerable to threats. Here, we combine 10,108 tracks from 5775 individual birds at 87 sites with data on breeding population sizes to estimate the relative year-round importance of national jurisdictions and high seas areas for 39 species of albatrosses and large petrels. Populations from every country made extensive use of the high seas, indicating the stake each country has in the management of biodiversity in international waters. We quantified the links among national populations of these threatened seabirds and the regional fisheries management organizations (RFMOs) which regulate fishing in the high seas. This work makes explicit the relative responsibilities that each country and RFMO has for the management of shared biodiversity, providing invaluable information for the conservation and management of migratory species in the marine realm., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).)

Published

2021

30. First monk seal from the Southern Hemisphere rewrites the evolutionary history of true seals.

Author

Rule JP, Adams JW, Marx FG, Evans AR, Tennyson AJD, Scofield RP, and Fitzgerald EMG

Subjects

Animals, Caniformia, Fossils, New Zealand, Phylogeny, Biological Evolution, Seals, Earless

Abstract

Living true seals (phocids) are the most widely dispersed semi-aquatic marine mammals, and comprise geographically separate northern (phocine) and southern (monachine) groups. Both are thought to have evolved in the North Atlantic, with only two monachine lineages-elephant seals and lobodontins-subsequently crossing the equator. The third and most basal monachine tribe, the monk seals, have hitherto been interpreted as exclusively northern and (sub)tropical throughout their entire history. Here, we describe a new species of extinct monk seal from the Pliocene of New Zealand, the first of its kind from the Southern Hemisphere, based on one of the best-preserved and richest samples of seal fossils worldwide. This unanticipated discovery reveals that all three monachine tribes once coexisted south of the equator, and forces a profound revision of their evolutionary history: rather than primarily diversifying in the North Atlantic, monachines largely evolved in the Southern Hemisphere, and from this southern cradle later reinvaded the north. Our results suggest that true seals crossed the equator over eight times in their history. Overall, they more than double the age of the north-south dichotomy characterizing living true seals and confirms a surprisingly recent major change in southern phocid diversity.

Published

2020

31. Correction to 'The unexpected survival of an ancient lineage of anseriform birds into the Neogene of Australia: the youngest record of Presbyornithidae'.

Author

De Pietri VL, Scofield RP, Zelenkov N, Boles WE, and Worthy TH

Abstract

[This corrects the article DOI: 10.1098/rsos.150635.]., (© 2020 The Authors.)

Published

2020

32. Ancient crested penguin constrains timing of recruitment into seabird hotspot.

Author

Thomas DB, Tennyson AJD, Scofield RP, Heath TA, Pett W, and Ksepka DT

Subjects

Animals, Bayes Theorem, Ecosystem, Fossils, New Zealand, Phylogeny, Biological Evolution, Spheniscidae physiology

Abstract

New Zealand is a globally significant hotspot for seabird diversity, but the sparse fossil record for most seabird lineages has impeded our understanding of how and when this hotspot developed. Here, we describe multiple exceptionally well-preserved specimens of a new species of penguin from tightly dated (3.36-3.06 Ma) Pliocene deposits in New Zealand. Bayesian and parsimony analyses place Eudyptes atatu sp. nov. as the sister species to all extant and recently extinct members of the crested penguin genus Eudyptes . The new species has a markedly more slender upper beak and mandible compared with other Eudyptes penguins. Our combined evidence approach reveals that deep bills evolved in both crested and stiff-tailed penguins ( Pygoscelis ) during the Pliocene. That deep bills arose so late in the greater than 60 million year evolutionary history of penguins suggests that dietary shifts may have occurred as wind-driven Pliocene upwelling radically restructured southern ocean ecosystems. Ancestral area reconstructions using BioGeoBEARS identify New Zealand as the most likely ancestral area for total-group penguins, crown penguins and crested penguins. Our analyses provide a timeframe for recruitment of crown penguins into the New Zealand avifauna, indicating this process began in the late Neogene and was completed via multiple waves of colonizing lineages.

Published

2020

33. Tempo and Pattern of Avian Brain Size Evolution.

Author

Ksepka DT, Balanoff AM, Smith NA, Bever GS, Bhullar BS, Bourdon E, Braun EL, Burleigh JG, Clarke JA, Colbert MW, Corfield JR, Degrange FJ, De Pietri VL, Early CM, Field DJ, Gignac PM, Gold MEL, Kimball RT, Kawabe S, Lefebvre L, Marugán-Lobón J, Mongle CS, Morhardt A, Norell MA, Ridgely RC, Rothman RS, Scofield RP, Tambussi CP, Torres CR, van Tuinen M, Walsh SA, Watanabe A, Witmer LM, Wright AK, Zanno LE, Jarvis ED, and Smaers JB

Subjects

Animals, Organ Size, Biological Evolution, Birds anatomy & histology, Birds genetics, Brain anatomy & histology

Abstract

Relative brain sizes in birds can rival those of primates, but large-scale patterns and drivers of avian brain evolution remain elusive. Here, we explore the evolution of the fundamental brain-body scaling relationship across the origin and evolution of birds. Using a comprehensive dataset sampling> 2,000 modern birds, fossil birds, and theropod dinosaurs, we infer patterns of brain-body co-variation in deep time. Our study confirms that no significant increase in relative brain size accompanied the trend toward miniaturization or evolution of flight during the theropod-bird transition. Critically, however, theropods and basal birds show weaker integration between brain size and body size, allowing for rapid changes in the brain-body relationship that set the stage for dramatic shifts in early crown birds. We infer that major shifts occurred rapidly in the aftermath of the Cretaceous-Paleogene mass extinction within Neoaves, in which multiple clades achieved higher relative brain sizes because of a reduction in body size. Parrots and corvids achieved the largest brains observed in birds via markedly different patterns. Parrots primarily reduced their body size, whereas corvids increased body and brain size simultaneously (with rates of brain size evolution outpacing rates of body size evolution). Collectively, these patterns suggest that an early adaptive radiation in brain size laid the foundation for subsequent selection and stabilization., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

34. Evidence for a giant parrot from the Early Miocene of New Zealand.

Author

Worthy TH, Hand SJ, Archer M, Scofield RP, and De Pietri VL

Subjects

Animals, Biological Evolution, Fossils, New Zealand, Phylogeny, Parrots

Abstract

Insular avifaunas have repeatedly spawned evolutionary novelties in the form of unusually large, often flightless species. We report fossils from the Early Miocene St Bathans Fauna of New Zealand that attests to the former existence of a giant psittaciform, which is described as a new genus and species. The fossils are two incomplete tibiotarsi from a bird with an estimated mass of 7 kg, double that of the heaviest known parrot, the kakapo Strigops habroptila. These psittaciform fossils show that parrots join the growing group of avian taxa prone to giantism in insular species, currently restricted to palaeognaths, anatids, sylviornithids, columbids, aptornithids, ciconiids, tytonids, falconids and accipitrids.

Published

2019

35. Mitogenomic evidence of close relationships between New Zealand's extinct giant raptors and small-sized Australian sister-taxa.

Author

Knapp M, Thomas JE, Haile J, Prost S, Ho SYW, Dussex N, Cameron-Christie S, Kardailsky O, Barnett R, Bunce M, Gilbert MTP, and Scofield RP

Subjects

Animals, Base Sequence, Bayes Theorem, New Zealand, Phylogeny, Body Size genetics, Extinction, Biological, Genome, Mitochondrial, Raptors anatomy & histology, Raptors genetics

Abstract

Prior to human arrival in the 13th century, two large birds of prey were the top predators in New Zealand. In the absence of non-volant mammals, the extinct Haast's eagle (Hieraaetus moorei), the largest eagle in the world, and the extinct Eyles' harrier (Circus teauteensis) the largest harrier in the world, had filled ecological niches that are on other landmasses occupied by animals such as large cats or canines. The evolutionary and biogeographic history of these island giants has long been a mystery. Here we reconstruct the origin and evolution of New Zealand's giant raptors using complete mitochondrial genome data. We show that both Eyles' harrier and Haast's eagle diverged from much smaller, open land adapted Australasian relatives in the late Pliocene to early Pleistocene. These events coincided with the development of open habitat in the previously densely forested islands of New Zealand. Our study provides evidence of rapid evolution of island gigantism in New Zealand's extinct birds of prey. Early Pleistocene climate and environmental changes were likely to have triggered the establishment of Australian raptors into New Zealand. Our results shed light on the evolution of two of the most impressive cases of island gigantism in the world., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

36. Ancient DNA of crested penguins: Testing for temporal genetic shifts in the world's most diverse penguin clade.

Author

Cole TL, Rawlence NJ, Dussex N, Ellenberg U, Houston DM, Mattern T, Miskelly CM, Morrison KW, Scofield RP, Tennyson AJD, Thompson DR, Wood JR, and Waters JM

Subjects

Animals, Bayes Theorem, Biodiversity, Electron Transport Complex IV genetics, Fossils, Haplotypes genetics, Humans, New Zealand, Pacific Ocean, Population Dynamics, Spheniscidae classification, Time Factors, DNA, Ancient analysis, Genetic Variation, Phylogeny, Spheniscidae genetics

Abstract

Human impacts have substantially reduced avian biodiversity in many parts of the world, particularly on isolated islands of the Pacific Ocean. The New Zealand archipelago, including its five subantarctic island groups, holds breeding grounds for a third of the world's penguin species, including several representatives of the diverse crested penguin genus Eudyptes. While this species-rich genus has been little studied genetically, recent population estimates indicate that several Eudyptes taxa are experiencing demographic declines. Although crested penguins are currently limited to southern regions of the New Zealand archipelago, prehistoric fossil and archaeological deposits suggest a wider distribution during prehistoric times, with breeding ranges perhaps extending to the North Island. Here, we analyse ancient, historic and modern DNA sequences to explore two hypotheses regarding the recent history of Eudyptes in New Zealand, testing for (1) human-driven extinction of Eudyptes lineages; and (2) reduced genetic diversity in surviving lineages. From 83 prehistoric bone samples, each tentatively identified as 'Eudyptes spp.', we genetically identified six prehistoric penguin taxa from mainland New Zealand, including one previously undescribed genetic lineage. Moreover, our Bayesian coalescent analyses indicated that, while the range of Fiordland crested penguin (E. pachyrhynchus) may have contracted markedly over the last millennium, genetic DNA diversity within this lineage has remained relatively constant. This result contrasts with human-driven biodiversity reductions previously detected in several New Zealand coastal vertebrate taxa., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

37. Subsistence practices, past biodiversity, and anthropogenic impacts revealed by New Zealand-wide ancient DNA survey.

Author

Seersholm FV, Cole TL, Grealy A, Rawlence NJ, Greig K, Knapp M, Stat M, Hansen AJ, Easton LJ, Shepherd L, Tennyson AJD, Scofield RP, Walter R, and Bunce M

Subjects

Animals, DNA chemistry, DNA isolation & purification, New Zealand, Biodiversity, Bone and Bones, DNA genetics, Fossils, Gene Pool

Abstract

New Zealand's geographic isolation, lack of native terrestrial mammals, and Gondwanan origins make it an ideal location to study evolutionary processes. However, since the archipelago was first settled by humans 750 y ago, its unique biodiversity has been under pressure, and today an estimated 49% of the terrestrial avifauna is extinct. Current efforts to conserve the remaining fauna rely on a better understanding of the composition of past ecosystems, as well as the causes and timing of past extinctions. The exact temporal and spatial dynamics of New Zealand's extinct fauna, however, can be difficult to interpret, as only a small proportion of animals are preserved as morphologically identifiable fossils. Here, we conduct a large-scale genetic survey of subfossil bone assemblages to elucidate the impact of humans on the environment in New Zealand. By genetically identifying more than 5,000 nondiagnostic bone fragments from archaeological and paleontological sites, we reconstruct a rich faunal record of 110 species of birds, fish, reptiles, amphibians, and marine mammals. We report evidence of five whale species rarely reported from New Zealand archaeological middens and characterize extinct lineages of leiopelmatid frog ( Leiopelma sp.) and kākāpō ( Strigops habroptilus ) haplotypes lost from the gene pool. Taken together, this molecular audit of New Zealand's subfossil record not only contributes to our understanding of past biodiversity and precontact Māori subsistence practices but also provides a more nuanced snapshot of anthropogenic impacts on native fauna after first human arrival., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published

2018

38. A new, large-bodied omnivorous bat (Noctilionoidea: Mystacinidae) reveals lost morphological and ecological diversity since the Miocene in New Zealand.

Author

Hand SJ, Beck RMD, Archer M, Simmons NB, Gunnell GF, Scofield RP, Tennyson AJD, De Pietri VL, Salisbury SW, and Worthy TH

Subjects

Animals, Bayes Theorem, Biological Evolution, Chiroptera classification, Chiroptera genetics, Ecology, New Zealand, Phenotype, Phylogeny, Biodiversity, Chiroptera anatomy & histology, Fossils

Abstract

A new genus and species of fossil bat is described from New Zealand's only pre-Pleistocene Cenozoic terrestrial fauna, the early Miocene St Bathans Fauna of Central Otago, South Island. Bayesian total evidence phylogenetic analysis places this new Southern Hemisphere taxon among the burrowing bats (mystacinids) of New Zealand and Australia, although its lower dentition also resembles Africa's endemic sucker-footed bats (myzopodids). As the first new bat genus to be added to New Zealand's fauna in more than 150 years, it provides new insight into the original diversity of chiropterans in Australasia. It also underscores the significant decline in morphological diversity that has taken place in the highly distinctive, semi-terrestrial bat family Mystacinidae since the Miocene. This bat was relatively large, with an estimated body mass of ~40 g, and its dentition suggests it had an omnivorous diet. Its striking dental autapomorphies, including development of a large hypocone, signal a shift of diet compared with other mystacinids, and may provide evidence of an adaptive radiation in feeding strategy in this group of noctilionoid bats.

Published

2018

39. A Paleocene penguin from New Zealand substantiates multiple origins of gigantism in fossil Sphenisciformes.

Author

Mayr G, Scofield RP, De Pietri VL, and Tennyson AJD

Subjects

Animals, Biological Evolution, Body Size, New Zealand, Phylogeny, Fossils, Spheniscidae anatomy & histology, Spheniscidae physiology

Abstract

One of the notable features of penguin evolution is the occurrence of very large species in the early Cenozoic, whose body size greatly exceeded that of the largest extant penguins. Here we describe a new giant species from the late Paleocene of New Zealand that documents the very early evolution of large body size in penguins. Kumimanu biceae, n. gen. et sp. is larger than all other fossil penguins that have substantial skeletal portions preserved. Several plesiomorphic features place the new species outside a clade including all post-Paleocene giant penguins. It is phylogenetically separated from giant Eocene and Oligocene penguin species by various smaller taxa, which indicates multiple origins of giant size in penguin evolution. That a penguin rivaling the largest previously known species existed in the Paleocene suggests that gigantism in penguins arose shortly after these birds became flightless divers. Our study therefore strengthens previous suggestions that the absence of very large penguins today is likely due to the Oligo-Miocene radiation of marine mammals.

Published

2017

40. Speciation, range contraction and extinction in the endemic New Zealand King Shag complex.

Author

Rawlence NJ, Till CE, Easton LJ, Spencer HG, Schuckard R, Melville DS, Scofield RP, Tennyson AJD, Rayner MJ, Waters JM, and Kennedy M

Subjects

Animals, Birds genetics, Bone and Bones anatomy & histology, Cytochromes b classification, Cytochromes b genetics, DNA chemistry, DNA isolation & purification, DNA metabolism, Discriminant Analysis, Extinction, Biological, Fossils anatomy & histology, New Zealand, Phylogeny, Principal Component Analysis, Sequence Analysis, DNA, Birds classification

Abstract

New Zealand's endemic King Shag (Leucocarbo carunculatus) has occupied only a narrow portion of the northeastern South Island for at least the past 240years. However, pre-human Holocene fossil and archaeological remains have suggested a far more widespread distribution of the three Leucocarbo species (King, Otago, Foveaux) on mainland New Zealand at the time of Polynesian settlement in the late 13th Century CE. We use modern and ancient DNA, and morphometric and osteological analyses, of modern King Shags and Holocene fossil Leucocarbo remains to assess the pre-human distribution and taxonomic status of the King Shag on mainland New Zealand, and the resultant conservation implications. Our analyses show that the King Shag was formerly widespread around southern coasts of the North Island and the northern parts of the South Island but experienced population and lineage extinctions, and range contraction, probably after Polynesian arrival. This history parallels range contractions of other New Zealand seabirds. Conservation management of the King Shag should take into account this species narrow distribution and probable reduced genetic diversity. Moreover, combined genetic, morphometric and osteological analyses of prehistoric material from mainland New Zealand suggest that the now extinct northern New Zealand Leucocarbo populations comprised a unique lineage. Although these distinctive populations were previously assigned to the King Shag (based on morphological similarities and geographic proximity to modern Leucocarbo populations), we herein describe them as a new species, the Kohatu Shag (Leucocarbo septentrionalis). The extinction of this species further highlights the dramatic impacts Polynesians and introduced predators had on New Zealand's coastal and marine biodiversity. The prehistoric presence of at least four species of Leucocarbo shag on mainland NZ further highlights its status as a biodiversity hotspot for Phalacrocoracidae., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

41. Ancient DNA and morphometric analysis reveal extinction and replacement of New Zealand's unique black swans.

Author

Rawlence NJ, Kardamaki A, Easton LJ, Tennyson AJD, Scofield RP, and Waters JM

Subjects

Animals, Australia, Humans, Islands, New Zealand, Anseriformes classification, DNA, Ancient, Extinction, Biological

Abstract

Prehistoric human impacts on megafaunal populations have dramatically reshaped ecosystems worldwide. However, the effects of human exploitation on smaller species, such as anatids (ducks, geese, and swans) are less clear. In this study we apply ancient DNA and osteological approaches to reassess the history of Australasia's iconic black swans ( Cygnus atratus ) including the palaeo-behaviour of prehistoric populations. Our study shows that at the time of human colonization, New Zealand housed a genetically, morphologically, and potentially ecologically distinct swan lineage ( C. sumnerensis , Poūwa), divergent from modern (Australian) C. atratus Morphological analyses indicate C. sumnerensis exhibited classic signs of the 'island rule' effect, being larger, and likely flight-reduced compared to C. atratus Our research reveals sudden extinction and replacement events within this anatid species complex, coinciding with recent human colonization of New Zealand. This research highlights the role of anthropogenic processes in rapidly reshaping island ecosystems and raises new questions for avian conservation, ecosystem re-wilding, and de-extinction., (© 2017 The Author(s).)

Published

2017

42. A new species of extinct Late Quaternary giant tortoise from Hispaniola.

Author

Turvey ST, Almonte J, Hansford J, Scofield RP, Brocca JL, and Chapman SD

Subjects

Animals, Dominican Republic, Ecosystem, Fossils, Biological Evolution, Turtles

Abstract

Insular giant tortoise diversity has been depleted by Late Quaternary extinctions, but the taxonomic status of many extinct populations remains poorly understood due to limited available fossil or subfossil material, hindering our ability to reconstruct Quaternary island biotas and environments. Giant tortoises are absent from current-day insular Caribbean ecosystems, but tortoise remains from Quaternary deposits indicate the former widespread occurrence of these animals across the northern Caribbean. We report new Quaternary giant tortoise material from several cave sites in Pedernales Province, southern Dominican Republic, Hispaniola, representing at least seven individuals, which we describe as Chelonoidis marcanoi sp. nov. Although giant tortoise material was first reported from the Quaternary record of Hispaniola almost 35 years ago, tortoises are absent from most Quaternary deposits on the island, which has been studied extensively over the past century. The surprising abundance of giant tortoise remains in both vertical and horizontal caves in Hispaniola's semi-arid ecoregion may indicate that this species was adapted to open dry habitats and became restricted to a habitat refugium in southeastern Hispaniola following climatic-driven environmental change at the Pleistocene-Holocene boundary. Hispaniola's dry forest ecosystem may therefore have been shaped by giant tortoises for much of its evolutionary history.

Published

2017

43. The origin and phylogenetic relationships of the New Zealand ravens.

Author

Scofield RP, Mitchell KJ, Wood JR, De Pietri VL, Jarvie S, Llamas B, and Cooper A

Subjects

Animals, Australia, Biological Evolution, Crows genetics, Cytochromes b classification, Cytochromes b genetics, Cytochromes b metabolism, DNA chemistry, DNA isolation & purification, DNA metabolism, Fossils, New Zealand, Phylogeny, Sequence Alignment, Sequence Analysis, DNA, Skull anatomy & histology, Crows classification

Abstract

The relationships of the extinct New Zealand ravens (Corvus spp.) are poorly understood. We sequenced the mitogenomes of the two currently recognised species and found they were sister-taxa to a clade comprising the Australian raven, little raven, and forest raven (C.coronoides, C. mellori and C. tasmanicus respectively). The divergence between the New Zealand ravens and Australian raven clade occurred in the latest Pliocene, which coincides with the onset of glacial deforestation. We also found that the divergence between the two putative New Zealand species C. antipodum and C. moriorum probably occurred in the late Pleistocene making their separation as species untenable. Consequently, we consider Corax antipodum (Forbes, 1893) to be a subspecies of Corvus moriorum Forbes, 1892. We re-examine the osteological evidence that led 19th century researchers to assign the New Zealand taxa to a separate genus, and re-assess these features in light of our new phylogenetic hypotheses. Like previous researchers, we conclude that the morphology of the palate of C. moriorum is unique among the genus Corvus, and suggest this may be an adaptation for a specialist diet., (Crown Copyright © 2016. Published by Elsevier Inc. All rights reserved.)

Published

2017

44. Ancient mitochondrial genomes clarify the evolutionary history of New Zealand's enigmatic acanthisittid wrens.

Author

Mitchell KJ, Wood JR, Llamas B, McLenachan PA, Kardailsky O, Scofield RP, Worthy TH, and Cooper A

Subjects

Animals, Bayes Theorem, Biological Evolution, Bone and Bones metabolism, DNA chemistry, DNA isolation & purification, DNA metabolism, DNA, Mitochondrial chemistry, DNA, Mitochondrial genetics, DNA, Mitochondrial metabolism, Extinction, Biological, New Zealand, Phylogeny, Sequence Analysis, DNA, Songbirds genetics, Genome, Mitochondrial, Songbirds classification

Abstract

The New Zealand acanthisittid wrens are the sister-taxon to all other "perching birds" (Passeriformes) and - including recently extinct species - represent the most diverse endemic passerine family in New Zealand. Consequently, they are important for understanding both the early evolution of Passeriformes and the New Zealand biota. However, five of the seven species have become extinct since the arrival of humans in New Zealand, complicating evolutionary analyses. The results of morphological analyses have been largely equivocal, and no comprehensive genetic analysis of Acanthisittidae has been undertaken. We present novel mitochondrial genome sequences from four acanthisittid species (three extinct, one extant), allowing us to resolve the phylogeny and revise the taxonomy of acanthisittids. Reanalysis of morphological data in light of our genetic results confirms a close relationship between the extant rifleman (Acanthisitta chloris) and an extinct Miocene wren (Kuiornis indicator), making Kuiornis a useful calibration point for molecular dating of passerines. Our molecular dating analyses reveal that the stout-legged wrens (Pachyplichas) diverged relatively recently from a more gracile (Xenicus-like) ancestor. Further, our results suggest a possible Early Oligocene origin of the basal Lyall's wren (Traversia) lineage, which would imply that Acanthisittidae survived the Oligocene marine inundation of New Zealand and therefore that the inundation was not complete., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

45. Origin and timing of New Zealand's earliest domestic chickens: Polynesian commensals or European introductions?

Author

Wood JR, Herrera MJ, Scofield RP, and Wilmshurst JM

Abstract

Human settlers transported chickens ( Gallus gallus domesticus ) to most East Polynesian archipelagos between AD 1000 and 1300; however, it has long been assumed that New Zealand was an exception. Despite the fact that chicken bones have been recovered from localities of early archaeological middens in New Zealand, their age and genetic relationships have never been critically assessed. Here, we test the assumption that chickens were not introduced to New Zealand during prehistory through ancient DNA and radiocarbon analyses of chicken bones from sites of Māori middens containing prehistoric material. The chickens belong to the widespread mitochondrial control region haplogroup E. Radiocarbon dating reveals that the bones are not prehistoric, but are still the earliest chicken remains known from New Zealand. Two of the bones pre-date permanent European settlement ( ca 1803s onwards) but overlap with the arrival of James Cook's second voyage (1773-1774), and, therefore, they are likely to be chickens, or progeny thereof, liberated during that voyage. Our results support the idea that chickens were first introduced to New Zealand by Europeans, and provide new insights into Māori uptake and integration of resources introduced during the early post-European period.

Published

2016

46. Human-mediated extirpation of the unique Chatham Islands sea lion and implications for the conservation management of remaining New Zealand sea lion populations.

Author

Rawlence NJ, Collins CJ, Anderson CN, Maxwell JJ, Smith IW, Robertson BC, Knapp M, Horsburgh KA, Stanton JA, Scofield RP, Tennyson AJ, Matisoo-Smith EA, and Waters JM

Subjects

Animals, DNA, Ancient analysis, DNA, Mitochondrial genetics, Fisheries, Human Activities, Humans, Islands, New Zealand, Biodiversity, Conservation of Natural Resources, Extinction, Biological, Sea Lions genetics

Abstract

While terrestrial megafaunal extinctions have been well characterized worldwide, our understanding of declines in marine megafauna remains limited. Here, we use ancient DNA analyses of prehistoric (<1450-1650 AD) sea lion specimens from New Zealand's isolated Chatham Islands to assess the demographic impacts of human settlement. These data suggest there was a large population of sea lions, unique to the Chatham Islands, at the time of Polynesian settlement. This distinct mitochondrial lineage became rapidly extinct within 200 years due to overhunting, paralleling the extirpation of a similarly large endemic mainland population. Whole mitogenomic analyses confirm substantial intraspecific diversity among prehistoric lineages. Demographic models suggest that even low harvest rates would likely have driven rapid extinction of these lineages. This study indicates that surviving Phocarctos populations are remnants of a once diverse and widespread sea lion assemblage, highlighting dramatic human impacts on endemic marine biodiversity. Our findings also suggest that Phocarctos bycatch in commercial fisheries may contribute to the ongoing population decline., (© 2016 John Wiley & Sons Ltd.)

Published

2016

47. Novel insights into early neuroanatomical evolution in penguins from the oldest described penguin brain endocast.

Author

Proffitt JV, Clarke JA, and Scofield RP

Subjects

Animals, Neuroanatomy, Biological Evolution, Brain anatomy & histology, Fossils, Skull anatomy & histology, Spheniscidae anatomy & histology

Abstract

Digital methodologies for rendering the gross morphology of the brain from X-ray computed tomography data have expanded our current understanding of the origin and evolution of avian neuroanatomy and provided new perspectives on the cognition and behavior of birds in deep time. However, fossil skulls germane to extracting digital endocasts from early stem members of extant avian lineages remain exceptionally rare. Data from early-diverging species of major avian subclades provide key information on ancestral morphologies in Aves and shifts in gross neuroanatomical structure that have occurred within those groups. Here we describe data on the gross morphology of the brain from a mid-to-late Paleocene penguin fossil from New Zealand. This most basal and geochronologically earliest-described endocast from the penguin clade indicates that described neuroanatomical features of early stem penguins, such as lower telencephalic lateral expansion, a relatively wider cerebellum, and lack of cerebellar folding, were present far earlier in penguin history than previously inferred. Limited dorsal expansion of the wulst in the new fossil is a feature seen in outgroup waterbird taxa such as Gaviidae (Loons) and diving Procellariiformes (Shearwaters, Diving Petrels, and allies), indicating that loss of flight may not drastically affect neuroanatomy in diving taxa. Wulst enlargement in the penguin lineage is first seen in the late Eocene, at least 25 million years after loss of flight and cooption of the flight stroke for aquatic diving. Similar to the origin of avian flight, major shifts in gross brain morphology follow, but do not appear to evolve quickly after, acquisition of a novel locomotor mode. Enlargement of the wulst shows a complex pattern across waterbirds, and may be linked to sensory modifications related to prey choice and foraging strategy., (© 2016 Anatomical Society.)

Published

2016

48. The unexpected survival of an ancient lineage of anseriform birds into the Neogene of Australia: the youngest record of Presbyornithidae.

Author

De Pietri VL, Scofield RP, Zelenkov N, Boles WE, and Worthy TH

Abstract

Presbyornithids were the dominant birds in Palaeogene lacustrine assemblages, especially in the Northern Hemisphere, but are thought to have disappeared worldwide by the mid-Eocene. Now classified within Anseriformes (screamers, ducks, swans and geese), their relationships have long been obscured by their strange wader-like skeletal morphology. Reassessment of the late Oligocene South Australian material attributed to Wilaru tedfordi, long considered to be of a stone-curlew (Burhinidae, Charadriiformes), reveals that this taxon represents the first record of a presbyornithid in Australia. We also describe the larger Wilaru prideauxi sp. nov. from the early Miocene of South Australia, showing that presbyornithids survived in Australia at least until ca 22 Ma. Unlike on other continents, where presbyornithids were replaced by aquatic crown-group anatids (ducks, swans and geese), species of Wilaru lived alongside these waterfowl in Australia. The morphology of the tarsometatarsus of these species indicates that, contrary to other presbyornithids, they were predominantly terrestrial birds, which probably contributed to their long-term survival in Australia. The morphological similarity between species of Wilaru and the Eocene South American presbyornithid Telmabates antiquus supports our hypothesis of a Gondwanan radiation during the evolutionary history of the Presbyornithidae. Teviornis gobiensis from the Late Cretaceous of Mongolia is here also reassessed and confirmed as a presbyornithid. These findings underscore the temporal continuance of Australia's vertebrates and provide a new context in which the phylogeny and evolutionary history of presbyornithids can be examined.

Published

2016

49. Invader or resident? Ancient-DNA reveals rapid species turnover in New Zealand little penguins.

Author

Grosser S, Rawlence NJ, Anderson CN, Smith IW, Scofield RP, and Waters JM

Subjects

Animals, Fossils, Molecular Sequence Data, New Zealand, Radiometric Dating, Sequence Analysis, DNA, Spheniscidae genetics, Animal Distribution, DNA, Mitochondrial genetics, Phylogeny, Spheniscidae physiology

Abstract

The expansion of humans into previously unoccupied parts of the globe is thought to have driven the decline and extinction of numerous vertebrate species. In New Zealand, human settlement in the late thirteenth century AD led to the rapid demise of a distinctive vertebrate fauna, and also a number of 'turnover' events where extinct lineages were subsequently replaced by closely related taxa. The recent genetic detection of an Australian little penguin (Eudyptula novaehollandiae) in southeastern New Zealand may potentially represent an additional 'cryptic' invasion. Here we use ancient-DNA (aDNA) analysis and radiocarbon dating of pre-human, archaeological and historical Eudyptula remains to reveal that the arrival of E. novaehollandiae in New Zealand probably occurred between AD 1500 and 1900, following the anthropogenic decline of its sister taxon, the endemic Eudyptula minor. This rapid turnover event, revealed by aDNA, suggests that native species decline can be masked by invasive taxa, and highlights the potential for human-mediated biodiversity shifts., (© 2016 The Author(s).)

Published

2016

50. Geographically contrasting biodiversity reductions in a widespread New Zealand seabird.

Author

Rawlence NJ, Kennedy M, Anderson CN, Prost S, Till CE, Smith IW, Scofield RP, Tennyson AJ, Hamel J, Lalas C, Matisoo-Smith EA, and Waters JM

Subjects

Animals, Bayes Theorem, DNA, Mitochondrial genetics, Extinction, Biological, Fossils, Humans, Likelihood Functions, Models, Genetic, Molecular Sequence Data, New Zealand, Phylogeography, Population Dynamics, Radiometric Dating, Sequence Analysis, DNA, Spatio-Temporal Analysis, Birds genetics, Genetic Variation, Phylogeny

Abstract

Unravelling prehistoric anthropogenic impacts on biodiversity represents a key challenge for biologists and archaeologists. New Zealand's endemic Stewart Island Shag (Leucocarbo chalconotus) comprises two distinct phylogeographic lineages, currently restricted to the country's south and southeast. However, fossil and archaeological remains suggest a far more widespread distribution at the time of Polynesian settlement ca. 1280 AD, encompassing much of coastal South Island. We used modern and ancient DNA, radiocarbon dating, and Bayesian modelling, to assess the impacts of human arrival on this taxon. Our analyses show that the southeast South Island (Otago) lineage was formerly widespread across coastal South Island, but experienced dramatic population extinctions, range retraction and lineage loss soon after human arrival. By comparison, the southernmost (Foveaux Strait) lineage has experienced a relatively stable demographic and biogeographic history since human arrival, retaining much of its mitochondrial diversity. Archaeological data suggest that these contrasting demographic histories (retraction vs. stability) reflect differential human impacts in mainland South Island vs. Foveaux Strait, highlighting the importance of testing for temporal and spatial variation in human-driven faunal declines., (© 2015 John Wiley & Sons Ltd.)

Published

2015