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1

Adams, Nancy M. "Stewart Island Plants." New Zealand Journal of Botany 23, no. 2 (April 1985): 347. http://dx.doi.org/10.1080/0028825x.1985.10425340.

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2

Allibone, Andrew H., and Richard M. Allibone. "The geology of Codfish Island, Stewart Island, New Zealand." New Zealand Journal of Geology and Geophysics 34, no. 1 (March 1991): 83–86. http://dx.doi.org/10.1080/00288306.1991.9514441.

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3

Stephenson, SL. "Myxomycetes of Stewart Island, New Zealand." Mycosphere 3, no. 6 (2012): 940–47. http://dx.doi.org/10.5943/mycosphere/3/6/8.

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4

HILL, A. G., L. HOWE, B. D. GARTRELL, and M. R. ALLEY. "Prevalence of Leucocytozoon spp, in the endangered yellow-eyed penguin Megadyptes antipodes." Parasitology 137, no. 10 (June 17, 2010): 1477–85. http://dx.doi.org/10.1017/s0031182009991910.

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SUMMARYYellow-eyed penguins on Stewart Island were identified with a Leucocytozoon spp. of a novel lineage in association with a high regional incidence of chick mortality (n=32, 100% mortality) during the November 2006 to January 2007 breeding season. Fourteen chicks from Stewart Island were examined post-mortem and histologically for Leucocytozoon infection. In addition, a survey of blood to detect Leucocytozoon spp. infections using PCR was performed on 107 yellow-eyed penguins from 4 distinct nesting areas on the South Island (Oamaru, Otago Peninsula, and Catlins) (n=95), and Stewart Island (n=12). The results of the study revealed that 2 of the 14 (14%) chicks necropsied showed severe, disseminated megaloschizont formation in the liver, spleen, lung, kidney and other tissues characteristic of leucocytozoonosis. Eighty-three percent (83%) of blood samples collected from Stewart Island penguins contained Leucocytozoon DNA, whereas samples from the 3 other nesting areas were negative for the blood parasite. Leucocytozoon spp. DNA sequences isolated from blood and tissues of adults (n=10) and chicks (n=7) were similar and grouped with other published Leucocytozoon spp. sequences but in a distinct cluster together with closely related isolates from a Western march harrier (Circus aerginosus) and common loon (Gavia immer). These findings suggest that yellow-eyed penguins on Stewart Island are infected with a regionally isolated, host-specific Leucocytozoon spp. which may contribute to the high chick mortality observed during this period.
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5

Reis, Arianne C. "Experiences of commodified nature: Performances and narratives of nature-based tourists on Stewart Island, New Zealand." Tourist Studies 12, no. 3 (November 1, 2012): 305–24. http://dx.doi.org/10.1177/1468797612461090.

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This article explores the performances and narratives of nature-based tourists, more specifically of trampers, on Stewart Island, a remote tourism destination located in the southern waters of Aotearoa/New Zealand. It does so by reflecting on the concepts of commodification and of spectacle and how these may influence the experiences of tourists on the wild landscapes of Stewart Island. The study used an interpretive and embedded methodology, where the author was able to engage with the experiences of Others while tramping for extended periods of time on the island. This article concludes that the trampers’ experience of nature on Stewart Island is modulated by a media-constructed and media-sold tourism concept that fits well in a cultural and physical landscape that is able to provide an experience associated with a produced ‘nature’. Nature is therefore constructed to allow for an experience that is designed prior to the actual performance.
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6

Bishop. "PALEOCLIMATIC INDICATORS FROM MASON BAY, STEWART ISLAND." Weather and Climate 11, no. 1 (1991): 41. http://dx.doi.org/10.2307/44279788.

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7

Cook, N. D. J. "Tarpaulin Metagranite, Stewart Island, New Zealand (Note)." New Zealand Journal of Geology and Geophysics 30, no. 4 (October 1987): 445–47. http://dx.doi.org/10.1080/00288306.1987.10427548.

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8

Emberson, Rowan M. "The Bembidiina (Coleoptera: Carabidae) of Stewart Island." New Zealand Entomologist 16, no. 1 (January 1993): 13–17. http://dx.doi.org/10.1080/00779962.1993.9722643.

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9

Stankiewicz, M., D. D. Heath, and P. E. Cowan. "Internal parasites of possums (Trichosurus vulpecula) from Kawau Island, Chatham Island and Stewart Island." New Zealand Veterinary Journal 45, no. 6 (December 1997): 247–50. http://dx.doi.org/10.1080/00480169.1997.36039.

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10

Allibone, Andrew. "Volcanogenic and granitoid rocks from northwest Stewart Island." New Zealand Journal of Geology and Geophysics 34, no. 1 (March 1991): 35–50. http://dx.doi.org/10.1080/00288306.1991.9514437.

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11

Fujiwara, Kyoji, Kevin W. Conway, and Hiroyuki Motomura. "First record of the Kermadec Clingfish, Flexor incus Conway, Stewart & Summers, 2018 (Gobiesocidae), from New Caledonia and Australia." Check List 17, no. 3 (May 14, 2021): 769–73. http://dx.doi.org/10.15560/17.3.769.

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Two specimens (17.1 and 29.1 mm standard length) of Flexor incus Conway, Stewart & Summers, 2018 (Gobiesocidae) were collected from New Caledonia and Lord Howe Island, Australia. The species and genus were originally described on the basis of 15 specimens from the Kermadec Islands, New Zealand, where the genus has been considered endemic. The two specimens reported herein represent the first records of F. incus from New Caledonia and Australia.
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12

Graville, Brian. "An examination of Edward Inglefield's 1852 voyage into Jones Sound." Polar Record 49, no. 1 (September 30, 2011): 91–96. http://dx.doi.org/10.1017/s0032247411000507.

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ABSTRACTEdward Augustus Inglefield is usually credited with penetrating Jones Sound to 84°W longitude during his Franklin search voyage of 1852. His chart of the region including Coburg Island replaced Horatio Austin's chart made in 1851 and became the accepted standard until the 20th century. By analysing Inglefield's map of Coburg Island it is shown that he made several errors in navigation and surveying which resulted in him believing he was further west than he really was and overestimating his speed. The results suggest he mistook Stewart Islands for Cone and Smith Islands and that his Sir Robert Inglis Peak reportedly seen near 84°W was actually Cone Island. Thus his penetration of Jones Sound was no further than Austin's the year before and the ready acceptance of his charts set back the mapping of that region of the Arctic for three quarters of a century.
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13

VIJI, V., K. C. HARISH, and B. MADHUSOODANA KURUP. "Reports of Cubiceps baxteri McCulloch 1923 from Indian Ocean are probably misidentifications of Cubiceps whiteleggii (Waite 1894)." Zootaxa 4985, no. 1 (June 11, 2021): 142–44. http://dx.doi.org/10.11646/zootaxa.4985.1.12.

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Cubiceps baxteri McCulloch 1923 was described based on a single, imperfect (devoid of a tail) stranded specimen collected from a beach in Lord Howe Island, Tasman Sea. Though C. baxteri was reported as a widely distributed tropical species (Butler 1979), it was mainly a result of its incorrect identification (see Agafonova 1994; Stewart and Last 2015). The distribution of C. baxteri is reported to be restricted to the Pacific Ocean, from Japan and eastwards to Baja California (Mexico), southwards to the Hawaiian Islands, New South Wales (Australia), and Lord Howe Island (Tasman Sea) to the Southern parts of Chile (Eschmeyer et al. 2017; Mundy 2005; Agafonova 1994).
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14

Håland, Evy Johanne. "Stewart, Charles: Dreaming and Historical Consciousness in Island Greece." Anthropos 109, no. 1 (2014): 341–43. http://dx.doi.org/10.5771/0257-9774-2014-1-341.

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15

Mcglone, Matt S., and Hugh D. Wilson. "Holocene vegetation and climate of Stewart Island, New Zealand." New Zealand Journal of Botany 34, no. 3 (September 1996): 369–88. http://dx.doi.org/10.1080/0028825x.1996.10410701.

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16

Brathwaite, RL, DNB Skinner, K. Faure, and E. Edwards. "Pyrite-coated granite cobbles at Lee Bay, Stewart Island." New Zealand Journal of Geology and Geophysics 57, no. 1 (January 2, 2014): 57–64. http://dx.doi.org/10.1080/00288306.2013.864317.

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17

Harper, Grant A. "Numerical and functional response of feral cats (Felis catus) to variations in abundance of primary prey on Stewart Island (Rakiura), New Zealand." Wildlife Research 32, no. 7 (2005): 597. http://dx.doi.org/10.1071/wr04057.

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Few studies of populations of feral cats have simultaneously monitored the seasonal abundance of primary prey and the possible ‘prey-switch’ to alternative prey when primary prey abundance declines. On Stewart Island, when the abundance of feral cats’ primary prey, rats (Rattus spp.), was very low, significantly more cats died or left the study area than when rats were abundant. Cats preferentially preyed on rats regardless of rat abundance. Birds were the main alternative prey but cats did not prey-switch to birds when rat abundance was low, possibly owing to the difficulty of capture, and small mass, of birds compared with rats. On Stewart Island numbers of feral cats are restricted by seasonal depressions in abundance of their primary prey, coupled with limited alternative prey biomass.
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18

Smith, John V. "Structures on interfaces of mingled magmas, Stewart Island, New Zealand." Journal of Structural Geology 22, no. 1 (January 2000): 123–33. http://dx.doi.org/10.1016/s0191-8141(99)00139-x.

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19

Knight, Daniel M. "Dreaming and Historical Consciousness in Island Greece by Charles Stewart." Journal of Modern Greek Studies 34, no. 2 (2016): 438–41. http://dx.doi.org/10.1353/mgs.2016.0046.

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20

Seraidari, Katerina. "Dreaming and Historical Consciousness in Island Greece, by Stewart, Charles." Social Anthropology 22, no. 1 (February 2014): 150–52. http://dx.doi.org/10.1111/1469-8676.12066_7.

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21

Sutton, David. "Dreaming and Historical Consciousness in Island Greece by Charles Stewart." Anthropological Quarterly 86, no. 4 (2013): 1169–73. http://dx.doi.org/10.1353/anq.2013.0051.

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22

OPELL, BRENT D., ANDREA M. BERGER, SOPHIA M. BOUS, and MICHAEL L. MANNING. "Genetic relationships of Amaurobioides (Anyphaenidae) spiders from the southeastern coast of New Zealand." Zootaxa 1425, no. 1 (March 15, 2007): 1–10. http://dx.doi.org/10.11646/zootaxa.1425.1.1.

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Members of the genus Amaurobioides construct silk retreats in rock crevices of the marine spray zone, a harsh and unusual habitat for spiders. This study expands the distribution records of three morphological species of Amaurobioides found on the eastern and southern coasts of New Zealand’s South Island and uses mitochondrial DNA to examine their relationships and characterize their dispersal capabilities. Both 16S and ND1 sequences distinguish A. pletus found on the northeastern coast from a complex of two southern species comprised of A. maritimus from the mainland and A. picunus from Stewart Island. Neither 16S DNA nor ND1 protein separates these southern species. However, ND1 parsimony and likelihood analyses place 10 of 11 Stewart Island specimens in a clade of low support that nests deeply within A. maritimus. A nested haplotype analysis characterizes A. maritimus and A. picunus populations as having restricted gene flow/dispersal but with some long distance dispersal. Genetic distances between A. pletus and the A. maritimus-A. picunus complex indicate a Pliocene origin, whereas distances between A. maritimus and A. picunus suggest a Pleistocene divergence.
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23

Donald, Kirsten M., Graham A. McCulloch, Ludovic Dutoit, and Hamish G. Spencer. "Population structure of the New Zealand whelk, Cominella glandiformis (Gastropoda: Buccinidae), suggests sporadic dispersal of a direct developer." Biological Journal of the Linnean Society 130, no. 1 (March 31, 2020): 49–60. http://dx.doi.org/10.1093/biolinnean/blaa033.

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Abstract We examined phylogeographic structure in the direct-developing New Zealand endemic intertidal mud whelk, Cominella glandiformis. Two hundred and ninety-six whelks from 12 sites were collected from sheltered shores around New Zealand’s four largest islands (North Island, South Island, Stewart Island and Chatham Island), encompassing the geographical range of this species. Despite being direct developers, gene flow among C. glandiformis populations may occur over short distances by adult floating, and over larger distances by rafting of egg masses. Primers were developed to amplify variable microsatellite regions at six loci. All loci were variable, with 8–34 alleles/loci. Observed and expected heterozygosities were high across all alleles, with minimal evidence of null alleles. The average number of alleles varied from 3.5 (Chatham Island) to 7.5 (Waitemata Harbour). Strong genetic structure was evident, with distinct ‘eastern’ and ‘western’ groups. Each group extended over a large geographic area, including regions of unsuitable habitat, but were linked by oceanic currents. We suggest that the intraspecific geographic genetic structure in C. glandiformis has arisen due a combination of ocean currents (promoting gene flow between geographically distant regions) and upwelling areas (limiting gene flow between certain regions).
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24

Kitson, Jane Catherine. "Harvest rate of sooty shearwaters (Puffinus griseus) by Rakiura Māori: a potential tool to monitor population trends?" Wildlife Research 31, no. 3 (2004): 319. http://dx.doi.org/10.1071/wr02034.

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Sooty shearwaters (tītī, muttonbird, Puffinus griseus) are highly abundant migratory seabirds, which return to breeding colonies in New Zealand. The Rakiura Māori annual chick harvest on islands adjacent to Rakiura (Stewart Island), is one of the last large-scale customary uses of native wildlife in New Zealand. This study aimed to establish whether the rate at which muttonbirders can extract chicks from their breeding burrows indicates population trends of sooty shearwaters. Harvest rates increased slightly with increasing chick densities on Putauhinu Island. Birders' harvest rates vary in their sensitivities to changing chick density. Therefore a monitoring panel requires careful screening to ensure that harvest rates of the birders selected are sensitive to chick density, and represents a cross-section of different islands. Though harvest rates can provide only a general index of population change, it can provide an inexpensive and feasible way to measure population trends. Detecting trends is the first step to assessing the long-term sustainability of the harvest.
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25

RUSSELL, BARRY C. "Coris sandageri, an unjustified emendation of Coris sandeyeri (Hector 1884) (Pisces, Labridae)." Zootaxa 3061, no. 1 (October 18, 2011): 67. http://dx.doi.org/10.11646/zootaxa.3061.1.4.

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Confusion has surrounded the correct spelling of the species name of the labrid fish Cymolutes (=Coris) sandeyeri Hector 1884. In his original description, Hector (1884a) stated the specimen from Tiritiri Island was “collected by Mr. S. Sandeyer”, a misspelling of the surname of F.S. (Andreas Fremming Stewart) Sandager, who was then Assistant Lighthouse Keeper at Tiritiri Matangi Island, Hauraki Gulf, New Zealand, from June 1881 to May 1883 (Phillips 2011), and after whom the species was named.
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26

Song, Deping, and Qiao Wang. "Systematics of the longicorn beetle genus Coptomma Newman (Coleoptera : Cerambycidae : Cerambycinae)." Invertebrate Systematics 17, no. 3 (2003): 429. http://dx.doi.org/10.1071/it01023.

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Longicorn beetles of the New Zealand genus Coptomma Newman are associated with a wide range of both native and exotic tree genera and are of some economic importance in forestry and horticulture because they kill leading shoots and degrade sawn timber. In this paper, the genus is revised and its scope is redefined. The genus Navomorpha White is synonymised with Coptomma. Two species, N. textorium and N. philpotti, are synonymised with Coptomma lineatum (Fabricius). A new species, C. marrisi, is described for Coptomma. All known species are redescribed. As a result of this revision, the present number of species in Coptomma has increased to five: C.�variegatum, C. lineatum, C. sulcatum, C. sticticum and C. marrisi. A key to species is given. Terminalia of both sexes are illustrated and described. The phylogeny of species is analysed cladistically and the monophyly of the genus is confirmed. Coptomma is widely distributed on the North Island, South Island, Stewart Island and Three Kings Islands of New Zealand. Known biology is noted for each species. The distribution of each species is mapped and discussed.
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Allibone, A. H., and A. J. Tulloch. "Metasedimentary, granitoid, and gabbroic rocks from central Stewart Island, New Zealand." New Zealand Journal of Geology and Geophysics 40, no. 1 (March 1997): 53–68. http://dx.doi.org/10.1080/00288306.1997.9514740.

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28

Allibone, A. H., and A. J. Tulloch. "Geology of the plutonic basement rocks of Stewart Island, New Zealand." New Zealand Journal of Geology and Geophysics 47, no. 2 (June 2004): 233–56. http://dx.doi.org/10.1080/00288306.2004.9515051.

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29

Smith, Abigail M., Catherine R. McGourty, Louise Kregting, and Andrew Elliot. "SubtidalGaleolaria hystrix(Polychaeta: Serpulidae) reefs in Paterson Inlet, Stewart Island, New Zealand." New Zealand Journal of Marine and Freshwater Research 39, no. 6 (December 2005): 1297–304. http://dx.doi.org/10.1080/00288330.2005.9517394.

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30

Patterson, G. B., and C. H. Daugherty. "Leiolopisma stenotis, n. sp., (Reptilia: Lacertilia: Scincidae) from Stewart Island, New Zealand." Journal of the Royal Society of New Zealand 24, no. 1 (March 1994): 125–32. http://dx.doi.org/10.1080/03014223.1994.9517459.

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31

MacKenzie, Lincoln. "Toxic and noxious phytoplankton in Big Glory Bay, Stewart Island, New Zealand." Journal of Applied Phycology 3, no. 1 (March 1991): 19–34. http://dx.doi.org/10.1007/bf00003916.

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32

POWLESLAND, R. G., B. D. LLOYD, H. A. BEST, and D. V. MERTON. "Breeding biology of the Kakapo Strigops habroptilus on Stewart Island, New Zealand." Ibis 134, no. 4 (June 28, 2008): 361–73. http://dx.doi.org/10.1111/j.1474-919x.1992.tb08016.x.

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33

Allibone, Andrew, and Scott Wilson. "Evidence of glacial activity at Mt Allen, southern Stewart Island, New Zealand." New Zealand Journal of Geology and Geophysics 40, no. 2 (June 1997): 151–55. http://dx.doi.org/10.1080/00288306.1997.9514749.

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34

McKoy, J. L. "Growth of tagged rock lobsters(Jasus edwardsii)near Stewart Island, New Zealand." New Zealand Journal of Marine and Freshwater Research 19, no. 4 (December 1985): 457–66. http://dx.doi.org/10.1080/00288330.1985.9516110.

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35

Wood, Vanessa, Philip Seddon, Brent Beaven, and Yolanda van Heezik. "Movement and diet of domestic cats on Stewart Island/Rakiura, New Zealand." New Zealand Journal of Ecology 40, no. 1 (2016): 186–90. http://dx.doi.org/10.20417/nzjecol.40.20.

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36

STEWART, ANDREW L., STEEN W. KNUDSEN, and KENDALL D. CLEMENTS. "A new species of deep-water triplefin (Pisces: Tripterygiidae) in the genus Ruanoho from coastal New Zealand waters." Zootaxa 4981, no. 1 (June 3, 2021): 123–36. http://dx.doi.org/10.11646/zootaxa.4981.1.8.

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A new endemic species of triplefin Ruanoho scurra is described from deep water (108–216 m) on the shelf region around coastal New Zealand (Northland to Stewart Island). It is differentiated from its congeners by the combination of fresh colour (bright yellow spots on the head and anterior body, oblique lines on the dorsal and anal fins, and sub-vertical lines on the caudal) as well as some proportional measurements. Comments are made on the relationship with its congeners, and evolutionary history of the family in New Zealand waters, along with observations on the habitat in which this new species is found. This paper formally describes the species first mentioned in Stewart & Clements 2015:1523 as the polkadot triplefin.
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37

SMIT, HARRY. "Notoaturine water mites from New Zealand (Acari: Hydrachnidia: Notoaturinae) with the description of five new species." Zootaxa 4247, no. 1 (March 23, 2017): 16. http://dx.doi.org/10.11646/zootaxa.4247.1.2.

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The following new notoaturine species from New Zealand are described in this paper: Paratryssaturus stewartensis n. sp., Planaturus pileatus n. sp., P. serratus n. sp., Taintaturus indentatus n. sp. and T. longipileatus n. sp. Paratryssaturus morimotoi (Imamura, 1979) is synonymized with P. minutus. A key is given for the genus Taintaturus Cook. Numerous new records are given, including the first for Stewart Island.
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38

RAMIREZ, MARIA ELIANA, Loretto Contreras-Porcia, MARIE-LAURE GUILLEMIN, JULIET BRODIE, CATALINA VALDIVIA, MARIA ROSA FLORES-MOLINA, ALEJANDRA NUÑEZ, CRISTIAN BULBOA CONTADOR, and CARLOS LOVAZZANO. "Pyropia orbicularis sp. nov. (Rhodophyta, Bangiaceae) based on a population previously known as Porphyra columbina from the central coast of Chile." Phytotaxa 158, no. 2 (February 3, 2014): 133. http://dx.doi.org/10.11646/phytotaxa.158.2.2.

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A new species of bladed Bangiales, Pyropia orbicularis sp. nov., has been described for the first time from the central coast of Chile based on morphology and molecular analyses. The new species was incorrectly known previously as Porphyra columbina (now Pyropia columbina), and it can be distinguished from other species of Pyropia through a range of morphological characteristics, including the shape, texture and colour of the thallus, and the arrangement of the reproductive structures on the foliose thalli. Molecular phylogenies based on both the mitochondrial COI and plastid rbcL gene regions enable this species to be distinguished from other species within Pyropia. P. orbicularis sp. nov. belongs to a well-supported clade of Pyropia from the southern oceans that include specimens from the South Pacific (North, South, Chatham, Stewart, Auckland, and Campbell Island, New Zealand, New South Wales, and Macquarie Island, Australia) including P. columbina and P. plicata. Within this clade, the highest sequence identity was observed between Pyropia orbicularis sp. nov. and Pyropia sp. FIC from the Falkland Islands.
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39

Rawlence, Nicolas J., Charlotte E. Till, R. Paul Scofield, Alan J. D. Tennyson, Catherine J. Collins, Chris Lalas, Graeme Loh, et al. "Strong Phylogeographic Structure in a Sedentary Seabird, the Stewart Island Shag (Leucocarbo chalconotus)." PLoS ONE 9, no. 3 (March 10, 2014): e90769. http://dx.doi.org/10.1371/journal.pone.0090769.

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40

Allibone, A. H., and A. J. Tulloch. "Early Cretaceous dextral transpressional deformation within the Median Batholith, Stewart Island, New Zealand." New Zealand Journal of Geology and Geophysics 51, no. 2 (June 2008): 115–34. http://dx.doi.org/10.1080/00288300809509854.

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41

Allibone, AH, D. MacKenzie, R. Turnbull, A. Tulloch, D. Craw, and M. Palin. "Polymetallic mineralised veins in ferroan/A-type Cretaceous leucogranite, Stewart Island, New Zealand." New Zealand Journal of Geology and Geophysics 59, no. 3 (July 2, 2016): 457–74. http://dx.doi.org/10.1080/00288306.2016.1174947.

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42

Annala, John H., and Bruce L. Bycroft. "Growth rate of juvenile rock lobsters(Jasus edwardsii)at Stewart Island, New Zealand." New Zealand Journal of Marine and Freshwater Research 19, no. 4 (December 1985): 445–55. http://dx.doi.org/10.1080/00288330.1985.9516109.

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43

Konlechner, T. M., W. Ryu, M. J. Hilton, and D. J. Sherman. "Evolution of foredune texture following dynamic restoration, Doughboy Bay, Stewart Island, New Zealand." Aeolian Research 19 (December 2015): 203–14. http://dx.doi.org/10.1016/j.aeolia.2015.06.003.

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44

Horn, P. L., and R. J. Hurst. "Age and stock structure of gemfish (Rexea solandri) in New Zealand waters." Marine and Freshwater Research 50, no. 2 (1999): 103. http://dx.doi.org/10.1071/mf98084.

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Age determination of gemfish by counting hyaline zones in otoliths was validated by following the progression of modes in length–frequency distributions and the progression of strong and weak year classes in age–frequency distributions. Length–frequency and otolith samples were examined from four areas (west Northland, east Northland and Bay of Plenty, Wairarapa coast, and the Stewart- Snares shelf). Age–frequency distributions and von Bertalanffy growth parameters were calculated and compared between areas. Two gemfish stocks are indicated on the basis of patterns of year class strengths, trends in commercial landings and likely spawning areas; one off the east and north of the North Island, and another off the west and south of the South Island. Estimates of natural mortality are presented for the two stocks.
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45

Chilvers, BL, ML Dobbins, and HK Edmonds. "Diving behaviour of yellow-eyed penguins, Port Pegasus/Pikihatiti, Stewart Island/Rakiura, New Zealand." New Zealand Journal of Zoology 41, no. 3 (May 14, 2014): 161–70. http://dx.doi.org/10.1080/03014223.2014.908931.

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46

Smith, Brian J. "The larva ofTraillochorema rakiuraMcFarlane (Trichoptera: Hydrobiosidae), a caddisfly endemic to Stewart Island, New Zealand." New Zealand Entomologist 24, no. 1 (December 2001): 71–74. http://dx.doi.org/10.1080/00779962.2001.9722084.

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47

Allibone, AH, D. MacKenzie, R. Turnbull, A. Tulloch, and D. Craw. "Polymetallic mineralisation associated with Carboniferous I-type granitoids in central Stewart Island, New Zealand." New Zealand Journal of Geology and Geophysics 59, no. 3 (July 2, 2016): 436–56. http://dx.doi.org/10.1080/00288306.2016.1174946.

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48

Breen, Paul A., and John D. Booth. "Puerulus and juvenile abundance in the rock lobsterJasus edwardsiiat Stewart Island, New Zealand (Note)." New Zealand Journal of Marine and Freshwater Research 23, no. 4 (December 1989): 519–23. http://dx.doi.org/10.1080/00288330.1989.9516387.

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49

Tennent, W. J., and D. K. Mitchell. "A brief historical account of an endemic swallowtail butterfly first collected a century ago on Goodenough Island (D'Entrecasteaux group) in Papua New Guinea." Archives of Natural History 44, no. 1 (April 2017): 159–69. http://dx.doi.org/10.3366/anh.2017.0424.

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Abstract:
Graphium weiskei goodenovii Rothschild, 1915 (Lepidoptera: Papilionidae) has been known for over a century only from two male specimens: one in the Natural History Museum, London; the other in the Oxford University Museum of Natural History (OUMNH). Endemic to Goodenough Island, in the D'Entrecasteaux group, Papua New Guinea, it was first collected on the summit of ‘Oiamadawa'a (Mount Madawaa, Mount Madara'a) in 1912 by New Zealand anthropologist Diamond Jenness. The second specimen, which became the holotype, was collected in mountains in the south of the island by Albert Stewart Meek, one of Walter, Lord Rothschild's most prolific collector/explorers for his museum at Tring in Hertfordshire. In each case, capture of specimens was sufficiently notable to be recorded contemporaneously by the captors. These data, and maps and photographs made by the collectors suggest that the butterfly was widespread at moderate to high elevations on Goodenough Island. The authors climbed ‘Oiamadawa'a in 2015 and collected further specimens, now deposited in OUMNH.
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50

Hilton, Mike, Megan Duncan, and Anne Jul. "Processes of Ammophila arenaria (Marram Grass) Invasion and Indigenous Species Displacement, Stewart Island, New Zealand." Journal of Coastal Research 211 (January 2005): 175–85. http://dx.doi.org/10.2112/01041.1.

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