scholarly journals A Systematic Revision of the New Zealand Gekkonidae

2021 ◽  
Author(s):  
◽  
Rodney Arthur Hitchmough
Keyword(s):  
New Species ◽  
New Zealand ◽  
Strong Support ◽  
Data Matrix ◽  
Morphological Data ◽  
Type Specimens ◽  
Morphological Examination ◽  
Extant Species ◽  
Group Relationships ◽  
Allozyme Loci

<p>ln this species I recognise 21 species of New Zealand brown geckos (Hoplodactylus), and 7 species of green gecko (Naultinus), bringing the total New Zealand gecko fauna to 28. The only previous comprehensive revision of the New Zealand Gekkonidae was that of McOann (1955), who recognised 4 species of brown geckos (Hoplodactylus), 6 species of South lsland green geckos (Heteropholts), and one species of North lsland green gecko (Naultinus). Bauer (1990) synonymised Heferopholis with Naulftnus. In this thesis I interpret the results of allozyme electrophoresis and morphological examination of specimens of all known taxa, using phylogenetic computer analysis and an Evolutionary Species Concept. Allozyme results were obtained for 686 specimens from 235 populations. I resolved 27 allozyme loci from each of these specimens, using 2 tissue types and 5 buffer systems. The following species are recognised as a result of this study. Newly proposed species are indented below the species to which they have previously been referred: Hoplodactylus chrysosireticus, H. duvaucelii, H. granulatus, H. nebulosus, H. kahutarae, H. maculatus, H. brunneus,  H. "Mount Arthur", H. "Kaikouras", H. "Marlborough mini", H. "Southern Alps", H. "Danseys Pass", H. "Cromwell Gorge", H. "Otago", H. "Southern mini", H. pacificus,  H. "Matapia", H. "Poor Knights" H. "Three Kings" H. rakiurae, H. stephensi (H. delcourfi - probably from New Zealand; presumed extinct), Naultinus elegans (subspecies N. e. elegans and N. e. punctatus), N. gemmeus, N. grayii, N. manukanus, N. rudis, N. stellatus, N. tuberculatus. Hoplodacfylus will include 21 extant species. Apart from one synonymy suggested by examination of type specimens, I suggest no formal changes to Naultinus, because morphological support for the status quo is strong, but allozymes identify only 5 groups (2 within N.'gemmeus) rather than the 8 currently recognised. I provide a key for the identification of all known New Zealand species. Phylogenetic analysis of allozyme and morphological results suggests 4 major groups in the New Zealand gecko fauna: Naultinus ; a narrow toed group of Hoplodactylus species, including H. granulatus, H. nebulosus, H. kahutarae, H. rakiurae, and H. stephensi ; the H. pacificus complex, including H. pacificus, H. "Matapia", H. "Poor Knights", and H. "Three Kings" ; the H. maculatus complex, including H. chrysosireticus, H. duvaucelii, H. maculatus, H. brunneus, H. "Mount Arthur", H. "Kaikouras", H. "Marlborough mini", H. "Southem Alps", H. "Danseys Pass", H. "Cromwell Gorge", H. "Otago", and H. "Southem mini". However, Naultinus is closely related to the narrow-toed group of Hoplodactylus, and falls between H. stephensi and the rest of the narrowtoed group of Hoplodactylus in some analyses. Within the H. maculatus complex, there are 3 species groups: H. chrysosireficus and H, "Southem mini" ; H. maculatus. H. "Mount Arthur", H. "Kaikouras", and H. "Marlborough mini" ; H. duvaucelii, H. brunneus, H. "Southem Alps", H. "Danseys Pass", H. "Cromwell Gorge", and H. "Otago". H. pacificus is paraphyletic with respect to the sympatric new species H. "Matapia" in all analyses, and H. granulatus is paraphyletic with respect to H. kahutarae in some analyses. I disagree with many character states Bauer (1990) assigned to the New Zealand species in his morphological data matrix for the Carphodactylini. His resulting cladogram is shown to lack strong support, and alternative phylogenetic, and by inference biogeographical, relationships are possible. Some genetically widely divergent species are so morphologically similar that traditional taxonomies had difficulty distinguishing them (e.9., H. stephensi, all species of the H. pacificus complex, and all species of the H. maculatus complex except H. duvaucelfisubsumed under H. pacificusby McCann 1955). Conversely, some morphologically highly distinct species have genetically close, previously unsuspected sister group relationships. Rates of change in allozymes and morphology therefore appear poorly correlated. In the southern group of the H. maculafus complex, the overall pattem of allozyme variation is a stepped or fragmented cline, which continues across species boundaries. There is a marked absence of diagnostic derived allozyme characters in well-defined species. These allele distributions suggest parapatric speciation, with the shared polymorphisms being older than the speciation event. On Matapia island, the sympatry of 2 morphologically distinct and reproductively isolated species, both of which fall within H. pacificus in trees suggest a double colonisation of the i6land, followed.by morphological divergence. There are at least 5 independent cases of coastal populations of very small H. maculafus-complex geckos with larger inland sister-groups, suggesting strong directional selection on body size. There is strong circumstantial evidence for most evolution and speciation having happened in the South lsland, and for all North lsland species except for the H. pacificus complex being geologicalty recent colonists with South lsland ancestors. The Three Kings and Poor Knights lsland groups are the only islands occupied by New Zealand geckos which are believed not to have been connected to the mainland during Pleistocene glacial periods of low sea level, and also the only islands with genetically distinct local endemics. The recognition of these new species will alter conseruation priorities, as some have very restricted known distributions.</p>

scholarly journals A Systematic Revision of the New Zealand Gekkonidae

2021 ◽  
Author(s):  
◽  
Rodney Arthur Hitchmough
Keyword(s):  
New Species ◽  
New Zealand ◽  
Strong Support ◽  
Data Matrix ◽  
Morphological Data ◽  
Type Specimens ◽  
Morphological Examination ◽  
Extant Species ◽  
Group Relationships ◽  
Allozyme Loci

<p>ln this species I recognise 21 species of New Zealand brown geckos (Hoplodactylus), and 7 species of green gecko (Naultinus), bringing the total New Zealand gecko fauna to 28. The only previous comprehensive revision of the New Zealand Gekkonidae was that of McOann (1955), who recognised 4 species of brown geckos (Hoplodactylus), 6 species of South lsland green geckos (Heteropholts), and one species of North lsland green gecko (Naultinus). Bauer (1990) synonymised Heferopholis with Naulftnus. In this thesis I interpret the results of allozyme electrophoresis and morphological examination of specimens of all known taxa, using phylogenetic computer analysis and an Evolutionary Species Concept. Allozyme results were obtained for 686 specimens from 235 populations. I resolved 27 allozyme loci from each of these specimens, using 2 tissue types and 5 buffer systems. The following species are recognised as a result of this study. Newly proposed species are indented below the species to which they have previously been referred: Hoplodactylus chrysosireticus, H. duvaucelii, H. granulatus, H. nebulosus, H. kahutarae, H. maculatus, H. brunneus,  H. "Mount Arthur", H. "Kaikouras", H. "Marlborough mini", H. "Southern Alps", H. "Danseys Pass", H. "Cromwell Gorge", H. "Otago", H. "Southern mini", H. pacificus,  H. "Matapia", H. "Poor Knights" H. "Three Kings" H. rakiurae, H. stephensi (H. delcourfi - probably from New Zealand; presumed extinct), Naultinus elegans (subspecies N. e. elegans and N. e. punctatus), N. gemmeus, N. grayii, N. manukanus, N. rudis, N. stellatus, N. tuberculatus. Hoplodacfylus will include 21 extant species. Apart from one synonymy suggested by examination of type specimens, I suggest no formal changes to Naultinus, because morphological support for the status quo is strong, but allozymes identify only 5 groups (2 within N.'gemmeus) rather than the 8 currently recognised. I provide a key for the identification of all known New Zealand species. Phylogenetic analysis of allozyme and morphological results suggests 4 major groups in the New Zealand gecko fauna: Naultinus ; a narrow toed group of Hoplodactylus species, including H. granulatus, H. nebulosus, H. kahutarae, H. rakiurae, and H. stephensi ; the H. pacificus complex, including H. pacificus, H. "Matapia", H. "Poor Knights", and H. "Three Kings" ; the H. maculatus complex, including H. chrysosireticus, H. duvaucelii, H. maculatus, H. brunneus, H. "Mount Arthur", H. "Kaikouras", H. "Marlborough mini", H. "Southem Alps", H. "Danseys Pass", H. "Cromwell Gorge", H. "Otago", and H. "Southem mini". However, Naultinus is closely related to the narrow-toed group of Hoplodactylus, and falls between H. stephensi and the rest of the narrowtoed group of Hoplodactylus in some analyses. Within the H. maculatus complex, there are 3 species groups: H. chrysosireficus and H, "Southem mini" ; H. maculatus. H. "Mount Arthur", H. "Kaikouras", and H. "Marlborough mini" ; H. duvaucelii, H. brunneus, H. "Southem Alps", H. "Danseys Pass", H. "Cromwell Gorge", and H. "Otago". H. pacificus is paraphyletic with respect to the sympatric new species H. "Matapia" in all analyses, and H. granulatus is paraphyletic with respect to H. kahutarae in some analyses. I disagree with many character states Bauer (1990) assigned to the New Zealand species in his morphological data matrix for the Carphodactylini. His resulting cladogram is shown to lack strong support, and alternative phylogenetic, and by inference biogeographical, relationships are possible. Some genetically widely divergent species are so morphologically similar that traditional taxonomies had difficulty distinguishing them (e.9., H. stephensi, all species of the H. pacificus complex, and all species of the H. maculatus complex except H. duvaucelfisubsumed under H. pacificusby McCann 1955). Conversely, some morphologically highly distinct species have genetically close, previously unsuspected sister group relationships. Rates of change in allozymes and morphology therefore appear poorly correlated. In the southern group of the H. maculafus complex, the overall pattem of allozyme variation is a stepped or fragmented cline, which continues across species boundaries. There is a marked absence of diagnostic derived allozyme characters in well-defined species. These allele distributions suggest parapatric speciation, with the shared polymorphisms being older than the speciation event. On Matapia island, the sympatry of 2 morphologically distinct and reproductively isolated species, both of which fall within H. pacificus in trees suggest a double colonisation of the i6land, followed.by morphological divergence. There are at least 5 independent cases of coastal populations of very small H. maculafus-complex geckos with larger inland sister-groups, suggesting strong directional selection on body size. There is strong circumstantial evidence for most evolution and speciation having happened in the South lsland, and for all North lsland species except for the H. pacificus complex being geologicalty recent colonists with South lsland ancestors. The Three Kings and Poor Knights lsland groups are the only islands occupied by New Zealand geckos which are believed not to have been connected to the mainland during Pleistocene glacial periods of low sea level, and also the only islands with genetically distinct local endemics. The recognition of these new species will alter conseruation priorities, as some have very restricted known distributions.</p>

scholarly journals Melanoleuca galbuserae, M. fontenlae and M. acystidiata—Three New Species in Subgenus Urticocystis (Pluteaceae, Basidiomycota) with Comments on M. castaneofusca and Related Species

2021 ◽  
Vol 7 (3) ◽  
pp. 191
Author(s):  
Vladimír Antonín ◽  
Hana Ševčíková ◽  
Roberto Para ◽  
Ondrej Ďuriška ◽  
Tomáš Kudláček ◽  
...  
Keyword(s):  
New Species ◽  
Phylogenetic Analyses ◽  
Morphological Data ◽  
Alpine Grasslands ◽  
Type Specimens ◽  
Morphological Examination ◽  
The Usa ◽  
Tree Estimation ◽  
Three New Species ◽  
Micromorphological Characters

Melanoleuca is one of the taxonomically most complicated genera of Agaricomycetes with several taxonomically lineages. The subgenus Urticocystis of the genus Melanoleuca contains species with either urticoid or absent cheilocystidia. In this paper, three new European species, Melanoleuca galbuserae, Melanoleuca fontenlae, and Melanoleuca acystidiata are described as new to science. Melanoleuca galbuserae, related to Melanoleuca stepposa and Melanoleuca tristis, was discovered in alpine grasslands in North Italy. The type specimens and recent collections of Melanoleuca angelesiana, Melanoleuca castaneofusca, Melanoleuca luteolosperma, Melanoleuca pseudopaedida, and Melanoleuca robertiana were sequenced and morphologically examined. Moreover, the related Melanoleuca microcephala and Melanoleuca paedida were included in morphological examination and DNA sequence analyses. All the species were delimited by macro- and micromorphological characters and the multigene phylogenetic analyses of a combined (ITS, rpb2, and tef1) dataset on the basis of the species tree estimation. In accordance with new molecular and morphological data, we suggest taxonomic reappraisal of M. pseudopaedida and M. robertiana, and M. fontenlae and M. acystidiata are proposed as new species. The differences between the type material of M. angelesiana from the USA and European M. angelesiana specimens are discussed.

A new species of Fibularia from Japanese waters with a redescription of F. japonica and F. ovulum (Echinodermata: Echinoidea: Clypeasteroida)

Zootaxa ◽  
2019 ◽  
Vol 4543 (2) ◽  
pp. 241
Author(s):  
HAYATE TANAKA ◽  
KAORI WAKABAYASHI ◽  
TOSHIHIKO FUJITA
Keyword(s):  
New Species ◽  
Mitochondrial Gene ◽  
Type Specimens ◽  
Japanese Species ◽  
Additional Specimen ◽  
Extant Species ◽  
Oral Surface ◽  
Japanese Waters ◽  
Partial Fragment ◽  
A New Species

A new species, Fibularia coffea sp. nov., occurs from shallow waters in Japan. This new species is distinguished from the other species of Fibularia by the following characters: test height is low, oral surface is slightly depressed toward the peristome, number of pores of petal III continues to increase with the test growth, reaching over 30 at TL > 7.5 mm, and black pigments form symmetric pentaradial on aboral surface in living animals. Two further Japanese species, Fibularia japonica and F. ovulum, are redescribed based on the type specimens (F. japonica) and additional specimens (F. ovulum), respectively. A tabular key to the extant species of Fibularia is also provided. A partial fragment of the mitochondrial gene cytochrome oxidase subunit I (COI) of the type specimens of F. coffea sp. nov. and the additional specimen of F. japonica was sequenced for barcoding in future works. 

The ‘xenosmatoid’ group of Cortinarius (Agaricales) in New Zealand

Phytotaxa ◽  
2020 ◽  
Vol 438 (4) ◽  
pp. 223-236
Author(s):  
BÁLINT DIMA ◽  
KARL SOOP
Keyword(s):  
New Species ◽  
New Zealand ◽  
Bayesian Inference ◽  
Type Species ◽  
Phylogenetic Analyses ◽  
Morphological Characters ◽  
The Other ◽  
Morphological Data ◽  
Nrdna Its ◽  
One New Species

Cortinarius section Xenosmatae, originally based on solely morphological characters, was subsequently shown to contain phylogenetically distantly related species. The type species C. xenosma is a singleton, and this study aims to revise the other members of the section using combined molecular (nrDNA ITS and LSU) and morphological data. Based on phylogenetic analyses using RAxML, PhyML and Bayesian Inference and additional morphological features one new species (C. paraxenosma) and one new section (sect. Olorinati) are proposed. Furthermore sect. Carbonelli is extended and emended to include two former members of sect. Xenosmatae. A key to the species in New Zealand with xenosmatoid morphology is provided.

A revision of Calamus (Arecaceae, Calamoideae, Calameae, Calaminae)

Phytotaxa ◽  
2020 ◽  
Vol 445 (1) ◽  
pp. 1-656
Author(s):  
ANDREW HENDERSON
Keyword(s):  
New Species ◽  
Species Concept ◽  
Morphological Data ◽  
Herbarium Specimens ◽  
Phylogenetic Species ◽  
Type Specimens ◽  
Phylogenetic Species Concept ◽  
Distribution Maps ◽  
Qualitative Variables ◽  
Geographic Distributions

A revision of Calamus was carried out based on morphological data. Eight thousand, six hundred and thirty-three herbarium specimens were examined and scored for 14 quantitative and 157 qualitative variables. Application of the Phylogenetic Species Concept to 516 preliminary species of Calamus resulted in recognition of 411 phylogenetic species. Of these, 38 are recognized as new (C. barisanensis, C. brevissimus, C. brunneus, C. calciphilus, C. densifloropsis, C. disjunctus, C. divergens, C. exiguus, C. furvus, C. gaharuensis, C. goramensis, C. heteracanthopsis, C. hosensis, C. impressus, C. insolitus, C. insularis, C. johanis, C. kinabaluensis, C. kubahensis, C. latus, C. lengguanii, C. lobatus, C. notabilis, C. obiensis, C. oresbiopsis, C. oxleyoides, C. pahangensis, C. powlingii, C. saltuensis, C. seropakensis, C. spinosus, C. sulawesiensis, C. tambingensis, C. tapanensis, C. trigynus, C. vinaceus, C. viridis, C. wedaensis). Analysis of quantitative variables and geographic distributions resulted in the division of 11 species into 36 subspecies. Eight species were considered to be ochlospecies (C. erioacanthus, C. inermis, C. javensis, C. melanochaetes, C. micranthus, C. moseleyanus, C. plicatus, C. siphonospathus). Nomenclature, descriptions, and distribution maps are provided for all species. Images of the type specimens of all new species are provided as well as images of most qualitative variables. One hundred and forty–three species are illustrated with images from living plants.

scholarly journals Lepidozia bragginsiana, a new species from New Zealand (Marchantiopsida)

Phytotaxa ◽  
2014 ◽  
Vol 173 (2) ◽  
pp. 117 ◽  
Author(s):  
Endymion D. Cooper ◽  
Matt A. M. Renner
Keyword(s):  
New Species ◽  
New Zealand ◽  
Forest Floor ◽  
Morphological Data ◽  
Similar Species ◽  
Humid Forest ◽  
Small Leaf ◽  
A New Species ◽  
Forest Habitats ◽  
Secondary Shoot

Molecular and morphological data support the recognition of a new Lepidozia species related to L. pendulina and also endemic to New Zealand, which we dedicate to Dr John Braggins. Lepidozia bragginsiana can be distinguished from closely related and other similar species by its bipinnate branching, the narrow underleaf lobes, typically uniseriate toward their tip on both primary and secondary shoots, the asymmetric underleaves on primary shoots that are usually narrower than the stem and also possess basal spines and spurs, the production of spurs and spines, or even accessory lobes, on the postical margin of primary and secondary shoot leaves; and by the relatively small leaf cells with evenly thickened walls.  Lepidozia bragginsiana is an inhabitant of hyper-humid forest habitats where it occupies elevated microsites on the forest floor. A lectotype is proposed for L. obtusiloba.

Fossil imbricate-leaved Podocarpaceae from tertiary sediments in Tasmania

1989 ◽  
Vol 2 (4) ◽  
pp. 387 ◽  
Author(s):  
PM Wells ◽  
RS Hill
Keyword(s):  
New Species ◽  
New Zealand ◽  
New Guinea ◽  
Early Miocene ◽  
Vegetation Reconstruction ◽  
Extant Species ◽  
Low Altitude ◽  
Tasmanian Endemic ◽  
Lines Of Evidence

Fifteen new species belonging to five genera (one, Mesibovia, newly described) of the Podocarpaceae with imbricate leaves are described from Oligocene–Early Miocene localities in Tasmania. Nine of these species belong to Dacrycarpus, which is now extinct in Australia, and their living affinities are widespread in latitude and altitude from New Zealand to New Guinea. Three species of Dacrydium s. str. demonstrate that this genus was diverse in Tasmania in the Tertiary, although it is now extinct in Australia. A species of Microstrobos, which is very similar to the extant alpine/subalpine Tasmanian endemic M. niphophilus, occurs in both high- and low-altitude sites, and suggests that this type was once more widespread. The Oligocene Lagarostrobos marginata is intermediate between the two extant species of Lagarostrobos, and suggests a closer relationship between them than do other lines of evidence. Mesibovia rhomboideu, recovered from three localities, shares features with several extant genera, and is of importance in understanding evolution within this group. The significance of the fossils for climatic and vegetation reconstruction is discussed.

scholarly journals A new species of chimaeriform (Chondrichthyes, Holocephali) from the uppermost Cretaceous of the López de Bertodano Formation, Isla Marambio (Seymour Island), Antarctica

2012 ◽  
Vol 25 (1) ◽  
pp. 99-106 ◽  
Author(s):  
Rodrigo A. Otero ◽  
David Rubilar-Rogers ◽  
Roberto E. Yury-Yañez ◽  
Alexander O. Vargas ◽  
Carolina S. Gutstein ◽  
...  
Keyword(s):  
New Species ◽  
New Zealand ◽  
Late Cretaceous ◽  
Evolutionary Trend ◽  
Dental Plate ◽  
Intermediate Morphology ◽  
Extant Species ◽  
A New Species ◽  
Seymour Island

AbstractWe describe a new chimaeriform fish, Callorhinchus torresi sp. nov., from the uppermost Cretaceous (late Maastrichtian) of the López de Bertodano Formation, Isla Marambio (Seymour Island), Antarctica. The material shows it is distinct from currently known fossil and extant species of the genus, whereas the outline of the tritors (abrasive surfaces of each dental plate) shows an intermediate morphology between earlier records from the Cenomanian of New Zealand and those from the Eocene of Isla Marambio. This suggests an evolutionary trend in tritor morphology in the lineage leading to modern callorhynchids, during the Late Cretaceous-Palaeogene interval.

scholarly journals Descriptions of eighteen new species of Glemparon, a previously monotypic genus of Porricondylinae (Diptera, Cecidomyiidae)

2018 ◽  
Author(s):  
Mathias Jaschhof ◽  
Catrin Jaschhof
Keyword(s):  
New Species ◽  
New Zealand ◽  
Sister Group ◽  
Morphological Data ◽  
Monotypic Genus ◽  
European Species ◽  
The World ◽  
Australasian Region ◽  
Major Impediment

Glemparon Jaschhof, 2013, a previously monotypic genus confined to Sweden, is shown here to be considerably richer in species, with most species found to occur in the Australasian region. Eighteen new species are described: G. tomelilla sp. nov. (from Sweden); G. aotearoa sp. nov., G. birhojohmi sp. nov., G. cervus sp. nov., G. didhami sp. nov, G. kaikoura sp. nov., G. nativitas sp. nov., G. orautahi sp. nov., G. otago sp. nov., G. pureora sp. nov., G. rakiura sp. nov., G. rotoiti sp. nov., G. rotoroa sp. nov., G. tewaipounamu sp. nov., G. waipapa sp. nov., G. waipoua sp. nov. (all from New Zealand); G. manuka sp. nov. and G. warra sp. nov. (both from Tasmania, Australia). Glemparon sagittifer Jaschhof, 2013 is redescribed. Genitalic illustrations are provided allowing for the effective identification of all the species known thus far. Morphological data obtained here are used for revising the generic definition. Dicerura Kieffer, 1898 is hypothesized as the sister group to Glemparon. The case of Glemparon is discussed as a perfect example of the fact that our collective ignorance of porricondyline diversity in most parts of the world is a major impediment to a better understanding of the European species.

scholarly journals The taxonomy, phylogeny and biogeography of the New Zealand Thomisidae (Arachnida: Araneae)

2021 ◽  
Author(s):  
◽  
Phil J. Sirvid
Keyword(s):  
New Species ◽  
New Zealand ◽  
Type Species ◽  
Taxonomic Revision ◽  
Genetic Data ◽  
Junior Synonym ◽  
Morphological Data ◽  
Distribution Data ◽  
Australian Species ◽  
Recent Establishment

<p>The New Zealand Thomisidae (crab spiders) are represented in New Zealand by two subfamilies (Stephanopinae and Thomisinae) and were used as a model group to test two competing theories on the origins of the New Zealand spider fauna. The New Zealand thomisids are also given their first full taxonomic revision. The two origin models essentially represent species radiations following recent dispersal or ancient vicariance events. Modern distribution data suggested that the stephanopines are poor dispersers and may provide evidence demonstrating a long period of separation from Australia; while in contrast, thomisines are known to be excellent dispersers. Maximum Likelihood and Bayesian analyses of cytochrome c suboxidase subunit I (COI), 28S ribosomal RNA (28S), histone H3 (H3), NADH dehyrogenase 1 (ND1) data and a combined genetic dataset was undertaken. Results indicate New Zealand stephanopines and thomisines form distinct endemic groups separate from sampled Australian species and appear to have separated from them around 5-6 million years ago. Additionally, genetic data from this study showed i) colour variations are not indicative of cryptic species; ii) previously described species are genetically distinct; iii) several suspected new species are also genetically distinct; iv) the relatively recent establishment of two Australian stephanopines and the occurrence of similar COI haplotypes in disjunct locations suggest that the dispersal ability of stephanopines is greater than previously thought and that radiation following colonization from Australia is a plausible explanation for the current diversity of the New Zealand thomisid biota. The taxonomic revision raises the number of described species from eight to eleven based on a combination of morphological and genetic data. In the stephanopines, Bryantymella Gen. nov. is erected to contain the type species Bryantymella angularis (Urquhart, 1885) comb. nov. as well as B. angulata (Urquhart, 1885) comb. nov., B. thorini sp. nov. and B. brevirostris sp. nov. Two Australian species, Sidymella longipes (Koch, 1874) and S. trapezia (Koch, 1874), are also recorded for New Zealand. Sidymella benhami (Hogg, 1910) is considered to be a junior synonym of Bryantymella angulata (Urquhart, 1885). In the thomisines, all species are now included in the previously monotypic genus Cymbachina Bryant, 1933. The genus now encompasses the type species C. albobrunnea (Urquhart, 1893), C. ambara (Urquhart, 1885) comb. nov., C. albolimbata (L. Koch, 1893) comb. nov., C. sphaeroides (Urquhart, 1885) comb. nov. and D. urquharti sp. nov. Synema suteri Dahl, 1907 is regarded as a junior synonym of C. ambara (L. Koch 1893). All previously described species are redescribed to a modern standard and sexes for some species are described for the first time. Three new species are described. Photographs of adults and diagnostic genitalic characters are included, as are diagnostic keys and updated synonymic, geographic and biological information. Overall, this study indicates that New Zealand thomisids appear to have split from their Australian relatives some 5-6 million years ago and taken in concert with the recent establishment of two Australian stephanopine species, it appears that dispersal to New Zealand by Australian colonists and subsequent radiation into endemic New Zealand forms is a plausible explanation for the current state of the fauna. Genetic and morphological data are mutually supporting and in concert have helped inform the first taxonomic revision ever undertaken for this family in New Zealand.</p>

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