Brad Maryan scite author profile

Brad Maryan

4Publications

95Citation Statements Received

132Citation Statements Given

How they've been cited

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128

Affiliations

Migration Institute of Australia, Western Australian Museum, Australian Museum

Publications

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A new species of the Aprasia repens species-group (Squamata: Pygopodidae) from Western Australia

Maryan¹,

How²,

Adams³

2013

Rec West Aust Mus

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-The worm lizard genusAprasia is a distinct group of morphologically conservative, fossorial pygopodids. Current knowledge of their taxonomy is incomplete, particularly in Western Australia where they are most diverse. Recent biological surveys in Western Australia, using fenced pitfall traplines, combined with active searching near Dongara and on the two largest islands in the Houtman Abrolhos (East and West Wallabi) found three specimens of a very small Aprasia that were tentatively referable to A. repens. As such, they represented an additional species to the herpetofauna of the remote Abrolhos Archipelago. We further investigated these specimens by carrying out an analysis of allozyme and morphological variation in the A. repens species-group. We found the three specimens to be conspecifi c with each other yet distinct from all described species. The new species is closest genetically to A. repens, but in morphology is most similar to A. haroldi. Aprasia clairae sp. nov. differs from all other Aprasia by a conservative suite of morphological characters and by multiple fi xed allozyme differences. We also make remarks on the conservation status of the new species and other unresolved taxonomic issues within Aprasia.

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Morphological and molecular assessment of Aprasia fusca and A. rostrata (Squamata: Pygopodidae), with a description of a new species from the Lake MacLeod region, Western Australia

Maryan¹,

Bush²,

Adams³

2013

Rec West Aust Mus

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-The Australian pygopodid genus Aprasia comprises a group of small, morphologically conservative, worm-like fossorial lizards, many of which are distributed along the west coast of the continent. This study re-examines the taxonomic distinctiveness of the two most northerly occurring species in Western Australia: A. fusca and A. rostrata, which are very similar in morphology. A combined morphological and allozyme analysis revealed these two species to be conspecifi c with A. rostrata considered a senior synonym of A. fusca. As a consequence, we have redescribed A. rostrata. The allozyme analysis also revealed a new species, named here as Aprasia litorea sp. nov. This species occurs in the Lake Macleod region, well to the south of its congener, A. rostrata, and the two species are diagnosable using a conservative suite of morphological and meristic characters.

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Evolution and maintenance of colour pattern polymorphism in Liopholis (Squamata:Scincidae)

et al. 2008

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Abstract. We examined the evolution and maintenance of colour pattern polymorphism in an Australian lineage of scincid lizards, the genus Liopholis. Liopholis comprises 11 species, with representatives in both the temperate zone and arid zone. Specimens from all major Australian museums were examined to characterise colour pattern polymorphism within Liopholis, and investigate geographic variation in the relative abundance of morphs within polymorphic species. We used a previously published phylogeny for Liopholis to investigate the evolution and maintenance of colour pattern polymorphism within the group. Five species were found to exhibit colour pattern polymorphismslateri Storr, L. striata Sternfeld). Three colour morphs occur in L. whitii, with the relative abundance of each varying significantly among latitudes. The patterned morph is most common, while the incidence of the plain-back morph decreases at latitudes higher than 35°S. The L. whitii patternless morph occurs only within a narrow latitudinal band (34-38°S). In L. multiscutata, the relative abundance of the patterned (~89-93%) and patternless morph (~7-11%) is consistent across regions, except for the Nullarbor Plain region where the patternless morph is more common (~39%). Our analyses suggest a single origin of colour pattern polymorphism in Liopholis, followed by the subsequent loss of polymorphism on four occasions. The secondary loss of polymorphism might be associated with climate or habitat, possibly as the result of shifts into the arid zone or alpine regions of Australia. This study provides the necessary framework for future studies of colour pattern polymorphism in Liopholis.

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A new species of taipan (Elapidae: Oxyuranus) from central Australia

Doughty

Maryan

Donnellan

et al. 2007

Zootaxa

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Snakes in the Australo-Papuan elapid genus Oxyuranus are considered to be the most venomous species in the world. A recent expedition to the central ranges of Western Australia discovered a third species, which is described here from the only known specimen. Molecular genetic analyses using mitochondrial nucleotide sequences places the new species as the sister lineage of the two described Oxyuranus species, with all three species united by a long branch that also separates them from the nearest of the brown snakes species (Pseudonaja) to which the taipans are close relatives. Morphologically, the new species shares with the other Oxyuranus an undivided anal scale, high midbody scale row (21) and ventral scale (250) counts, but differs in having a single primary temporal scale and fewer lower labials (six). Maximum body size and venom potency are unknown. The discovery of a third species of taipan in the remote central ranges of Australia underlines the paucity of collecting from this region.

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Brad Maryan

A new species of the Aprasia repens species-group (Squamata: Pygopodidae) from Western Australia

Morphological and molecular assessment of Aprasia fusca and A. rostrata (Squamata: Pygopodidae), with a description of a new species from the Lake MacLeod region, Western Australia

Evolution and maintenance of colour pattern polymorphism in Liopholis (Squamata:Scincidae)

A new species of taipan (Elapidae: Oxyuranus) from central Australia

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