Browsing by Author "Cooper SJB"

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Integrative taxonomic revision of the Australian cave cricket Speleotettix Chopard, 1944 (Orthoptera: Rhaphidophoridae): New species, distribution and conservation implications
(John Wiley and Sons Australia, Ltd on behalf of Australian Entomological Society, 2025-08-01) Beasley-Hall PG; Trewick SA; Hedges BA; Cooper SJB; Reed EH; Austin AD
Cave crickets, also called wētā, are an important component of subterranean realms globally, but the true diversity of the group is poorly known. Speleotettix Chopard, 1944 contains two species from southeast Australia, Speleotettix tindalei Chopard, 1944 and Speleotettix chopardi (Karny, 1935). However, the initial description of the genus was poorly characterised, and its taxonomy has remained unclear since. Here, we take an integrative molecular and morphological approach to redescribe Speleotettix and describe three new species: Speleotettix aolae Beasley-Hall, sp. nov. from Victoria and Speleotettix binoomea Beasley-Hall, sp. nov. from New South Wales, both found in limestone caves, and Speleotettix palaga Beasley-Hall, sp. nov. from mineshafts in Victoria. To provide consistency in future work on the group, we also redescribe S. tindalei and treat S. chopardi as a nomen dubium. Finally, we transfer the threatened species Cavernotettix craggiensis Richards, 1974, an island species from Tasmania's Bass Strait, into the genus as Speleotettix craggiensis (Richards, 1974) comb. nov. In so doing, we increase the number of described rhaphidophorid species in Australia to 27 and significantly expand the distribution of Speleotettix, making it the most widespread of the Australian genera currently known. As all members of Speleotettix are short-range endemics at risk of decline, these findings have implications for their future conservation management.
Molecular phylogenetics illuminates the evolutionary history and hidden diversity of Australian cave crick ets (Orthoptera: Rhaphidophoridae)
(John Wiley and Sons Ltd on behalf of Royal Entomological Society., 2025-06-23) Beasley-Hall PG; Trewick SA; Eberhard SM; Zwick A; Reed EH; Cooper SJB; Austin AD; Blaimer B
Cave crickets (Orthoptera: Rhaphidophoridae) are a globally distributed group of insects found in dark, humid microhabitats including natural caves, alpine scree, and forest litter. Ten extant subfamilies are currently recognised, of which Macropathinae, which comprises the entirety of the fauna in South America, South Africa, Australia, and New Zealand, is thought to be the most ancient. New Zealand comprises high phylogenetic diversity of Rhaphidophoridae throughout its mesic zone, with most species occurring above ground. In contrast, the Australian fauna is poorly known and contains an apparently greater relative proportion of species utilising caves as refugia. A robust phylogenetic framework is needed to underpin future taxonomic work on the group and uncover potentially contrasting patterns of taxonomic diversity. Here, we performed fossil-calibrated phylogenetic analysis using whole mitochondrial genomes and nuclear markers to reconstruct the evolutionary history of Macropathinae with a focus on the Australian fauna. By dramatically increasing taxon sampling relative to past studies, we recovered the Australian fauna as rampantly polyphyletic, with the remaining Macropathinae nested among six distinct Australian lineages. Deep divergences between major clades imply additional Australian lineages remain undetected, either due to extinction or sampling bias, and have likely confounded past biogeographic signal. We inferred the radiation of Macropathinae began during the Lower Cretaceous prior to the fragmentation of Gondwana with a potential Pangaean origin for Rhaphidophoridae. Finally, we found evidence for several undescribed species and genera of Australian Macropathinae, all of which qualify as short-range endemics, and discuss the conservation implications of these restricted distributions.