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A new Australian genus of Orthotylini, Xasmasoma, gen. nov. is described, with 12 new included species: X. acuminatus, sp. nov., X. agana, sp. nov., X. carrollae, sp. nov., X. celiae, sp. nov., X. chamelaucieaphila, sp. nov., X. mareeba, sp. nov., X. mimae, sp. nov., X. mungallala, sp. nov., X. nillinghoo, sp. nov., X. schuhi, sp. nov., X. silveirae, sp. nov. and X. woodstocki, sp. nov. These species were analysed phylogenetically using 25 morphology-based characters and molecular alignments (COI, 16S, 18S and 28S; 2096 base pairs), with the genus found to be monophyletic based on molecular, morphological and combined analyses. An analysis of host plant associations demonstrated no pattern of co-divergence and limited phylogenetic conservatism, aside from two subclades with respective Calytrix and Myrtaceae preferences. The biogeographic analysis revealed a south-western (South-west Interzone, Western Desert) area relationship, which is in distinction to the orthotyline genus Naranjakotta. The taxonomic component includes an identification key to species and diagnostic characters are illustrated, with detailed documentation of the male genitalia, and the genus uniquely possesses tile-like texture on the apex of the apophysis of the left paramere, and a single endosomal spicule.
Soft coral diversity in tropical northern Australia remains relatively understudied compared with other parts of the world. As a result of ongoing biodiversity surveys, we describe here a new genus of Octocorallia, Anastromvos, gen. nov., and two new species, A. aldersladei, sp. nov. and A. catherinae, sp. nov., collected from waters off the Pilbara, Kimberley and Darwin. To test the validity of the new genus, we used traditional morphological approaches combined with a molecular phylogeny using three mitochondrial genes (COI, mtMutS, ND2) and nuclear 28S. The markers did not amplify for the colony of A. catherinae, sp. nov., which was described on the basis of morphology only. The new genus, belonging to the family Alcyoniidae, is dimorphic, possessing autozooids and siphonozooids, and is characterised by its unique capitate growth form, stone-like colony consistency, heavy autozooid polyp armature and the possession of clubs, tuberculated spindles and/or oval-shaped sclerites and crosses. The molecular phylogeny shows the new genus as the sister group to Sarcophyton + Lobophytum, and forms a unique clade among other alcyoniid clades. The Sarcophyton–Lobophytum group of taxa can be ecologically dominant in shallow-water coral reef communities but there is still much taxonomic refinement needed for these and related genera.
The mantis shrimp superfamily Squilloidea, with over 185 described species, is the largest superfamily in the crustacean order Stomatopoda. To date, phylogenetic relationships within this superfamily have been comprehensively analysed using morphological data, with six major generic groupings being recovered. Here, we infer the phylogeny of Squilloidea using a combined dataset comprising 75 somatic morphological characters and four molecular markers. Nodal support is low when the morphological and molecular datasets are analysed separately but improves substantially when combined in a total-evidence phylogenetic analysis. We obtain a well resolved and strongly supported phylogeny that is largely congruent with previous estimates except that the Anchisquilloides-group, rather than the Meiosquilla-group, is the earliest-branching lineage in Squilloidea. The splits among the Anchisquilloides- and Meiosquilla-groups are followed by those of the Clorida-, Harpiosquilla-, Squilla- and Oratosquilla-groups. Most of the generic groups are recovered as monophyletic, with the exception of the Squilla- and Oratosquilla-groups. However, many genera within the Oratosquilla-group are not recovered as monophyletic. Further exploration with more extensive molecular sampling will be needed to resolve relationships within the Oratosquilla-group and to investigate the adaptive radiation of squilloids. Overall, our results demonstrate the merit of combining morphological and molecular datasets for resolving phylogenetic relationships.
Mite harvestmen of the family Neogoveidae have a tropical trans-Atlantic distribution with representatives in equatorial West Africa and the Neotropics, specifically in the south-east region of the USA and in northern South America, being conspicuously absent from Central America. We provide a comprehensive molecular phylogeny of the family including representatives of all genera but the monotypic Tucanogovea Karaman, 2013, and new information on the type species described by Jochen Martens in 1969 that were unavailable for molecular study until now: Brasiliogovea microphaga, Metagovea oviformis and ‘? Gen. enigmaticus’. Additionally, we revisit the somatic and male genitalic morphology of representatives of all genera by means of scanning electron microscopy and confocal laser scanning microscopy, and describe the new genera Leggogovia Benavides & Giribet, gen. nov., Microgovia Benavides, Hormiga & Giribet, gen. nov., Waiwaigovia Benavides, Hormiga & Giribet, gen. nov. and 13 new species: Brasiliogovea aphantostylus Benavides, Hormiga & Giribet, sp. nov., Brasiliogovea microstylus Benavides, Hormiga & Giribet, sp. nov., Brasiliogovea yacambuensis Benavides, Hormiga & Giribet, sp. nov., Metagovea matapi Benavides, Hormiga & Giribet, sp. nov., Metagovea planada Benavides, Hormiga & Giribet, sp. nov., Microgovia chenepau Benavides, Hormiga & Giribet, sp. nov., Neogovea branstetteri Benavides, Hormiga & Giribet, sp. nov., Neogovea enigmatica Martens, sp. nov., Neogovea matawai Benavides, Hormiga & Giribet, sp. nov., Parogovia montealensis Benavides & Giribet, sp. nov., Parogovia prietoi Benavides & Giribet, sp. nov., Parogovia putnami Benavides & Giribet, sp. nov. and Waiwaigovia schultzi Benavides, Hormiga & Giribet, sp. nov. Phylogenetic analyses based on maximum likelihood, parsimony and Bayesian inference support the monophyly of Neogoveidae and a sister group relationship of Neogoveidae + Ogoveidae with Troglosironidae (a clade named Sternophthalmi). Relationships among neogoveid genera are largely congruent between methods as follows: ((Leggogovia gen. nov., Metasiro), (Parogovia, ((Canga, Microgovia gen. nov.), ((Brasiliogovea, Neogovea), (Huitaca, (Waiwaigovia gen. nov., Metagovea)))))). In light of our results, the following taxonomic changes are proposed: Metagovea oviformis Martens, 1969 is transferred to Microgovia, gen. nov.; Parogovia pabsgarnoni Legg, 1990 is transferred to Leggogovia, gen. nov.; ‘? Gen. enigmaticus Martens, 1969’ is an invalid name according to the ICZN; the corresponding taxon is redescribed and formally named as Neogovea enigmatica Martens, sp. nov.
Representatives of the Southeast Asian pholcid spider genus Uthina Simon, 1893 have been thought to be very homogeneous in their ecology and morphology. The 14 previously known species all inhabit near-ground microhabitats and cave entrances, and range from pale to dark brown in colour. Even their genitalia are partly very similar, with some species pairs being barely distinguishable based on morphological characters. Here we describe three new species from Bali, Java and Sulawesi that represent three further microhabitats and demonstrate considerable ecological and morphological diversity within the genus: U. maya, sp. nov. from Bali is a large dark species on tree trunks; U. hylobatea, sp. nov. from Bali and eastern Java is a pale leaf-dwelling species that exhibits colour dimorphism; and U. mimpi, sp. nov. is a pale troglomorphic species collected in the aphotic zones of two South Sulawesi caves. In addition, we present new data for five previously described species, including ultrastructure, natural history, new records, taxonomic notes and a description of the previously unknown female of Uthina khaosokensis Yao, Li & Jäger, 2014. Molecular data suggest that all previously described species are very closely related to each other (constituting the monophyletic luzonica-group), and that the three new species represent separate clades within the genus. However, the basal trichotomy could not be resolved: U. maya + (U. hylobatea + U. mimpi) + luzonica-group.
Parasesarma De Man, 1895 is the most speciose genus in the family Sesarmidae (Decapoda: Brachyura: Thoracotremata). In the western Indian Ocean, Parasesarma is represented by five species only, although some genetic evidence suggests that P. guttatum could be a species complex comprising two cryptic species. Accordingly, P. guttatum is here split into two pseudocryptic species, and a new species, Parasesarma capensis, sp. nov., is described. P. capensis, sp. nov. fills the same ecological niche as P. guttatum south of the Mozambique Channel. While variation in mitochondrial DNA and morphological differences clearly distinguish the two species, there is no nuclear genetic variation. This may reflect a short history of reproductive isolation. The distinguishing morphological characters of the new species are the 13–15 rounded tubercles on the movable finger, the upper surface of the palm with three transverse crests (one regularly tuberculate and two pectinated), and the shape of the first gonopod. Phylogenetic inference analyses show a sister-species relationship between P. guttatum and P. capensis, sp. nov., and strongly suggest that at least two East African Parasesarma species need a taxonomic revision. The description of this new sesarmid species from the south-eastern African coast sheds new light on the overall biogeographic patterns and general biodiversity of this taxon within the western Indian Ocean.
Monomorium Mayr is a speciose, cosmopolitan genus of myrmicine ants that has had a challenging systematic history, comprising numerous lineages whose relationships are problematic. This study employed an extensive sampling of mostly Australian taxa, along with exemplars of other genera of Solenopsidini, to examine relationships among the continent’s Monomorium fauna. Sequences from elongation factor 1α F2, wingless and cytochrome oxidase subunit 1 (COI) were analysed using Bayesian and maximum likelihood methods. The resultant phylogeny resolved Australian Monomorium into two major clades separated by exemplars from other genera; one comprised predominantly species with 11-segmented antennae (corresponding to Monomorium s. str. in a recent study of Myrmicinae) along with three Paleotropical species. The second clade included Australian species with 12-segmented antennae, two New Zealand species and two from New Caledonia. Two Australian cryptobiotic species were resolved as sister to Clade 2. COI analysis indicated that some species (M. fieldi Forel, M. leave Mayr and M. leae Forel) possibly represent cryptic species complexes. The New Zealand M. antipodum Forel was recovered as a valid species, and is closely related to an eastern Australian population. We resurrect the genus Chelaner Emery for species in the second clade (with 12-segmented antennae) and outline morphological characters to separate Chelaner from Monomorium s. str. Fifty-three species of Chelaner are treated as either stat. nov. or stat. rev.
Stephanie M. Schmidt, Perry A. C. Buenavente, Darrell D. Blatchley, Arvin C. Diesmos, Mae L. Diesmos, David Emmanuel M. General, Alma B. Mohagan, Dale Joy Mohagan, Ronald M. Clouse, Prashant P. Sharma
The Philippine archipelago harbours a remarkable diversity of harvestmen, with respect to both taxonomy and complexity of biogeographic origins. Among the armoured harvestmen (suborder Laniatores), six families of distantly related groups occur in this archipelago. Here, we describe a new species of the family Tithaeidae, Tithaeus odysseus sp. nov., discovered during a collecting campaign on the island of Mindanao. The description of this species expands the known distribution of the family and demonstrates another exception to the zoogeographic boundary known as Huxley’s Line which putatively separates the biota of the Philippines (excluding the Palawan island group) from the Sunda Shelf biota. Given the coincident distributions of Tithaeidae and the mite harvestman family Stylocellidae (Cyphophthalmi), a group renowned for its poor dispersal ability, we inferred phylogenetic relationships and divergence times of the Philippines lineages of both families by using a comprehensive molecular dating analysis of all Opiliones. The internal phylogeny of Tithaeidae mirrored the biogeography of Philippine Stylocellidae, showing a close affinity between the Philippine and Bornean species. Molecular dating showed contemporaneous colonisation of Mindanao by both families in the Cretaceous. We infer these patterns to reflect faunal connections between the southern Philippines and Borneo via the Zamboanga Peninsula. To render the genus Tithaeus monophyletic, we synonymise Metatithaeus with Tithaeus (new synonymy).
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