Herklotsichthys Whitley 1951 to replace Harengula Valenciennes 1847 for indo-pacific species (Pisces: Clupeidae)

Abstract

In agreement with a recent work by Berry, the Indo-Pacific species of Harengula are here separated from those of the New World at generie level. The names Clupalosa Bleeker 1849, Paralosa Bleeker 1868 and Wilkesina Fowler 1923, hitherto considered available for Indo-Pacific species of Harengula, are shown to have been based on species of Sardinella. Harengula dispilonotus Bleeker, the type species of Herklotsella Fowler 1934, is an Indo-Pacific species of Harengula. Herklotsella Fowler is, however, preoccupied by Herklotsella Herre 1933, a siluroid genus. Herklotsichthys Whitley 1951 must, therefore, be used for those Indo-Pacific species until now placed in Harengula.

Characters separating Sardinella from both Harengula and Herklotsichthys are discussed and a key is given.     

The morphology and biology of Pterodunga mirabile Daccordi,an unusual subsocial Chrysomeline (Coleoptera: Chrysomelidae)

New information is provided on the morphology and biology of the Australian leaf‐beetle Pterodunga mirabile Daccordi. This species is unusual in the Chrysomelinae for the following features: adult with deeply grooved prothoracic hypopleuron, laterally pointed elytral margins, concealed mesoventrite and fused abdominal ventrites; female ovoviviparous and without spermatheca; first‐instar larva with lappet‐like sclerites; maternal care; host plant in the Proteaceae. The systematic position and conservation status of Pterodunga are discussed. Maternal care in the Chrysomelinae and Proteaceae‐feeding in the Chrysomelidae are reviewed. The first record of maternal care in Chrysomelinae, for Labidomera suturella Guérin‐Méneville, is shown to be a misidentification of Platyphora selvae Daccordi.     

The Australian species of Encarsia Förster (Hymenoptera,Chalcidoidea: Aphelinidae), parasitoids of whiteflies (Hemiptera,Sternorrhyncha, Aleyrodidae) and armoured scale insects (Hemiptera,Coccoidea: Diaspididae)

The species of Encarsia Förster known from Australia are revised. This study is based mainly on material collected over the last 10 years. Ninety‐four species are recognized, including 38 new species, and seven new records for Australia. All species are fully described or diagnosed, and illustrated by microphotographs. Seven new specific synonymies are proposed and two lectotypes are designated. A key to the females of Australian species of Encarsia is provided. The known hosts and distribution are summarized. The diversity of the Australian Encarsia fauna is discussed.     

New and little‐known species of Didemnidae (Ascidiacea,Tunicata) from Australia (Part 3)

The majority of the 58 species discussed, including 10 new species, were collected by scuba divers at 5–10?m in waters around Australia. Species are from Leptoclinides (11), Polysyncraton (11), Didemnum (19), Trididemnum (7), Lissoclinum (8), Clitella (1), and Diplosoma (1), and new species are in all except Trididemnum and Diplosoma. Additional characters (including a pyloric vesicle reported previously in the Holozoidae and several unrelated didemnid taxa) have been detected for the monotypic genus Clitella Kott, , which is recorded for only the second time. A review of known Australian ascidian species confirms the Didemnidae as the most speciose ascidian family in these waters. In this family, there appears not to be appreciable gene flow between tropical and temperate waters and few species have a continuous tropical–temperate range. A preponderance of Western Pacific non‐indigenous species is in the north, while indigenous species, some probably isolated from related tropical ones, are dominant in the temperate waters of the southern half of the continent. Although intraspecific variation and convergence obscures species differences, some aspects of the living organisms detected in in situ photographs contribute to identification. Keys to Australian didemnid species described since the publication of the Australian Ascidiacea part 4, Didemnidae (Kott ) are included.     

Hysterothylacium,Iheringascaris and Maricostula new genus,nematodes (Ascaridoidea) from Australian pelagic marine fishes

The state of knowledge of Australian fish parasitic ascardioids is briefly reviewed. The following species are described in full: Hysterothylacium cornutum, H. pelagicum, H. scomberoidei n. sp. Additional data are provided for Iheringascaris inquies. Maricostula n. gen. is established for those species that have lips with lateral flanges, deep postlabial grooves, interlabia, and elongate intestinal caecum, pyriform ventriculus, long sac-like ventricular appendix, an expanded filamentar excretory system and excretory pore near the nerve ring. The males of all the species have precloacal crests. Species included are: M. caballeroi (Deloya), M. cenatica n. sp., M. histiophori (Yamaguti), M. incurva (Rudolphi), M. makairi n. sp. and M. tetrapteri n. sp. All are recorded from billfishes, and all but M. caballeroi are recorded from Australian waters. The systematic position of the genus is discussed. New characters of taxonomic utility used in the discrimination of fish parasitic ascaridoids are discussed. These include fine details of alae, male caudal crests and papillae. We demonstrate that these characters can be used to separate species of Maricostula. Remarks are also given on nomenclatural problems within the Indo-Pacific fish parasitic Ascardioidea.     

Phylogenetic analysis of the subgenus Lampetis (Spinthoptera) (Coleoptera: Buprestidae) of North and Central America,and the West Indies

Phylogenetic relationships between species of Lampetis (Spinthoptera) of North and Central America and the West Indies were analysed by cladistic methods, based on 65 characters from the external morphology and male genitalia. Eleven species of different generic groups of the subtribe Dicercina were considered as outgroups, including also species of Lampetis (Lampetis) and one South American species of L. (Spinthoptera). The monophyly of Lampetis (Spinthoptera) is supported by two synapomorphies, but this subgenus appears to be more closely related to species of Psiloptera rather than to Old World species of Lampetis (Lampetis), suggesting that Lampetis (Spinthoptera) may be segregated from Lampetis as a different genus. The species of Lampetis (Spinthoptera) from North and Central America and the West Indies do not represent a monophyletic taxon, because L. (S.) tucumana (South American outgroup) is nested within them. Comparison of these results with a previous panbiogeographic analysis indicate that several generalized tracks possess species from different clades, thus suggesting an ancient radiation of this taxon in Mesoamerica and the Mexican Transition Zone.     

New and little-known species of Didemnidae (Ascidiacea,Tunicata) from Australia (part I)

Continuing examination of colonial ascidians in museum collections is revealing further diversity in the family Didemnidae, which abounds in the tropical Indo-West Pacific and around the Australian continent (Kott, 2001). From the present work, it is apparent that much remains to be learnt about this fauna. Of the 45 species discussed in this paper, 16 are new. Larvae are described for the first time for Polysyncraton pedunculatum Kott, 2001 and P. rica Kott, 2001. Amongst the synonymy established in this paper Didemnoides tropicum Sluiter, 1909 is found to be a junior synonym of Lissoclinum patella (Gottschaldt, 1898) and Trididemnum vermiforme Kott, 2001 a junior synonym of T. nobile Kott, 2001. Didemnum nekozita Tokioka, 1967 is found to be a valid species distinct from Polysyncraton cuculliferum (Sluiter, 1909). Prolific replication rates, rapid colony growth, flexibility in growth form and a viviparous habit result in convergence tending to small zooid size, and similar large, increasingly complex colonies found in this family contribute to species diversity around the whole of the Australian continent.     

Australian thrips of the Haplothrips lineage (Insecta: Thysanoptera)

Keys are presented to the 11 genera and 50 species, including 21 new species, of Thysanoptera in Australia that are related to the worldwide genus Haplothrips Amyot and Serville. These taxa belong to what, in recent literature, has been called the “Haplothrips‐lineage”, that is, one of the three major radiations among the 2700 species and 350 genera of Thysanoptera Phlaeothripinae. The group is redefined, and the available tribal name Haplothripini shown to be appropriate. The character states on which the definition is based are discussed, and a list given of the 34 genera worldwide that can be included. The Australian species in these genera exhibit a diversity of biologies. Three genera involve species that invade galls induced by other thrips: Androthrips monsterae (Moulton) from New Guinea is newly recorded from Australia; Mesothrips jordani Zimmermann from South‐East Asia is newly recorded from Australia, with two new synonyms; the Asia‐Pacific genus, Euoplothrips Hood, includes two species in northern Australia. Three haplothripine genera are associated with grasses: one widespread genus, Apterygothrips Priesner, considered polyphyletic, includes only one Australian species; the only known species of Dyothrips Kudo is Oriental but extends into tropical Australia; Podothrips Hood, a circum‐tropical genus of thrips predatory on grass‐living coccoids, has 11 Australian species, six newly described. One grass‐associated genus, Bamboosiella Ananthakrishnan, is excluded from the Haplothripini. An Oriental genus of leaf‐ and flower‐living species, Dolichothrips Karny, includes one species in northern Australia, D. reuteri (Karny); Membrothrips Bhatti in which this species has been placed is considered a synonym. Karnyothrips Watson includes two species introduced to Australia, both predators of coccoids. Priesneria Bagnall includes three species from Australia, of which one fungus‐feeding species is newly described. Xylaplothrips Priesner is a widespread but ill‐defined, polyphyletic genus that currently includes three little‐known Australian species. Haplothrips is the main focus of this study, and character state variation among the Australian species is discussed. In total 24 species of Haplothrips from Australia are recognised, 14 being new species. Also included are the following, one new generic synonym, four new species synonyms, and one new combination. The 250 species worldwide in the genus are usually associated with the flowers of Asteraceae and Poaceae. In Australia, several of the species are specific to flowers, particularly of Poaceae and Cyperaceae but not Asteraceae. Almost half of these Australian species are presumed to be predatory on other small arthropods, and two have unusual host associations—with salt marsh Chenopodiaceae, and with the sori of Dicksonia tree ferns.     

The affinities of European sand gobies (Teleostei: Gobiidae)

The European ‘sand-goby’ genera, comprising the Atlantic-Mediterranean Pomatoschistus and Gobiusculus, Ponto-Caspian Knipowitschia and West Balkanian Economidichthys, are diagnosed, with special reference to patterns of infraorbital neuromast organs (sensory papillae). A survey of selected meristic features indicates synapomorphies in increased number of abdominal and caudal vertebrae, and additional interneural spaces between first and second dorsal fin pterygiophores. Absence of a crest-like postmaxillary process on the premaxilla was found to be another derived feature after a survey of this bone throughout the Gobioidei. Affinity with other Atlantic-Mediterranean genera (Deltentosteus, Buenia, Lebetus and, probably, Speleogobius) is established from both morphological and isozyme criteria. Using head lateral-line and meristic characters, as well as occurrence of the premaxilla crest, a search for a sister group has led to the Indo-Pacific Nesogobius, a genus endemic to southern Australian seas, and probable wider relationship to North-western Pacific endemic gobiids.     

Recent and fossil Lunulitidae (Bryozoa,Cheilostomata) 6. Lunulites sensu lato and the genus Lunularia from Australasia

The characters of the genus Lunulites Lamarck, and of some closely related genera are described and discussed. The genus Lunularia Busk is reintroduced, and three species from Australasia are described. One species, L. parvicella, is known only as an Australian Tertiary fossil, but the remaining two, L. capulus and L. repandus, have an extensive Tertiary-to-Recent Australasian distribution. L. capulus is apparently confined to Australian waters and deposits, but L. repandus has now been found in the Miocene and Recent of New Zealand, as well as off the southern and western Australian coasts.     

LIX.—Description of a species of Palæmon from near Sydney,probably either a new species or the adult form of Palæmon (Eupalæmon) danæ, Heller

Summary

Plagues of small mammals in Australia are nearly confined to rodents, both native and introduced. Only in the arid regions do small marsupials reach plague numbers.

Records of plagues have been found as early as 1845, but in many of them there is insufficient information to identify the species involved.

Plagues can develop under three main conditions, namely (a) when species are introduced into new environments, (b) in the artificial environment of crop plants, and (c) in the natural environment.

There are records of the introduced Rattus rattus forming plagues. On colonizing Lord Howe Island in 1918 the species built up to plague numbers in two years. On other islands the species is likely to have built up large populations also. Of various reported plagues on the Australian mainland, Rattus rattus has been identified definitely on only one occasion, in western New South Wales in 1887. There are earlier reports of the introduced rats and mice occurring in large numbers in unsettled areas, but it seems more likely that the animals were native species, wrongly identified, than introduced species which had spread into the areas concerned.

Two groups of species build up to plague numbers in the artificial environment of crop plants. These are Rattus conatus and some other native species which infest sugar-cane in Queensland, and Mus musculus which often infests wheatfields but also forms plagues in other habitats. Both groups infect the crop from a neighbouring natural habitat. Detailed ecological studies have been carried out on both these types of infestation. Reports of dispersal of plagues of Mus musculus need investigation.

Mus musculus can form plagues over a wide range of habitats, from the arid regions of central Australia to the high rainfall areas of tropical Queensland. The status of the form inhabiting the arid regions needs study.

The arid regions of Australia provide a special environment in which live a number of species of small mammals, both eutherians (rodents) and marsupials. In this habitat breeding occurs when there is a sufficient rainfall, and is not regulated at its extremes by an annual climatic cycle. Some of the riverine lands within the region receive drainage from outside, and this modifies the relationship with rainfall in the Lake Eyre Basin particularly. Under favourable conditions several species of the small mammals can build up to plague numbers. In this they appear to differ markedly from the small mammals of other deserts of the world. The special features of the Australian arid environment which allow this are unknown.

Plagues of Rattus villosissimus are generated in the tablelands to the south of the Gulf of Carpentaria, and hordes of the rodents disperse in large numbers, mostly moving out of the home territory along the course of rivers draining it to the south, and sometimes also to the north. The little information available concerning the populations suggests similarities with the cyclic changes which take place in populations of voles and lemmings in the northern hemisphere. There is no good information about the period of recurrence of the plagues, present records showing a range from three to seventeen years.

The little information available about the plagues of small mammals in Australia suggests parallels with such plagues elsewhere. The common factors are a small size, an herbivorous (? or insectivorous) diet, a high reproductive potential and a polymorphism which permits quick adaptation to the different population structures found under different population densities.     

Ophicardelus (Mollusca,Pulmonata) in eastern Australia: how many taxa?

The common south-eastern Australian estuarine ellobiid snails belonging to Ophicardelus have been considered to be one variable taxon by some authors, and three largely sympatric species by others. This study was undertaken to determine the number of taxa present. Different types of data collected included shell shape, allozyme electrophoresis, shell and radular morphology, anatomy and geographic range. These data sets were then examined for consistent discontinuities, and the results showed that the nominal species could be distinguished by a combination of shell shape and sculpture. Individuals from each nominal species also grouped together using allozyme data, although one taxon (Ophicardelus quoyi) is sometimes paraphyletic based on these data. There are several differences in the anatomy and radular morphology that separate the three taxa. These included marked differences in the penial complex, vagina, and presence or absence of a pallial gland. The three taxa also have different geographic ranges, albeit with most of their ranges in sympatry. Based on these differences, Ophicardelus ornatus, O. quoyi and O. sulcatus should be regarded as valid species.     

The catfish genus Akysis Bleeker (Teleostei: Akysidae) in Indochina,with descriptions of six new species

Catfishes of the genus Akysis Bleeker occurring in the Mekong basin south of the Chinese border, in the Mae Nam Chao Phraya basin, in the Malay Peninsula and the basins in between are reviewed. Nine species are recognised, six of which are new: A. alfredi, A. ephippifer, A. recavus, A. similis, A. subtilis and A. varius. Two groups of species were identified: one group (the pseudobagarius group) is characterised by its members possessing a relatively elongate body, conspicuously subterminal mouths with the upper jaw strongly overhanging the lower, relatively large posterior and anterior nostrils closely located to each other and separated only by the base of the nasal barbel, and strongly-forked caudal fins. The second group (the variegatus group) is characterised by its members possessing a relatively deep body, the margins of the upper and lower jaws uniform, relatively small posterior and anterior nostrils located further apart with a distance between the base of the nasal barbel and anterior nostril, and emarginate or truncate caudal fins. The pseudobagarius group contains the following species: A. alfredi, A. Baramensis, A. fuscus, A. leucorhynchus, A. macronema, A. pseudobagarius, A. sinensis, A. similis, and A. subtilis. All other species of Akysis belong to the variegatus group. A key to the Indochinese Akysis is provided.     

Chroestia,a new supralittoral amphipod genus from Queensland,Australia (Talitroidea: Talitridae)

Chroestia lota, a new genus and species of talitrid amphipod from the shores of Moreton Bay, is described and figured. Its relationship to other ‘beach flea’ genera (Protorchestia, Transorchestia, Orchestia) and to the endemic Australian forest-dwelling genus Agilestia are discussed.     

The jumping plant-lice (Hemiptera,Psylloidea) associated with Schinus (Anacardiaceae): systematics,biogeography and host plant relationships

The gall-forming psylloid fauna associated with the temperate Neotropical plant genus Schinus (Anacardiaceae) is revised, and keys are provided for adults, larvae and galls. Fourteen species are recognized in the genus Calophya (Calophyidae), 10 of which are described as new; C. gallifex and C. schini are reinstated from former synonymy with C. rubra. An additional closely related new species, C. clavuligera sp. n., is described from Lithrea spp. In the genus Tainarys (Psyllidae, Rhinocolinae), six species are recognized and, for five of these, Schinus species are confirmed hosts. Two of them are described as new and one is recombined from Leurolophus. A new Leurolophus species is described from Lithrea molleoides. Based on a cladistic analysis Pelmatobrachia, Microceropsylla and Neocalophya are synonymized with Calophya, producing five new and one revised species combinations as well as one nomen nov. A list of the 59 currently recognized species is provided with information on synonymy, distribution and host plants. The cladistic analyses suggest that the Schinus inhabiting calophyids form two monophyletic groups, the C. rubra and C. hermicitae groups, respectively. A discriminant analysis of 15 variables for both males and females provides morphometric characters for separating the morphologically very homogenous adults of the C. rubra group. The phylogenetic relationships of the Rhinocolinae are re-evaluated, and the genera Tainarys and Leurolophus are redefined. Notophyllura is transferred from the Euphyllurinae to the Rhinocolinae. Tainarys forms the sister group of Leurolophus + Notophyllura. Based on mapped distributions four areas of endemism (distribution) are defined: A (Eastern temperate South America), B (Central and Southern Chile, including adjacent parts of Argentina), C (Central Argentina) and D (Peru, Far Northern Chile, and Eastern Bolivia). Cladistic biogeographical analyses with TAS, COMPONENT and an algorithm by Enghoff yielded the general area cladogram (A +(C +(B +D))); the one calculated with BPA differed in the position of D: (D +(A +(B +C))). The reconstruction of vicariant events using a protocol by Hovenkamp, corroborates the former general area cladogram, which is compared to competing hypotheses. The history of dispersal and vicariance events is reconstructed with the programme DIVA. Evidence for cospeciation of Schinus with its associated psylloids is evaluated with COMPONENT and TREE MAP. The likelihood for cospeciation is high in the Calophya hermicitae group, but low in the Calophya rubra group and in Tainarys. The gall shape depends partly from the psylloid, partly from the Schinus phylogeny.     

The henicopid centipede Haasiella (Chilopoda: Lithobiomorpha): new species from Australia,with a morphology-based phylogeny of Henicopidae

Paralamyctes (Haasiella) Pocock, 1901 (= Wailamyctes Archey, 1917) includes three described species from New Zealand and its Subantarctic Islands. Australian species of P. (Haasiella) include P. (H.) subicolus n. sp. from Tasmania and a clade composed of P. (H.) cammooensis n. sp. from Queensland and New South Wales, P. (H.) ginini n. sp. from New South Wales and the Australian Capital Territory, and an allied species from Tasmania. Monophyly of P. (Haasiella) and the membership of a P. (H.) cammooensis Group are supported by parsimony analysis of morphological characters. A grouping of P. (Haasiella) and P. (Thingathinga) as retrieved by molecular data analysis is also found in minimal length cladograms based on morphology. The dataset incorporates new information on several previously poorly known henicopids, including the types of Lamyctopristus Attems, 1928, and Analamyctes Chamberlin, 1955.     

Five new species of Monocelis Ehrenberg, 1831 (Platyhelminthes: Proseriata) from eastern Australia

Six species of the genus Monocelis Ehrenberg, 1831 have been found in eastern Australia. All are new to science. Five of them are formally described here. Three species (M. rupisrubrae sp. nov., M. nexilis sp. nov., and M. corallicola sp. nov.) have two clearly set pigmented eyespots lateral to the statocyst. They differ in details of the copulatory organ and karyotype. No clear synapomorphies among them or with other species of the genus could be detected. Monocelis beata sp. nov. and M. macrobulbus sp. nov. present extremely elongate, longitudinally oriented copulatory organs. They are sister species, and phylogenetic relationships with M. galapagoensis Ax and Ax, 1977 and M. hopkinsi Karling, 1966 are proposed. Australian Monocelis have distributions limited to recognized biogeographical provinces in eastern Australia: M. corallicola, M. beata and M. macrobulbus in the northern Australian Zone, M. rupisrubrae and M. nexilis in the ‘Overlap Zone’ of the central east coast and Monocelis sp. A in the southern Australian Region.     

Breeding biology of Phyllomedusa azurea Cope, 1862 and P. sauvagii Boulenger, 1882 (Anura) from the Cerrado,Central Brazil

Phyllomedusa azurea and P. sauvagii are treefrogs from seasonal dry environments of Central Brazil. We report on reproductive and other natural history features of these species. The study was carried out in Serra da Bodoquena, Mato Grosso do Sul, Brazil. The reproductive period was determined by the presence of vocalizing males, amplectant pair or presence of tadpoles. The reproductive effort was measured as the ratio of gonad mass in relation to body mass (BM). The reproduction of both species was correlated with the rainy season. Female P. sauvagii produced more eggs and their eggs were larger than those of P. azurea. Both species showed sexual dimorphism in relation to the snout–vent length (SVL) and BM. The mating behaviour of both species was similar. Males in both species showed similar reproductive efforts, but females of P. azurea invested more in gonads compared to the males of P. sauvagii. Phyllomedusa azurea showed a significant relation between SVL versus number of the mature eggs (NME), and P. sauvagii between SVL versus NME and BM versus ovarian mass.     

Novel Australian Polyzoinae (Styelidae,Tunicata)

Species in the colonial subfamily Polyzoinae demonstrate a range of colonial organisations. Colony form appears to be significant at species level but not to have a phylogenetic significance at genus level, species in both speciose genera Polyandrocarpa and Stolonica having colonies either of separate zooids joined by basal stolons or they have completely embedded zooids. Polyandrocarpa and Oculinaria have characters that indicate a close affinity with solitary styelinid genera Polycarpa and Cnemidocarpa, respectively, and suggest that the subfamily is polyphyletic. Stolonica and other genera in the Polyzoinae, in which zooids and body organs are small and simplified, also appear to be polyphyletic assemblages of taxa but their relationships are masked by parallel evolution and convergence associated with replication and colony development. Previously overlooked in the siphonal linings of Oculinaria australis are overlapping spines possibly analagous with the rounded scales (see Kott 1985 Kott, P. 1985. The Australian Ascidiacea Pt 1, Phlebobranchia and Stolidobranchia.. Memoirs of the Queensland Museum, 23: 1–440.  [Google Scholar]) in siphons of Stolonica diptycha (Hartmeyer, 1919 Hartmeyer, R. 1919. Ascidien. In: Results of Dr E. Mjöberg's Swedish scientific expeditions to Australia 1910–13.. Kungliga Svenska Vetenskapsakademiens Handlingar, 60(4): 1–150.  [Google Scholar]). Similar armature appears to be significant at species level in Pyuridae and occasionally Styelidae and it may be further evidence of polyphyly in Polyzoinae. One of the seven species reported (Stolonica vermiculata sp. nov. from Lord Howe I.) is new; one (Oculinaria australis from a range of locations around the southern half of the Australian continent) is recorded often; and five (Polyandrocarpa colemani known only from the Queensland–New South Wales border, P. colligata, Stolonica styeliformis and S. duploplicata all from the tropical western Pacific and Botryllocarpa elongata from Tasmania) are seldom recorded.