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https://doi.org/10.24199/j.mmv.1985.46.02 30 July 1985 REVISION OL AN EARLY ARENIC. TRILOBITE FAUNULE FROM I HI CAROLINE CREEK SANDSTONE, NEAR LATROBE, TASMANIA By P. A. JELL* and B. STAlTf * Department of Invertebrate 1 ossils, Museum of Victoria, 285-321 Russell Street, Melbourne, Victoria 3000. Departmeni of Geology, Universitj of Tasmania, G.P.O. Box 252C, Hobart, rasmania 7001. Abstract A trilobite faunule from the Caroline Creek Sandstone neai 1 atrobe, Mersey Disirict, rasmania is revised with five species being recognised, namely, Etheridgaspis carolinensis (Etheridge), Carolinites tasmaniensis (Etheridge), Tasmanocephalus stephensi (Etheridge), Parabasilicus ? lewisi (Kobayashi), Protoencrinurella '.' subquadrata (Kobayashi). Carolinites tasmaniensis is recognised as a senior synonym of the type species of the genus, C, bulbosus Kobayashi, and oi C. genacinaca nevadensis Hintze. is Tasmanocephalia referred to the Missisquotidae and Etheridgaspis to the Hystricuridae. I he age ol this faunule is considered to be earl) Arenig [D, defiexus /one). Introduction assigning an Early Ordovician age to the The fauna of the Caroline Creek Sandstone faunule. In 1940 he carried out a full revision has not been fully described but a trilobite based on a new collection sent to him by Dt A. Faunule from a prolific locality near 1. atrobe in N. Lewis but unfortunately did not refer to the the Mersey River District of northern Tasmania original material of Etheridge. He erected two (Fig. 1) was extensively collected during the lat- genera (Carolinites and Etheridgaspis) and four ter pan o\' the nineteenth century and collec- species (C. bulbosa, C. quadrate, Prosopiscusl tions dispersed to numerous museums in many subquadrata and Asapheilus lewisi) assigning parts of the world. Robert Etheridge Jr (1883) two o( Etheridge's 1919 species (carolinensis published the first taxonomic study o\' litis and johnstoni) to his second new genus. material. He erected Conocephalites stephensi Subsequent references to this faunule have for a number of cranidia and Dikelocephalus relied upon Kobayashi's determinations (e.g. tasmanicus for several pygidia, as well as refer- Banks, 1962) but no further taxonomic study ring to two species of Asaphus and four has been attempted. With the recognition of the genei ically-tinassigned species of ptyeho- bioslratigraphic utility of species oi' Carolinites ( paiioids in open nomenclature. He concluded in several parts of the world and revision of '. that the age was equivalent to that of the bulbosus by Henderson (1983), still not based Lingula Flags in Britain and the Potsdam Sand- on Etheridge's material, a review of the whole stone of North America (i.e. Late Cambrian). faunule has once again become necessary. In 1919 Etheridge revised the taxonomy of Latex casting techniques provide greater the faunule without illustration. He assigned morphological detail than was previously Dikelocephalus tasmanicus to Crepicephalus available. We have attempted to illustrate as and recognised that Conoeephaliles Stephens'! many specimens as possible to provide fuller was the cranidium of the same species. He understanding of each laxon and to avoid erected three species for the four non-asaphids misinterpretations based on too few, often he had left in open nomenclature in 1883 and deformed specimens. referred them questionably to Ptychoparia. In the face of relatively poor preservation The further study of this faunule was under- (see below) we have been fortunate in having taken by Kobayashi (1936, 1940). In 1936 he available not only the collection of the Tasma- reported on the collection in I he British nian Museum (prefixed /.) including the type Museum (Natural History) recognising the collections of both Etheridge (1883) and generic distinctions of Etheridge's species Kobayashi (1940) but also two large lopotype stephensi with the name Tasmanocephalus and collections; one is the George Sweet Collection Memoirs ol the Museum Victoria, 35 No. 46, iy«5. 36 P. A. JELL AND 15. STMT 1940) and subsequent authors recognised their Early Ordovician age. The faunule as here revised contains: Etheridgaspis carolinensis (Etheridge, 1919) Tasmanocephalus stephensi (Etheridge, 1883) Carolinites tasmaniensis (Etheridge, 1919) Parabasilicus ? lewisi (Kobayashi, 1940) and Protoencrinurella ? subquadrata (Kobayashi, 1940) The first two listed species are not known from outside Tasmania and the last two listed species are loo poorly known to be useful for precise correlation, alihough Protoencrinurella in association with Carolinites may have some significance (see below). Fortey (1975) has shown the utility of species of Carolinites for biostratigraphic subdivision of the Arenig and Llanvirn of Spitsbergen and it seems reasonable to use the same tool for age determination of the Caroline Creek Standstone faunule. The synonymy of C. tasmaniensis (see below) including C. genacinaca nevadensis Hintze, allows direct correlation wilh the top few metres of ihe Kirtonryggen Formation and basal 3 m of the Olenidsletta Member of the Valhallfonna Formation. This level was cor- related (Fortey, 1976) with the early Arenig D. Figure 1 . Locality map redrawn from Sheffield 1 mile to deflexus graptolite zone of the British sequence 1 inch geological map, Geological Survey of based on the co-occurring graptolites. Legg Tasmania. (1978) showed Carolinites and Protoen- crinurella first appearing in his fauna 3a so that housed in the Museum of Victoria (prefixed if this association in the Caroline Creek Sand- NMVP) and the other in the Australian stone was contemporaneous the same correla- Museum, Sydney (prefix AMF) acquired by ex- tion through the early Bendigonian of Victoria change with the Tasmanian Museum probably to the D. deflexus zone of Britain is achieved on the initiative of R. Etheridge Jr. (Legg, 1978, fig. 7; Skevington, 1963). We are thankful to Dr M. R. Banks, Univer- However, Legg's (1976) C. bulbosus material sity of Tasmania, Mr D. R. Gregg, Tasmanian appears conspecific with C. genacinaca Ross, Musuem, and Dr A. Ritchie, Australian 1951. Museum for the loan of or for locating The only other attempt to correlate this specimens. We thank Penny Clark for printing faunule with a particular Arenig zone was by the photographs from negatives by the senior Singleton (in Banks, 1962) who provided a late author, Annette Jell for curatorial assistance Arenig age in the zone of D. hirundo. He gave and Heather Martin for typing the manuscript. no explanation of the basis for this correlation, thus preventing evaluation. However, from the Age of the faunule range of C. tasmaniensis in Spitsbergen and the Although originally thought to be of Cam- allied C. genacinaca in Spitsbergen and brian age (Etheridge, 1883) Kobayashi (1936. Western Australia this correlation appears EARLY ARENIG TR1LOBITE FAUNULE 37 unreasonable. Unfortunately that dating of the cludes occipital ring; all dimensions in the faunule has followed been by some subsequent sagittal or exsaggital direction are discussed in collators (e.g., Banks and Burrett, 1980, p. 365; terms of length and all dimensions in the et al., Webby 1981) although confusion is ap- transverse direction are discussed in terms of parent in other discussions of its correlation. width (for example the anterior cranidial border are able to that We conclude the trilobites whose sagittal dimension is often important in described below from the Caroline Creek Sand- specific description is described in terms of long stone indicate an early Arenig age (i.e. early or short in our terminology). The state of preser- Bendigonian in the Victorian graptolite se- vation of the fossils removes any confidence in quence or D. deflexus zone in the British succes- the use of any biometrics so no measurements or sion) which is somewhat older than previously reconstructions are included in the descriptions; thought. sizes of individuals are indicated in the explana- tions of plates and most distinguishing charac- Preservation ters are not measurements. The fossils are contained in a ferruginous, fine to medium grained sandstone as internal Class Trilobita and external moulds of disarticulated exo- Family Hystricuridae Hupe, 1953 skeletal components. There has been some Etheridgaspis Kobayashi, 1940 post-depositional deformation of most Type species (by original designation): specimens, the amount depending on the orien- Ptychoparia ? carolinensis Etheridge, 1919. tation in the bedding plane. Although most often showing some skewness in the bilateral symmetry, the deformation may be directly in Diagnosis: Hystricurids with rounded glabellar the sagittal or transverse direction so that anterior, almost parallel-sided glabella; well- measurements of specimens could not be used impressed pit-like lp glabellar furrow isolated confidently in comparative studies. Moreover, from axial furrow; shallow 2p glabellar furrow we believe that it was this distortion which in- low al axial furrow; preglabellar field shorter duced Etheridge to recognise a second asaphid than short uniform anterior border; palpebral species in 1883 and a second species of lobe wide, defined by well-impressed palpebral Etheridgaspis in 1919 and Kobayashi (1940) to furrow, situated level with midlength of recognise a second species of Carolinites. glabella, becoming longer with growth; The coarseness of the matrix has in most librigena with high eye socle, elevated rear area cases allowed penetration of latex into pore of genal field and strong genal spine.

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