Lapillopsis

Lapillopsis is an extinct genus of stereospondyl temnospondyl within the family Lapillopsidae. Fossils belonging to the genus have been found in the Arcadia Formation (Rewan Group) of Queensland, Australia.

Lapillopsis Temporal range: Early Triassic, ~251–247 Ma PreꞒ Ꞓ O S D C P T J K Pg N ↓
Restoration of Lapillopsis nana
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Chordata
Order:	†Temnospondyli
Suborder:	†Stereospondyli
Family:	†Lapillopsidae
Genus:	†Lapillopsis Warren and Hutchinson, 1990
Type species
†Lapillopsis nana Warren and Hutchinson, 1990

History of study

The type species and only known species is Lapillopsis nana, named in 1990 by Australian scientists Anne Warren and Mark Hutchinson.^[1] The name is derived from the Latin lapillus (pebble) and Greek -opsis (appearance) in reference to the material of this species being collected from within small rocky nodules. There are two known specimens, both nearly complete skulls with associated mandibles and associated postcranial elements. An additional fourteen specimens from the same locality were described by Australian paleontologist Adam Yates in 1999.^[2]

Anatomy

 

Holotype skull of L. nana (specimen QM F12284)

Lapillopsis was differentiated from the closely related Rotaurisaurus from Australia by several features: (1) a deep, semi-elliptical otic notch; (2) an abbreviated posterior skull table; (3) a broad shallow sulcus extending from the posterolateral corner of the quadratojugal to the posterior orbital margin; (4) a broadly flared anterior end of the cultriform process; (5) pterygoid-palatine separation, resulting in an ectopterygoid framing the interpterygoid vacuity; (6) jugal terminating at anterior orbital margin.^[2] The skull and mandible are particularly well-known, permitting a more or less complete reconstruction. Postcranial material consists largely of the pectoral and forelimb regions and a few vertebrae.

Phylogenetic relationships

When it was named, Lapillopsis was identified as a micropholid dissorophoid; dissorophoids are almost exclusively Paleozoic in occurrence with the exception of Micropholis from the Early Triassic Karoo Basin of South Africa. Because computer-assisted phylogenetics were not widely available at the time, the authors made comparisons of distinctive features with those known in other clades and found many similarities with dissorophoids. At the time, dissorophoid systematics remained partially in flux, particularly as it related to several small-bodied terrestrial forms, and Warren and Hutchinson revived Micropholidae, originally created by Watson (1919), to encompass both Micropholis and Lapillopsis,^[3] while noting that the latter lacked several apomorphies of Dissorophoidea.

Yates' (1999) description of additional material of Lapillopsis and the new taxon Rotaurisaurus led him to create the family Lapillopsidae for this unusual group of small-bodied stereospondyls. Yates' phylogenetic analysis, as well as that of Yates & Warren (2000),^[4] recovered lapillopsids at the base of Stereospondyli. A supertree analysis by Ruta et al. (2003)^[5] recovered them in a vastly different position, as the sister group to eryopoids, dissorophoids (inclusive of modern amphibians), and zatracheidids.

Lapillopsis was found as the sister to Rotaurisaurus in a 1999 analysis that found the Lapillopsidae as basal stereospondyls.^[2] The most recent analysis of stereospondylomorphs by Eltink et al. (2019)^[6] recovered Lapillopsis within Lydekkerinidae, another small-bodied Early Triassic group, as the sister taxon of Lydekkerina, somewhat similar to the results of McHugh's 2012 dissertation.^[7] This is in contradiction to previous studies in which Lapillopsis has been recovered: outside of Lydekkerinidae but as its sister group,^[8] with dissorophoids,^[9][10] as the sister taxon of short-snouted stereospondyl clades like lydekkerinids and metoposaurids,^[11] or closely related to brachyopoids.^[12] There is a general consensus that lapillopsids are at least stereospondylomorphs if not stereospondyls proper, but there is no clear agreement beyond that. Previous workers have highlighted the potential that specimens may not represent adults^[2] or that diminished body size may cause attraction with other small-bodied taxa, like lydekkerinids, in an analysis.^[6]

See also

•  Paleontology portal

• List of prehistoric amphibians

References

1. Warren, A. A.; Hutchinson, M. N. (1990). "Lapillopsis, a new genus of temnospondyl amphibians from the Early Triassic of Queensland". Alcheringa. 14 (2): 149–158. doi:10.1080/03115519008527816.
2. Yates, A. M. 1999. The Lapillopsidae: a new family of small temnospondyls from the Early Triassic of Australia. Journal of Vertebrate Paleontology 19: 302-320. https://doi.org/10.1080/02724634.1999.10011143
3. "I. The structure, evolution and origin of the amphibia. - The "orders' rachitomi and stereospondyli". Philosophical Transactions of the Royal Society of London. Series B, Containing Papers of a Biological Character. 209 (360–371): 1–73. 1920-01-01. doi:10.1098/rstb.1920.0001. ISSN 0264-3960.
4. Yates, Adam M.; Warren, A. Anne (January 2000). "The phylogeny of the 'higher' temnospondyls (Vertebrata: Choanata) and its implications for the monophyly and origins of the Stereospondyli". Zoological Journal of the Linnean Society. 128 (1): 77–121. doi:10.1111/j.1096-3642.2000.tb00650.x. ISSN 0024-4082.
5. Ruta, Marcello; Jeffery, Jonathan E.; Coates, Michael I. (2003-12-07). "A supertree of early tetrapods". Proceedings of the Royal Society of London. Series B: Biological Sciences. 270 (1532): 2507–2516. doi:10.1098/rspb.2003.2524. ISSN 0962-8452. PMC 1691537. PMID 14667343.
6. Eltink, Estevan; Schoch, Rainer R.; Langer, Max C. (2019-04-16). "Interrelationships, palaeobiogeography and early evolution of Stereospondylomorpha (Tetrapoda: Temnospondyli)". Journal of Iberian Geology. 45 (2): 251–267. doi:10.1007/s41513-019-00105-z. ISSN 1698-6180. S2CID 146595773.
7. McHugh, Julia (2012). Temnospondyl ontogeny and phylogeny, a window into terrestrial ecosystems during the Permian-Triassic mass extinction. University of Iowa. Archived from the original on October 1, 2017.
8. Dias-da-Silva, Sergio; Hewison, Robin H. (2013). "Phylogenetic Analysis and Palaeobiogeography of the Pangaean Lower Triassic Lydekkerinidae (Temnospondyli, Stereospondyli)". 73rd Meeting of the Society of Vertebrate Paleontology Abstracts: 116.
9. Schoch, Rainer R. (2013). "The evolution of major temnospondyl clades: an inclusive phylogenetic analysis". Journal of Systematic Palaeontology. 11 (6): 673–705. doi:10.1080/14772019.2012.699006. ISSN 1477-2019. S2CID 83906628.
10. Pardo, J. D., Small, B. J., Huttenlocker, A. K. 2017. Stem caecilian from the Triassic of Colorado sheds light on the origins of Lissamphibia. PNAS. https://doi.org/10.1073/pnas.1706752114
11. Maganuco, Simone; Pasini, Giovanni (2009). "A new specimen of trematosaurian temnospondyl from the Lower Triassic of NW Madagascar, with remarks on palatal anatomy and taxonomic affinities". Atti Soc. It. Sci. Nat. Museo Civ. Stor. Nat. Milano. 150: 91–112.
12. Marsicano, Claudia A.; Latimer, Elizabeth; Rubidge, Bruce; Smith, Roger M.H. (2017-05-29). "The Rhinesuchidae and early history of the Stereospondyli (Amphibia: Temnospondyli) at the end of the Palaeozoic". Zoological Journal of the Linnean Society. doi:10.1093/zoolinnean/zlw032. ISSN 0024-4082.