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Gerrothorax ("wicker chest") is an extinct genus of temnospondyl amphibian from the Triassic period of Greenland, Germany, Poland, Sweden, and possibly Thailand. It is known from a single species, G. pulcherrimus, although several other species such as G. pustuloglomeratus have been named in the past.

Gerrothorax
Temporal range: LadinianRhaetian (Middle–Late Triassic)
Fossil of Gerrothorax in the Naturmuseum Senckenberg
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Order: Temnospondyli
Suborder: Stereospondyli
Family: Plagiosauridae
Genus: Gerrothorax
Nilsson, 1934
Type species
Gerrothorax pulcherrimus
Nilsson, 1934
Life restoration of Gerrothorax pulcherrimus

Gerrothorax was about 1 metre (3.3 ft) long, and had a remarkably flattened body. It probably hid under sand or mud on river and lake bottoms, and in brackish waters,[1] scanning for prey with its large, upward-facing eyes. Gerrothorax had an unusually shaped skull with angular protrusions on the sides. This looked vaguely similar to the skull of the earlier, unrelated, amphibian Diplocaulus, but was not so developed.[2]

Some Gerrothorax fossils preserved hypobranchials and ceratobranchials (bony gill arches) near the neck. This shows that Gerrothorax was pedomorphic, retaining its larval gills as an adult. When originally described in 1946, these bones were considered to correspond to feather-like external gills similar to those of modern-day neotenic salamanders, such as the mudpuppy, the axolotl, and the olm.[3][2]

However, a 2011 paper found that it was more likely that plagiosaurids such as Gerrothorax had internal gills, like those of fish, rather than salamander-like external gills. The authors of that study noted that plagiosaurids and other ancient amphibians which retained gills as adults had grooves on their ceratobranchials. Grooved ceratobranchials are present in both modern and ancient fish, but unknown in modern amphibians. Therefore, they were indicative of internal gills. This would have also been advantageous for survival in large animals, as internal gills would have been protected by a large skin fold and were less likely to have been damaged by the environment.[4]

A 2008 study showed that Gerrothorax lifted its head rather than dropping its jaw when catching prey, which has been compared to how a toilet seat opens.[5] In 2011 the skull of Gerrothorax was scanned using microtomography, revealing that the braincase and palatoquadrate regions are highly ossified.[6] A 2013 study argued that Gerrothorax consumed prey using suction feeding. Gerrothorax had strong muscles capable of both raising the cranium and lowering the jaw rapidly. The robust internal gill apparatus would have expelled water through the gills during this motion, creating intense pressure in the throat that would suck in small prey items. The gill arches were also covered in small denticles, prohibiting any prey from escaping once devoured. Although suction feeding is common in fish and modern larval amphibians, Gerrothorax differs from these animals by its lack of cranial kinesis, meaning that its cranial bones could not flex against each other to envelop prey.[7]

The fossil record of Gerrothorax pulcherrimus extends 35 million years from the Ladinian stage of the Middle Triassic to the Rhaetian stage of the Late Triassic. Throughout this time span, specimens of the species show few morphologic differences, making G. pulcherrimus an extreme example of evolutionary stasis. G. pulcherrimus may have remained unchanged for so long because it could tolerate a wide range of ecological conditions. Although it always needed to live in an aquatic habitat, G. pulcherrimus may have been able to live in a variety of different water bodies with a wide range of salinity.[8]

References

edit
  1. ^ Vertebrate Skeletal Histology and Paleohistology
  2. ^ a b Palmer, D., ed. (1999). The Marshall Illustrated Encyclopedia of Dinosaurs and Prehistoric Animals. London: Marshall Editions. p. 53. ISBN 978-1-84028-152-1.
  3. ^ Nilsson, Tage (13 February 1946). "A new find of Gerrothorax rhaeticus Nilsson, a plagiosaurid from the Rhaetic of Scania" (PDF). Lunds Universitets årsskrift. 42 (10).
  4. ^ Schoch, Rainer R.; Witzmann, Florian (2010-06-18). "Bystrow's Paradox – gills, fossils, and the fish-to-tetrapod transition". Acta Zoologica. 92 (3): 251–265. doi:10.1111/j.1463-6395.2010.00456.x.
  5. ^ Farish A. Jenkins, Jr.; Neil H. Shubin; Stephen M. Gatesy; Anne Warren (2008). "Gerrothorax pulcherrimus from the Upper Triassic Fleming Fjord Formation of East Greenland and a reassessment of head lifting in temnospondyl feeding". Journal of Vertebrate Paleontology. 28 (4): 935–950. doi:10.1671/0272-4634-28.4.935. S2CID 86523094.
  6. ^ F. Witzmann; R. R. Schoch; A. Hilger; N. Kardjilov (2011). "Braincase, palatoquadrate and ear region of the plagiosaurid Gerrothorax pulcherrimus from the Middle Triassic of Germany". Palaeontology. 55 (1): 35–50. doi:10.1111/j.1475-4983.2011.01116.x.
  7. ^ Witzmann, Florian; Schoch, Rainer R. (27 December 2012). "Reconstruction of cranial and hyobranchial muscles in the triassic temnospondyl Gerrothorax provides evidence for akinetic suction feeding". Journal of Morphology. 274 (5): 525–542. doi:10.1002/jmor.20113. ISSN 0362-2525. PMID 23280767. S2CID 25217352.
  8. ^ R. R. Schoch; F. Witzmann (2011). "Cranial morphology of the plagiosaurid Gerrothorax pulcherrimus as an extreme example of evolutionary stasis". Lethaia. 45 (3): 371–385. doi:10.1111/j.1502-3931.2011.00290.x.