Saturday, April 17, 2010

Pickering's taxa 4: Merosaurus newmani

Owen received the partial hindlimbs BMNH 39496 and GSM 109560 in 1858 and used them as the basis for his dinosaur genus Scelidosaurus in an encyclopedia entry the following year. While this is often claimed to be an nomen nudum (e.g. Newman, 1968), genus names published before 1931 do not require species names or illustrations to be valid (ICZN Article 12). Owen later (1861) gave his taxon the species name harrisonii and described it in detail, referring the ungual GSM 109561, a partial postcranium in the Lyme Regis Museum, and the skull of BMNH R1111. Lydekker (1888) made BMNH 39496 the type specimen, though the basal thyreophoran BMNH R1111 (whose postcranium was soon found and described in 1862) formed the basis for peoples' ideas of Scelidosaurus. Newman (1968) believed BMNH 39496 and GSM 109560 to be megalosaurids, and possibly GSM 109561 as well. However, they were only compared to Megalosaurus among theropods, making this familial assignment in need of verification. As the name Scelidosaurus had been associated with the thyreophoran, Charig and Newman (1994) petitioned the ICZN to recognize BMNH R1111 as the lectotype, which was accepted in 1994 as Opinion 1788. Pickering (1995) credited the name Merosaurus newmani to Welles, Powell and Pickering in an unpublished bibliographic manuscript. This is a nomen nudum however, as he didn't follow ICZN Article 8.1.3- it must have been produced in an edition containing simultaneously obtainable copies by a method that assures numerous identical and durable copies. The name may date from the English megalosaur redescription of Welles and Powell from the 1970's which was never published. Olshevsky (DML, 1999) believed "Merosaurus" referred to BMNH 29496, and statements by Pickering on a private newsgroup in 2005 confirmed it is based on this specimen and GSM 109560. He referred to BMNH 39496 as the type, comparing it favorably to Sarcosaurus, Dilophosaurus and Ceratosaurus in morphology. Pickering will presumably describe it in his in progress work Mutanda Dinosaurologica. Carrano and Sampson (2004) stated BMNH 29496 probably belongs to a basal tetanurine without explanation, but viewed it as indeterminate. Naish and Martill (2007) referred all three specimens to Tetanurae without comment. Most recently, Benson (2009, 2010) redescribed BMNH 39496 and GSM 109560. He found BMNH 39496 to be a coelophysoid when entered in his matrix, but noted that non-tetanurines were poorly sampled so this may not mean much. Benson considered it to be Theropoda incertae sedis, and the other two specimens to be indeterminate theropods.


Intended "Merosaurus" holotype BMNH 39496.  Femur in A/B anterior, C medial, D/E posterior, F lateral and L distal views (after Benson, 2010). Tibia in G anterior, H medial, I posterior, J/K lateral and M proximal views (after Benson, 2010). Fibula in O lateral, P posterior and tibia and fibula in N distal views (modified from Owen, 1861). Scale = 100 mm.

“Merosaurus” Welles, Powell and Pickering vide Pickering, 1995
“M. newmani” Welles, Powell and Pickering vide Pickering, 1995
Hettangian-EarlySinemurian, Early Jurassic
Blue Lias Formation, England
Material- (BMNH 39496; holotype of Scelidosaurus harrisonii) distal femur (~640 mm), proximal tibia, proximal fibula (lost)
Diagnosis- (suggested) combination of bulbous fibular crest on tibia and very shallow extensor groove on distal femur.

Comments- BMNH 39496 consists of a distal femur, proximal tibia and a proximal fibula which has been lost subsequent to Newman's description. Both Pickering and Benson proposed the lack of a deep extensor groove as a non-tetanurine character, but this is true in some basal tetanurines (Chuandongocoelurus), megalosauroids (Dubreuillosaurus, Eustreptospondylus, "Brontoraptor") and most coelurosaurs. Contra Pickering, the popliteal notch is concave and the ectocondyle elliptical and posterolaterally directed even in tetanurines like Megalosaurus and Eustreptospondylus. Benson claims the fibular crest which extends to the lateral condyle is a non-tetanurine character, but this is also found in Afrovenator, Megalosaurus and Gasosaurus. One feature of the tibia might suggest this specimen is a tetanurine- the fibular crest is bulbous as in Piatnitzkysaurus, Megalosaurus and Sinraptor. However, including BMNH 39496 in my saurischian supermatrix results in equally parsimonious trees where it is in Coelophysoidea or non-avetheropod Tetanurae. Morphologies in the preserved areas are not consistantly variable between these groups, making further identification difficult. Thus it is here assigned to Avepoda incertae sedis.


Ceratosaur femur GSM 109560 in N/O medial, P/Q anterior, R posterior and S lateral views (after Benson, 2010). Scale = 100 mm.

Ceratosauria indet. (Owen, 1861)
Hettangian-EarlySinemurian, Early Jurassic
Blue Lias Formation, England
Material- (GSM 109560) partial femur (~380 mm), partial tibia (lost)

Comments- GSM 109560 is based on a femur lacking the head and distal end, and a tibial shaft which was not illustrated by Owen and has been lost. Contra Owen and Pickering, there is no reason to refer this to the same taxon as BMNH 39496 as they share only a short area of distal shaft, and the GSM specimen is only ~60% as large. Also contra Pickering, the anterior trochanter is not conical but is lateromedially narrower than anteroposteriorly, making it alariform. The specimen is not a robust coelophysoid or ceratosaur individual based on the absence of a ridge-like trochanteric shelf. It is most similar to Liliensternus, Dilophosaurus, Ceratosaurus and tetanurines in having a straight shaft in anterior view. The anteroposterior width of the anterior trochanter seems less than in tetanurines, but greater than basal coelophysoids. It may be a gracile morph of ceratosaur.

Massopod pedal ungual GSM 109561 in A dorsal, B lateral(?) and C proximal views (after Owen, 1861).

Massopoda indet. (Owen, 1861)
Hettangian-EarlySinemurian, Early Jurassic
Blue Lias Formation, England
Material- (GSM 109561) pedal ungual (74.5 mm)

Comments- The ungual GSM 109561 was not associated with BMNH 39496 or GSM 109560 and was not necessarily assigned to "Merosaurus" by Pickering. Newman stated it was "possibly the terminal phalange of the first digit of a megalosaurian", while Benson believed it to be an indeterminate theropod. However, compared to basal theropod pedal unguals, GSM 109561 is much straighter, stouter, broader and lacks the dorsal overhang on its proximal surface. A closer resemblence is seen to pedal unguals of basal massopods like Blikanasaurus and Jingshanosaurus. It is here provisionally referred to that clade.

References- Owen, 1859. Palaeontology. Encyclopaedia Britannica, Edition 8. 17, 91-176.

Owen, 1861. Monograph of the fossil Reptilia of the Liassic formations. Part I. A monograph of the fossil dinosaur (Scelidosaurus harrisonii Owen) of the Lower Lias. Palaeontolographical Society Monographs. 13, 1-14.

Owen, 1862. Monographs on the British Fossil Reptilia from the Oolitic Formations. Part second, containing Scelidosaurus harrisonii and Pliosaurus grandis. Palaeontolographical Society Monographs. 1-16.

Lydekker, 1888. Catalogue of the Fossil Reptilia and Amphibia in the British Museum (Natural History), Cromwell Road, S.W., Part 1. Containing the Orders Ornithosauria, Crocodilia, Dinosauria, Squamata, Rhynchocephalia, and Proterosauria. British Museum of Natural History, London. 309 pp.

Newman, 1968. The Jurassic dinosaur Scelidosaurus harrisoni Owen. Palaeontology. 11, 40-43.

Charig and Newman, 1992. Scelidosaurus harrisonii Owen, 1861 (Reptilia, Ornithischia): Proposed replacement in inappropriate lectotype. Bulletin of Zoological Nomenclature. 49, 280-283.

ICZN, 1994. Opinion 1788. Scelidosaurus harrisonii Owen, 1861 (Reptilia, Ornithischia): Lectotype replaced. Bulletin of Zoological Nomenclature. 51(3), 288.

Pickering, 1995. Jurassic Park: Unauthorized Jewish Fractals in Philopatry. A Fractal Scaling in Dinosaurology Project, 2nd revised printing. Capitola, California. 478 pp.

Olshevsky, DML 1999. http://dml.cmnh.org/1999Dec/msg00193.html

Carrano and Sampson, 2004. A review of coelophysoids (Dinosauria: Theropoda) from the Early Jurassic of Europe, with comments on the late history of the Coelophysoidea. Neues Jahrbuch fur Geologie und Palaontologie Monatshefte. 2004, 537-558.

Naish and Martill, 2007. Dinosaurs of Great Britain and the role of the Geological Society of London in their discovery: Basal Dinosauria and Saurischia. Journal of the Geological Society. 164, 493-510.

Benson, 2009. The taxonomy, systematics and evolution of the British theropod dinosaur Megalosaurus. PhD thesis. University of Cambridge.

Benson, 2010. The osteology of Magnosaurus nethercombensis (Dinosauria, Theropoda) from the Bajocian (Middle Jurassic) of the United Kingdom and a re-examination of the oldest records of tetanurans. Journal of Systematic Palaeontology. 8(1), 131-146.

Pickering, in prep. Mutanda Dinosaurologica.

6 comments:

  1. Mickey: I mailed to you this past Monday, along with various papers and my annotated Richard Owen bibiography published in 2003, the 11 page Merosaurus newmani paper (published in a run of 50 copies in 1995).

    Based upon the evidence, Sam and I made the hypodigm Ceratosauria incertae sedis.

    The type: GSM 109560, right femur. This is very similar to Sarcosaurus, and is of the same diagnostic patterns as Ceratosaurus and Dilophosaurus in the nearly straight cranial edgte, the concave popliteal notch, and the elliptical, caudolaterally oriented ectocondyle. The anterior trochanter is a blunt cone vs. the diagnostic flat blade of Megalosauridae, and is (as is the 4th trochanter) positioned at the shaft's centre vs. at the lateral edge...and for these characters Merosaurus is a probable ceratosaur. Compared with Sarcosaurus woodi BMNH R4841 (C. Andrews 1921, fig. 2; von Huene 1932A, pl. 2 fig. 3), the head is curved more strongly inward. The anterior trochanter is similarly conical, but lacks the trochanteric shelf. The 4th trochanter is concave medially vs. straight, and nearer the shaft centre.

    We tentatively referred GSM 109561 to the hypodigm, but I shall be altering this in light of your comments.

    The referred specimen (right knee region)BMNH 39496 has a nearly straight cranial edge, a concave popliteal notch, and an elliptical, caudolaterally oriented condyle -- features similar to, although differing in details, Ceratosaurus USNM 4735 (Gilmore 1920B, fig. 64) and Dilophosaurus UCMP 37302 (Welles 1984, fig. 32). The distal end of Sarcosaurus woodi is crushed, making comparisons useless, although as preserved GSM 109560 is more like Sarcosaurus than any known British theropod. As you will note when you see the paper, we have numerous photographs of the hypodigm. You are mistaken, Mickey, in your contention GSM 109560's anterior trochanter is not a blunt cone. Sam's notes, his photographs, are rather clear.
    BMNH 39496's distal femur is 144 mm wide x 114 mm craniocaudall at the entocondyle. This is exactly the restored width of GSM 109560, and, for this reason (among others), Sam Welles believed BMNH 39496 likely the same individual as 109560. Unless you can present photographic evidence and careful cross-examinations of the specimens, which Sam conducted and I published, then the hypodigm stands. Merosaurus newmani remains a valid taxon.
    As you will further note, Merosaurus newmani WAS published by us.

    Compared with Eustreptospondylus OUM J13558, the tuberosity is more strong developed. The proximal condyles project more caudally, and they are divided by a deep popliteal notch. The two are quite different.
    Newman did note the size-related apomorphies of BMNH 39496 to BMNH 31808, part of the hypodigm of Metriacanthosaurus bevis (Owen 1857A, pl. 9 figs. 1-3; B. Newman 1968, pl. 8 figs. 2 & 12), especially in the great development of the tuberosity. The condyles and the proximal ends are similar.
    As I have said, this is dinosaur science at the 'high table', Mickey.
    Kol tuv uv'racha. Stephan
    The Dinosaur Fractals Project

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  2. Assembling hypodigms and describing anatomy doesn't constitute science, Stephan. Especially not science "at the high table."

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  3. Shalom & good morning, Jussumguy. Your statement is illogical and, to be frank, its components are self-imploding. To be polite, re-read what you state, because you do not know what you are talking about.
    Kol tuv uv'racha.
    STEPHAN PICKERING / Chofetz Chayim ben-Avraham
    The Dinosaur Fractals Project

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  4. Science is hypothesis testing. Describing bones isn't hypothesis testing. It's a necessary first step for paleo science, sure, but it most certainly is not science at the "high table."

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  5. Hi Micky, I was wondering if it were possible to test if Sarcosaurus and Merosaurus could be the same thing?

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    1. I'd say there are some important differences- in distal view "Merosaurus" has a concave anterior femoral edge; in proximal view the cnemial crest of "Merosaurus" is shorter and curved more laterally; the fibula of "Merosaurus" has a more posteriorly and anterodorsally expanded proximal end.

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