Tinirau clackae

Tinirau clackae
Temporal range: Middle Devonian, 387 Ma
Holotype fossil and interpretive drawing of Tinirau clackae
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Sarcopterygii
Clade: Tetrapodomorpha
Clade: Eotetrapodiformes
Genus: Tinirau
Swartz, 2012
Species:
T. clackae
Binomial name
Tinirau clackae
Swartz, 2012
Synonyms

Bruehnopteron murphyi Schultze & Reed (2012)?

Tinirau is an extinct genus of sarcopterygian fish from the Middle Devonian of Nevada. Although it spent its entire life in the ocean, Tinirau is a stem tetrapod close to the ancestry of land-living vertebrates in the crown group Tetrapoda. Relative to more well-known stem tetrapods, Tinirau is more closely related to Tetrapoda than is Eusthenopteron, but farther from Tetrapoda than is Panderichthys. The type and only species of Tinirau is T. clackae, named in 2012.

Description

3D reconstruction of T. clackae

Tinirau was a fairly large, predatory fish about a meter long and with a deep, compact body. The head was large, with large terminal mout and numerous teeth. The tail was heterocercal. The remaining fins with the exception of the pectoral fins were situated behind the middle of the body similar to the situation seen in pikes, giving the animal a large tail surface suitable for great bursts of speed.

It shares many advanced features with later tetrapodomorphs in the pelvic limb bones and glenoids (shoulder sockets). By the time Tinirau appeared, many stem tetrapods had already developed the three major hindlimb bones of tetrapods: the femur, tibia, and fibula. While derived stem tetrapods like Panderichthys had hindlimb configurations very similar to the first land-living tetrapods, some early forms such as Eusthenopteron possessed a prominent postaxial process of the fibula hanging over the fibulare bone below it. Tinirau is the earliest known stem tetrapod to have a significantly reduced postaxial process, and a fibula more like those of later tetrapods.

Like those of the Late Devonian Panderichthys and Ichthyostega, the glenoid of Tinirau is elongated along the anteroposterior (forward-backward) axis of the body. The lengthening of the glenoid corresponds with a flattening of the proximal end of the humerus, a feature common in the forelimbs of more advanced stem tetrapods. Although the pectoral limb bones and girdle were not strong enough to support the weight of Tinirau out of water, glenoid lengthening and other changes to the proximal forelimb were among the first steps in the transformation from pectoral fin to forelimb.

History

Remains of Tinirau were first discovered by paleontologist Joseph T. Gregory in 1970, who then worked for the University of California Berkeley. Gregory and his field team found these fossils near the Simpson Park Mountains in Eureka County, Nevada. They came from a deposit called the Red Hill I beds, which date to the upper Givetian stage of the Middle Devonian. The Red Hill I beds include a series of limestone and mudstone, likely deposited in an outer continental shelf marine environment. Six fossils are known, all preserving bones of the skull. Two fossils preserve postcranial bones in articulation. The holotype specimen, UCMP 118605, is a mostly complete skeleton.

Tinirau clackae was named by paleontologist Brian Swartz in 2012 after Tinirau, who in Polynesian legend is the guardian of ocean life, and whose form is half human and half fish. The connection alludes to the features in Tinirau that are transitional between fish, representing life in the water, and tetrapods, representing life on land. The specific name honors Jennifer A. Clack, an English paleontologist who has made many contributions to the study of stem tetrapods.

Phylogeny

In phylogenetic terms, Tinirau is positioned more crownward, or closer to Tetrapoda, than other stem tetrapods like megalichthyiforms and tristichopterids. In its first description, the phylogenetic analysis of Swartz placed Tinirau as a branch directly connected to the stem of Tetrapoda. In other words, it is a close relative of the lineage leading to land vertebrates (a prehistoric taxon can rarely be identified as an ancestor of another taxon, but is instead considered a side branch in a larger lineage). Eusthenopteron, traditionally considered a direct ancestor of tetrapods, or a close relative of such an ancestor, was placed deep within the family Tristichopteridae, away from the tetrapod stem. Below is a cladogram modified from Swartz (2012) showing the placement of Tinirau:

Tetrapodomorpha 

Kenichthys

Rhizodontidae

Canowindridae

Marsdenichthys

Canowindra

Koharalepis

Beelarongia

Megalichthyiformes

Gogonasus

Gyroptychius

Osteolepis

Medoevia

Megalichthyidae

Eotetrapodiformes
Tristichopteridae

Spodichthys

Tristichopterus

Eusthenopteron

Jarvikina

Cabonnichthys

Mandageria

Eusthenodon

Tinirau

Platycephalichthys

Elpistostegalia

Panderichthys

Tiktaalik

Elpistostege

Elginerpeton

Ventastega

Acanthostega

Ichthyostega

Whatcheeriidae

Colosteidae

Crassigyrinus

Baphetidae

Tetrapoda

Total-group Lissamphibia

Embolomeri

Other stem amniotes

On the other hand, Parfitt et al. (2014) considered it more likely that Tinirau was a member of the family Tristichopteridae.


This page was last updated at 2024-03-19 20:29 UTC. Update now. View original page.

All our content comes from Wikipedia and under the Creative Commons Attribution-ShareAlike License.


Top

If mathematical, chemical, physical and other formulas are not displayed correctly on this page, please useFirefox or Safari