Branchiosauridae is an extinct family of small
amphibamiform
Amphibamiformes is an unranked clade with Dissorophoidea created by Schoch (2018). It encompasses all of the taxa traditionally considered to be "Amphibamidae, amphibamids" (subsequently restricted to ''Doleserpeton, Doleserpeton annectens'' and ...
temnospondyl
Temnospondyli (from Greek language, Greek τέμνειν, ''temnein'' 'to cut' and σπόνδυλος, ''spondylos'' 'vertebra') is a diverse order (biology), order of small to giant tetrapods—often considered Labyrinthodontia, primitive amphi ...
s with external gills and an overall juvenile appearance. The family has been characterized by hundreds of well-preserved specimens from the
Permo-Carboniferous of Middle Europe.
[Schoch, R.R. 2008. The intrarelationships and evolutionary history of the temnospondyl family branchiosauridae. Journal of Systematic Palaeontology. 6(4):409-431.] Specimens represent well defined
ontogenetic
Ontogeny (also ontogenesis) is the origination and development of an organism (both physical and psychological, e.g., moral development), usually from the time of fertilization of the egg to adult. The term can also be used to refer to the st ...
stages and thus the taxon has been described to display paedomorphy (perennibranchiate). However, more recent work has revealed branchiosaurid taxa that display metamorphosing trajectories.
[Schoch, R.R. and Frobisch, N.B. 2006. Alternative Pathways in an Extinct Amphibian Clade. Evolution. 60(7):1467-1475] The name Branchiosauridae (“Branchio” in Ancient Greek denoting gills and “saurus” meaning lizard) refers to the retention of gills.
Geological/paleoenvironmental information
Branchiosaurids mostly inhabited Permo-Carboniferous freshwater mountain-lake habitats of Middle Europe at an altitude of up to 2000 meters.
Large quantities of specimens have been collected from the grey shales and limestones of
Rotliegend localities of the
Variscan
The Variscan or Hercynian orogeny was a geologic mountain-building event caused by Late Paleozoic continental collision between Euramerica (Laurussia) and Gondwana to form the supercontinent of Pangaea.
Nomenclature
The name ''Variscan'', comes f ...
orogen. The branchiosaurid fossil record is exceptional due to
Lagerstatten conditions of these localities and the preservation of specimens representing various ontogenetic stages.
[Frobisch, N.B. and Schoch, R.R. 2009. The largest specimen of Apateon and the life history pathway of neoteny in the ]Paleozoic
The Paleozoic (or Palaeozoic) Era is the earliest of three geologic eras of the Phanerozoic Eon.
The name ''Paleozoic'' ( ;) was coined by the British geologist Adam Sedgwick in 1838
by combining the Greek words ''palaiós'' (, "old") and ' ...
temnospondyl family Branchiosauridae. Fossil Record.12(1):83-90. In the Late Carboniferous and Early Permian, western Europe was subjected to annual and long-lasting changes between dry and monsoon periods which produced highly variable lake environments and thus rapid diversification and speciation of amphibian populations.
[Ronchi, A. and Schneider, J.W. 2007. The Early Permian Branchiosaurids (Amphibia) of Sardinia (Italy): systematic palaeontology, palaeoecology, biostratigraphy and palaeobiogeographic Problems. Palaeo geography, Palaeoclimatology, Palaeoecology. 252:383-404] Smaller, shallow lakes especially would have experienced unstable environments due to these changing weather conditions whereas large and deep lakes, which yield most of the Branchiosaurid, specimens would have been more buffered.
A fine
lamination of C(org)-rich grey to black shales indicates a belt of lakes of tropical to subtropical climate and the existence of variable levels of oxygen for aquatic life in the Late Paleozoic. Permo-Carboniferous mass-mortality events are observed in several basins of Germany possibly caused by episodic mixing of the water column resulting in oxygen deficiency.
Although the absolute ages of certain Rotliegend
strata
In geology and related fields, a stratum ( : strata) is a layer of rock or sediment characterized by certain lithologic properties or attributes that distinguish it from adjacent layers from which it is separated by visible surfaces known as ei ...
have yet to be elucidated the stratigraphically oldest branchiosaurid belonging to the genus ''Branchiosaurus'' occurs in Westphalian D. The earliest occurrence of ''Melanerpeton''-clade is the Stephanian C and the first occurrence of the genus ''Apateon'' in Upper Carboniferus. The stratigraphic range of named members of Branchiosauridae extends to the
Sakmarian (Early Permian).
A partial skeleton is known from the
Wordian aged
Kaş Formation
Kaş (; el, Αντίφελλος, translit=Antífellos, translit-std=ISO) is a small fishing, diving, yachting and tourist town, and a district of Antalya Province of Turkey, 168 km west of the city of Antalya. As a tourist resort, it is re ...
of Southeastern Turkey, making it the only fossil of the group known from the
Guadalupian
The Guadalupian is the second and middle series/epoch of the Permian. The Guadalupian was preceded by the Cisuralian and followed by the Lopingian. It is named after the Guadalupe Mountains of New Mexico and Texas, and dates between 272.95 ± 0. ...
.
Branchiosaurid
gene flow
In population genetics, gene flow (also known as gene migration or geneflow and allele flow) is the transfer of genetic material from one population to another. If the rate of gene flow is high enough, then two populations will have equivalent a ...
enhanced by periods of wet climate led to successful colonization of roughly 15 basins (known so far). It has been hypothesized that Branchiosaurids originated in the Central Bohemian basin of Czech Republic (WestphalianD), from which they migrated to basins of the Massif Central in France (Stephanian B) and subsequently to several Central German basins including Thuringian Forest, Ilfeld and Saale (Stephanian C).
Historical information/discovery
Branchiosaurids were recognized as a distinct group and given the family name by Fritsch (1879). In 1939 Romer hypothesized that branchiosaurids were, instead,
larval
A larva (; plural larvae ) is a distinct juvenile form many animals undergo before metamorphosis into adults. Animals with indirect development such as insects, amphibians, or cnidarians typically have a larval phase of their life cycle.
The l ...
morphotypes of larger
temnospondyl
Temnospondyli (from Greek language, Greek τέμνειν, ''temnein'' 'to cut' and σπόνδυλος, ''spondylos'' 'vertebra') is a diverse order (biology), order of small to giant tetrapods—often considered Labyrinthodontia, primitive amphi ...
amphibians. However, Boy (1972) rejected this hypothesis by recognizing autapomorphic larval features of branchiosaurids distinguishing them from other temnospondyls. Boy argued for the neotenic state of Branchiosauridae and distinguished Micromelerpeton, another
paedomorphic dissorophoid group, as distinct from Branchiosauridae. He concluded that branchiosaurids form a monophyletic clade closely related to other dissorophoids. Branchiosaurids have since been suggested as close, if not immediate, lissamphibian (extant amphibian) relatives.
Classification
Branchiosaurids form a clade within dissorophoid temnospondyls (one of the hypothesized origins of Lissamphibia). Dissorophoidea encompasses Micromelerpetidae and Xerodromes (all other taxa). Xerodromes includes the Olsoniformes and salamander-like Amphibamiformes. The latter includes four clades: Micropholidae, Amphibamidae, Branchiosauridae and Lissamphibia.
[R.R. Schoch. 2019. The putative lissamphibian stem-group: phylogeny and evolution of the dissorophoid temnospondyls. Journal of Paleontology 93(1):137-156] The amphibamids ''Amphibamus'' and ''Platyrhinops'' are the closest relatives of branchiosaurids and despite sharing homoplasies with amphibamids, Branchiosauridae forms a
monophyletic group.
Family description
The
synapomorphies
In phylogenetics, an apomorphy (or derived trait) is a novel character or character state that has evolved from its ancestral form (or plesiomorphy). A synapomorphy is an apomorphy shared by two or more taxa and is therefore hypothesized to have ...
of Branchiosauridae include a palatine with a prominent process which extends from the center of the bone to contact the maxilla; six rows of isolated, slender and multi-ended branchials; 21-22 presacral vertebrae (reversed in some forms).
One skeleton of the branchiosaurid ''Melanerpton tenerum'' has been discovered with preserved skin pattern. The preservation shows a regular pattern of bright spots blurred by dark pigments on the dorsal skin. This is the first record of this mosaic-type pattern in an extinct amphibian.
[Werneburg, R. 2007. Timeless Design: colored pattern of skin in early Permian branchiosaurids (temnospondyli:Dissorophoidea). Journal of Vertebrate Paleontology. 27(4):1047-1050]
Genera descriptions
The family Branchiosauridae includes the genera ''Branchiosaurus'', ''Apateon'', ''Melanerpeton'', ''Leptorophus'' and ''Schoenfelderpeton''.
The stratigraphically oldest genus is ''Branchiosaurus'', with its only well-known species being ''B. salamandroides'', and forms the most basal node of Branchiosauridae. The post-''Branchiosaurus'' branchiosaurids fall into either the ''Melanerpeton''-clade or the ''Apateon'' clade. Within the morphogenically more diverse ''Melanerpeton''-clade, the genera ''Schoenfelderpeton'' and ''Leptorophus'' are sister groups. Within the ''Apateon''-clade, ''A. kontheri'' forms the basal-most taxon followed by ''A. gracilis'', ''A. pedestris'', ''A. dracyiensis'' and the sister-taxa ''A. caducus'' and ''A. flagrifer''.
The genus ''Branchiosaurus'' is
plesiomorphic
In phylogenetics, a plesiomorphy ("near form") and symplesiomorphy are synonyms for an ancestral character shared by all members of a clade, which does not distinguish the clade from other clades.
Plesiomorphy, symplesiomorphy, apomorphy, and ...
with no autapomorphies. ''Branchiosaurus'' retains the prefrontal-postfrontal contact, the anteriorly extended jugal and ventral osteoderms. In the post-''Branchiosaurus'' clade the prefrontal-postfrontal contact is lost (although reversed in ''A. dracyiensis''), the maxilla sutures with quadratojugal in late development, the jugal is anteriorly shortened and ventral ossified osteoderms are lost. The diagnostic features of the genus ''Apateon'' are tabular horns separated from the skull table by a groove; tooth-bearing region of
maxilla
The maxilla (plural: ''maxillae'' ) in vertebrates is the upper fixed (not fixed in Neopterygii) bone of the jaw formed from the fusion of two maxillary bones. In humans, the upper jaw includes the hard palate in the front of the mouth. The t ...
is broad and the dorsal osteoderms are smooth or with radiating striations. The diagnostic features of the ''Melanerpeton'' group are the palatine, the
ectopterygoid and palatine ramus of pterygoid are extremely delicate, poorly ossified and have few or no
denticle
A denticle is any small tooth-like or bristle-like structure. "Denticle" may refer to:
* Denticle (tooth feature), serrations on the teeth of dinosaurs, lizards, sharks, and mammals
* Dermal denticles or placoid scales, in cartilaginous fishes
* ...
s. The ''Melanerpeton'' genus has no autapomorphies and is paraphyletic with respect to the ''Leptorophus''-''Schoenfelderpeton'' group. The ''Leptorophus''-''Schoenfelderpeton'' group is characterized by a postorbital separated from supratemporal, a carotid foramina and grooves situated on sides of the cultriform process. The diagnostic features of the genus ''Leptorophus'' are a long triangular skull, anterior parts of nasal and vomer elongated, a very close prefrontal and postfrontal, elongated narial openings, a maxilla extended posteriorly, quadrate condyles posterior to occipital condyles, and a vomer with long posteromedial process. The autopamorphic features of the genus ''Schoenfelderpeton'' are an overall broad skull with an enlarged
otic notch
Otic notches are invaginations in the posterior margin of the skull roof, one behind each orbit. Otic notches are one of the features lost in the evolution of amniotes from their tetrapod ancestors.
The notches have been interpreted as part of an ...
, a wider posterior skull table, supratemporal anteriorly pointed, possible subdivided postfrontal, very short humerus, represented only by midshaft ossification. These diagnostics of ''Schoenfelderpeton'' indicated it is the most neotenic of the branchiosaurids.
There are several potential branchiosaurids that are as of yet too inadequately characterized to classify. However, in recent work one such species, ''Tungussogyriinus bergi'' has been further analyzed and shown to share clear synapomorphies with branchiosaurids including the Y-shaped palatine resulting in a gap between ectopterygoid and maxilla as well as brush-like branchial denticles. ''T. bergi'' differs from all other branchiosaurids in two autapomorphies: elongated process of
ilium and tricuspid dentition. Thus, ''Tungussgyrinus'' is thought to represent a clade that is the closest relative to all other branchiosaurids and two new subfamilies, Tungussogyrininae and Branchiosaurinae fall under Branchiosauridae.
[Werneburg, R. 2009. The Permotriassic branchiosaurid Tungussogyrinus Efremov, 1939 (Temnospondyli, Dissorophoidea) from Siberia restudied. Fossil Record. 12(2):105-120]
Paleobiology
The specialized pharyngeal denticles with brush-like branches of Branchiosauridae are indicative of gill clefts and suggest a filter-feeding mechanism focusing on plankton.
In well preserved specimens of ''Branchiosaurus'', six rows of tooth-bearing ossicles are present on each side of the hyobranchial skeleton in a 1-2-2-1 configuration. This is consistent with the denticles being attached to the epithelium surrounding four cartilaginous ceratobranchials bordering three external gill-slits.
[Milner, A.R. 1982. Small Temnospondyl Amphibians From the Middle Pennsylvanian of Illinois. Paleontology 25(3):635-664] The jaw-like apparatus may have served to hold back prey items leaving the pharyngeal cavity with the water current or to form a tight closure of gill cleft during feeding.
Branchiosauridae diversified partly through adaptations that included the
co-evolution of delayed development of the upper jaw and cheek which resulted in a kinetic maxilla and allowed for more efficient suction feeding. This mechanism would have been adaptive for suspension feeding and feeding on single prey. In the ''Apateon''-clade different morphotypes evolved due to heterochronic changes.
In some species (''A. caducus'' and ''A. flagrifer''), the maxilla consolidated early in development and the gape size and irregular dentition indicate an early transition in diet from suspension to carnivory. In other species (''A. dracyiensis'') the maxilla was never consolidated indicating a reinforced suction mechanism. Diagnostics of the ''Melanerpeton''-clade indicate a combination of filter-feeding and occasional capture of larger prey.
Although the ''Melanerpeton''-''Apateon'' dichotomy is not correlated with any significant
adaptations, the ''Melanerpeton''-clade generally had a larger body size which likely allowed them to occupy new niches in lake ecosystems. Most ''Apateon'' species did not appear to have competitors and thus were successful invaders.
Ontogeny
Both
neoteny
Neoteny (), also called juvenilization,Montagu, A. (1989). Growing Young. Bergin & Garvey: CT. is the delaying or slowing of the physiological, or somatic, development of an organism, typically an animal. Neoteny is found in modern humans compared ...
(retention of larval somatic features into adulthood) and
metamorphosis
Metamorphosis is a biological process by which an animal physically develops including birth or hatching, involving a conspicuous and relatively abrupt change in the animal's body structure through cell growth and differentiation. Some inse ...
have been reported ontogenic pathways in branchiosaurids. Certain
terrestrial branchiosaurid adaptations, such as the short trunk and long limbs, suggest that it was an initially terrestrial clade and thus reversals to aquatic life and metamorphosing trajectories occurred within the clade.
The metamorphosis trajectory into terrestrial adults has been reported only in ''A. gracilis''.
Changes that distinguish the adult ''A. gracilis'' from its larval counterpart occurred during a rapid phase of development and include ossification of the braincase, palatoquadrate, intercentra and girdles, muscle attachment scars, and polygonal ridges and grooves decorating the dermal skull roof. The larval somatic features including ossified branchial denticles and larval-type sculpturing of the skull roof are lost.
Postcranial features of transformed ''A. gracilis'' indicate that it was terrestrial and biting force had become a more important factor than suction. Despite this instance of metamorphosis, neoteny is nearly ubiquitous throughout branchiosaurids and most species remained in an aquatic environment throughout their life (however we should not rule out the possibility that this is a relic of terrestrial metamorphosed specimens not being well preserved).
Neoteny is one of the major modes of heterochrony in which there is a modification in the timing or rate of development of certain features that is inherited. Neotenic branchiosaurids experienced isometric growth of cranial bones while retaining juvenile features noted above. Adult branchiosaurid neotenes are distinguished from larval neotenes by accentuated larval-type skull roof ornamentation, increased ossification (although not as extensively as in metamorphosed specimens), and development of uncinate process on the anterior trunk ribs. Such phenotypic plasticity in the form of facultative neoteny has been reported in modern lissamphibians and has been suggested to also be highly advantageous in the high altitude habitats of branchiosaurids where the harsh, continually changing conditions would have made aquatic life favorable.
[Schoch, R.R. 2004. Skeleton Formation in the Branchiosauridae: A Case Study in Comparing Ontogenetic Trajectories. Journal of Vertebrate Paleontology 24(2):309-319]
Histology
Histological observations confirm anatomical evidence of neoteny in branchiosaurids. Skeletochronological analysis allows for the identification of sexual maturity (i.e. when the distance between lines of arrested growth (LAGs) suddenly decreases). In ''Apateon'' specimens determined to be sexually mature, the cartilaginous Katschenko's line can be observed when perichondral ossification is complete. The diaphyseal and epiphyseal ossification patterns of ''Apateon'' specimens (i.e. persistence of histological larval features into adulthood) are suggestive of paedomorphy and similar to those of urodeles (extant neotenic amphibians).
[Sanchez, S. et al. 2010. Developmental plasticity of limb bone microstructureal organization in Apateon: histological evidence of paedomorphic conditions in branchiosaurs. Evolution & Development. 12(3): 315-328]
References
{{Taxonbar, from=Q897687
Prehistoric amphibian families
Carboniferous temnospondyls of Europe
Permian temnospondyls of Europe
Triassic temnospondyls of Europe
Pennsylvanian first appearances
Early Triassic extinctions
Fossils of Germany
Fossils of France
Taxa named by Antonin Fritsch