''Panderichthys'' is a

genus Genus (; : genera ) is a taxonomic rank above species and below family (taxonomy), family as used in the biological classification of extant taxon, living and fossil organisms as well as Virus classification#ICTV classification, viruses. In bino ...

extinct Extinction is the termination of an organism by the death of its Endling, last member. A taxon may become Functional extinction, functionally extinct before the death of its last member if it loses the capacity to Reproduction, reproduce and ...

sarcopterygian Sarcopterygii (; )—sometimes considered synonymous with Crossopterygii ()—is a clade (traditionally a class or subclass) of vertebrate animals which includes a group of bony fish commonly referred to as lobe-finned fish. These vertebrates ar ...

(lobe-finned fish) from the late

Devonian The Devonian ( ) is a period (geology), geologic period and system (stratigraphy), system of the Paleozoic era (geology), era during the Phanerozoic eon (geology), eon, spanning 60.3 million years from the end of the preceding Silurian per ...

period, about 380 Mya. ''Panderichthys'', which was recovered from

Frasnian The Frasnian is one of two faunal stages in the Late Devonian Period. It lasted from million years ago to million years ago. It was preceded by the Givetian Stage and followed by the Famennian Stage. Major reef-building was under way during ...

(early Late Devonian) deposits in

Latvia Latvia, officially the Republic of Latvia, is a country in the Baltic region of Northern Europe. It is one of the three Baltic states, along with Estonia to the north and Lithuania to the south. It borders Russia to the east and Belarus to t ...

, is represented by two species. ''P. stolbovi'' is known only from some snout fragments and an incomplete lower jaw. ''P. rhombolepis'' is known from several more complete specimens. Although it probably belongs to a sister group of the earliest

tetrapod A tetrapod (; from Ancient Greek :wiktionary:τετρα-#Ancient Greek, τετρα- ''(tetra-)'' 'four' and :wiktionary:πούς#Ancient Greek, πούς ''(poús)'' 'foot') is any four-Limb (anatomy), limbed vertebrate animal of the clade Tetr ...

s, ''Panderichthys'' exhibits a range of features transitional between tristichopterid lobe-fin fishes (e.g., ''

Eusthenopteron ''Eusthenopteron'' (from 'stout', and 'wing' or 'fin') is an extinct genus of prehistoric marine lobe-finned fish known from several species that lived during the Late Devonian period, about 385 million years ago. It has attained an iconic ...

'') and early tetrapods. It is named after the German-Baltic paleontologist

Christian Heinrich Pander Heinz Christian Pander, also Christian Heinrich Pander (Russian: Христиан Иванович Пандер; – ) was a Russian biologist and embryologist of Baltic German origin. Biography In 1817 he received his doctorate from the Univ ...

. Possible tetrapod tracks dating back to before the appearance of ''Panderichthys'' in the fossil record were reported in 2010, which suggests that ''Panderichthys'' is not a direct ancestor of tetrapods, but nonetheless shows the traits that evolved during the fish-tetrapod evolution.

Discovery and history

''Panderichthys'' is represented by two different species: ''Panderichthys rhombolepis'' and ''Panderichthys stobolvi''. ''P. rhombolepis'' was discovered by Gross in 1930 and ''P. stobolvi'' was discovered and figured by Emilia Vorobyeva in 1960. ''P. rhombolepis'' was discovered in Lode, Latvia within Frasnian deposits and according to P.E. Ahlberg can definitely be found in other Frasnian deposits in Latvia. Although fossils of ''Panderichthys'' have been known for a long time, they have only recently been examined in full. The first time they were recognized as being phylogenetically closer to tetrapods than fish was by Shultze and Arsenault in 1985.

Description

''Panderichthys'' is a long fish with a large tetrapod-like head that is flattened, narrow at the snout and wide in the back. The intracranial joint, which is characteristic of most lobe-fin fishes, has been lost from the external elements of the skull, but is still present in the braincase. The patterns of external bones in the skull roof and cheeks are more similar to those of early tetrapods than those of other lobe-fins. The transitional qualities of ''Panderichthys'' are also evident in the rest of the body. It lacks the dorsal and anal fins (

fish fin Fins are moving appendages protruding from the body of fish that interact with water to generate thrust and help the fish swim. Apart from the tail or caudal fin, fish fins have no direct connection with the back bone and are supported o ...

) and its tail is more like those of early tetrapods than the caudal fins of other lobe-fins. The shoulders exhibit several tetrapod-like features, while the humerus is longer than those found in other lobe-fins. The vertebral column is ossified throughout its length and the vertebrae are comparable to those of early tetrapods. On the other hand, the distal parts of the front fins are unlike those of tetrapods. As would be expected from a fin, there are numerous

lepidotrichia In a zoological context, spines are hard, needle-like anatomical structures found in both vertebrate and invertebrate species. The spines of most spiny mammals are modified hairs, with a spongy center covered in a thick, hard layer of keratin and ...

(long and thin fin rays). ''Panderichthys'' has many features that can be considered an intermediate form during the fish-tetrapod evolution and displays some features that are more derived than its phylogenetic position indicates, while others that are more basal. The body form of ''Panderichthys'' and ''

Tiktaalik ''Tiktaalik'' (; ) is a monospecific genus of extinct sarcopterygian (lobe-finned fish) from the Late Devonian Period, about 375 Mya (million years ago), having many features akin to those of tetrapods (four-legged animals). ''Tiktaalik'' is est ...

'' represents a major step in the transition from fish to tetrapods and they were even able to haul out on land.Ahlberg, Per Erik, and Jennifer A. Clack. "Palaeontology: a firm step from water to land." Nature 440.7085 (2006): 747-749 According to Shultze and Trueb, ''Panderichthys'' shares ten features with tetrapods:Schultze, Hans-Peter, and

Linda Trueb Linda Trueb is an American professor of herpetology and systematics biology at the University of Kansas and a senior curator emerita at the university's Biodiversity Institute. She also acts as the associate director for the Institute's Administr ...

, eds. Origins of the higher groups of tetrapods: controversy and consensus. Cornell University Press, 1991. * The skull roof is flat compared to fish skulls. * The orbits are more dorsal and lie closer together. * The external naris is close to the margin of the upper jaw. * Frontals are paired. * There is no external intracranial joint. * The parietal bone is located between the orbits and main portion posterior to orbits. * In '' P. rhombolepis'', the squamosal touches the maxilla (varies among specimens though). * The teeth have a complex polyplocodont structure. * A lack of median fins. * In panderichthyids and ''Ichthyostega'', the ribs are attached to the neural arch and there is an intercentrum.

Humerus

One of the key transitional features of ''Panderichthys'' is its

humerus The humerus (; : humeri) is a long bone in the arm that runs from the shoulder to the elbow. It connects the scapula and the two bones of the lower arm, the radius (bone), radius and ulna, and consists of three sections. The humeral upper extrem ...

. During the transition from fish to tetrapods the limbs began to move and became located at a right angle to the body rather than being oriented toward the posterior end. As a result, the muscles became perpendicular to the body and caused the limbs to move in a more anteroposterior and dorsoventral pattern. This in turn affected the shape of the humerus and as a result early tetrapods have an L-shaped humerus. Due to a recent discovery of a humerus of ''Panderichthys'' that was not flattened, the specimen could be analyzed in much greater detail. The humerus of ''Panderichthys'' displays a variety of features including ones that are both primitive and derived. Despite being placed as basal to ''Tiktaalik'', the humerus of ''Panderichthys'' has features that are more derived, but overall is very similar. Both ''Panderichthys'' and ''Tiktaalik'' have humeri that are dorsoventrally flattened with a blade like entepicondyle curving ventrally, separated epipodial facets, a latissimus dorsi process and ectepicondule process that is parallel to the preaxial margin. The humeri of both species are considered transitional forms because they are almost L-shaped, have a low latissimus dorsi process, a low entepicondyle, and an intermediate entepicondylar canal. The humerus of ''Panderichthys'' is more derived than that of ''Tiktaalik'' because of the presence of a more preaxially oriented radial facet as well as a more slender shaft. One feature that is unique to ''Panderichthys'' is that the entepicondyle does not project as far as the epipodial facets and the humeral ridge does not go into the entepicondyle.Boisvert, Catherine A. "The humerus of Panderichthys in three dimensions and its significance in the context of the fish–tetrapod transition." Acta Zoologica90.s1 (2009): 297-305. The result of the analysis of the humerus of ''Panderichthys'' is that the transition of the humerus from the fish-like organisms to tetrapods occurred much slower than previously thought and ''Panderichthys'' now provides a base to determine many autapomorphies. Due to the orientation of the fin towards the posterior end, the attitude of the limb is more horizontal than vertical and the operational space in which it acts is level to the shoulder joint, which causes the muscles to pull at a right angle to the body. This resulted in the ability of ''Panderichthys'' to prop up its large head most likely to breathe.Clack, Jennifer A. "From fins to fingers." Science 304.5667 (2004): 57-58.

Fins and digits

Another key feature of ''Panderichthys'' is its intermediate form during the evolution of digits. In the past it was believed that digits and fingers had no analogous part in sarcopterygian fish and were evolutionary novelties. However, a reexamination of existing ''Panderichthys'' fossils using a CT scanner shows at least four very clearly differentiated distal radial bones at the end of the fin skeletal structure. This study, performed by Boisvert et al. in 2008, examined the pectoral fins of ''Panderichthys'' and found that the fins of ''Panderichthys'' are oriented anteroposteriorly, which is different from the limbs of tetrapods that project at an angle from the body. The humerus,

radius In classical geometry, a radius (: radii or radiuses) of a circle or sphere is any of the line segments from its Centre (geometry), center to its perimeter, and in more modern usage, it is also their length. The radius of a regular polygon is th ...

, and

ulna The ulna or ulnar bone (: ulnae or ulnas) is a long bone in the forearm stretching from the elbow to the wrist. It is on the same side of the forearm as the little finger, running parallel to the Radius (bone), radius, the forearm's other long ...

all are recognizable as analogous to the parts in tetrapods. CT scans allowed the authors to see below the scales and lepidotrichia (fin rays), uncovering the distal fin endoskeleton for the first time. The CT scan displayed an

ulnare The triquetral bone (; also called triquetrum, pyramidal, three-faced, and formerly cuneiform bone) is located in the wrist on the medial side of the proximal row of the carpus between the lunate and pisiform bones. It is on the ulnar side of the ...

, a blocky

carpal The carpal bones are the eight small bones that make up the wrist (carpus) that connects the hand to the forearm. The terms "carpus" and "carpal" are derived from the Latin carpus and the Greek καρπός (karpós), meaning "wrist". In huma ...

(wrist bone) that articulates with the ulna and two terminal radials. The wrist also included a more slender intermedium, articulating in line to the lateral ridge of the ulna. The CT scan additionally uncovered radials that can be interpreted as digits, disputing the hypothesis that digits are entirely new structures in tetrapods. These finger-like bones show neither muscle development nor joints and they are extremely small, but nonetheless show an intermediate form between fully fish-like fins and tetrapods. Similar to the humerus, ''Panderichthys'' also has a more derived feature similar to tetrapods and unlike ''Tiktaalik'': the ulna is significantly longer than the ulnare.

Pelvic girdle

The pelvic girdle (hip) and pelvic fins of ''Panderichthys'' represents an intermediate in the fish-tetrapod evolution. During the fish-tetrapod evolution the pelvic girdle became a weight bearing structure when the ilium, meso-ventral contact of the sides of the girdle, an ilium, and a sacral rib developed. The femur and humerus became longer and the radius/ulna and tibia/fibula became more equal in length. In general, the pelvic girdle in ''Panderichthys'' is more primitive than the pectoral girdle. This is due to the humerus of ''Panderichthys'' being a shape that is more of an intermediate, while the femur is more primitive because of the length ratio to the fibula and that it lacks an adductor blade and crest. This implies that ''Panderichthys'' was not capable of tetrapod-like hindlimb propelled locomotion because of its small pelvic fins, non-weight bearing pelvic girdle, acetebelum oriented posteriorly, and limited knee and elbow flexion.Boisvert, Catherine A. "The pelvic fin and girdle of Panderichthys and the origin of tetrapod locomotion." Nature 438.7071 (2005): 1145-1147. Boisvert describes the locomotion of ''Panderichthys'' as possibly using one of its pectoral fins to anchor itself while side to side undulation propels the body forward.

Skull

The braincase of ''Panderichthys'' demonstrates a key intermediate within the fish-evolution sequence. From the outside, ''Panderichthys'' has a tetrapod-like head, but actually retains an intracranial joint that is a characteristic of fish. ''Panderichthys'' shares many features with the osteolepiform ''Eusthenopteron'' such as similar hyomandibular and basipterygoid processes. Even though its head is shaped similar to that of a tetrapod, tetrapod craniums lack a lateral commissure, jugular groove, basicranial fenestra, arcual plate, and intracranial joint, all of which are present in ''Panderichthys''. What this means is that there was no major change of the braincase construction since the first sarcopterygian, but instead there had been only changes in skull shape. This implies that the evolution of the braincase during the transition from fish-tetrapod was very rapid and seems to display the same timing as the evolution of the pelvic girdle. In general, ''Panderichthys'' demonstrates that the braincase structure evolved much more slowly than the external skull morphology that created the tetrapod-like appearance of the head. As for the lower jaw and dentition, the lower jaw is similar to

Rhipidistia Rhipidistia, also known as Dipnotetrapodomorpha, is a clade of lobe-finned fishes which includes the tetrapods and lungfishes. Rhipidistia formerly referred to a subgroup of Sarcopterygii consisting of the Porolepiformes and Osteolepiformes, a de ...

ns and is composed of a tooth-bearing dentary, four intradentaries, a lingual prearticular, three coronoids, and an adsymphsial plate dorsally. In addition, the teeth are of polyplocodont structure.

Paleobiology

Respiration

As an intermediate in the fish-tetrapod evolution, ''Panderichthys'' had the capacity to breathe air. The trend from the early sarcopterygians to the first tetrapods was an increase in the size of the spiracular chamber and its opening to the outside. Compared to ''Eusthenopteron'', the spiracular chamber of ''Panderichthys'' is greatly expanded and the hyomandibula is shorter compared to those in fish. The opercular series was also shorter compared to other osteolepiforms. ''Panderichthys'' also has a single external nasal opening and a palatal choana. In contrast to earlier osteolepiforms, the palatal choana is elongated and the nariochoanal lamina is narrow. Along with the spiracular chamber, this feature in ''Panderichthys'' can be considered transitional during the evolution from fish to tetrapods. Sarcopterygians such as ''Panderichthys'' can be considered at least facultative air breathers and demonstrate an intermediate form as air breathing was becoming more abundant. During the Frasnian in which ''Panderichthys'' was extant, there was a drop in oxygen in the atmosphere as well as an increase in the abundance of plants. Due to the fact that oxygen is much less soluble in water than air, the decreased oxygen in the atmosphere would have caused the oxygen concentrations in any type of water to decrease substantially. This in turn would have caused any aquatic animal that could breathe air to have an advantage and be more likely to thrive. In addition to its ability to move in shallow water, ''Panderichthys'' could also breathe air. Its strong pectoral fins in theory could allow it to prop up its head in shallow water and take a breath. The enlargement of the spiracular chamber itself as well as its opening to the outside suggests that ''Panderichthys'' was part of a transition to an increased capacity for air breathing that was completed in tetrapods.

Classification

Zachelmie tracks vs selected Devonian fossils

Panderichthys is a member of a group of tetrapod-like fish known as Panderichthyida or

Elpistostegalia Elpistostegalia is a clade containing ''Panderichthys'' and all more derived Tetrapodomorpha, tetrapodomorph taxa. The earliest elpistostegalians, combining fishlike and tetrapod-like characters, such as ''Tiktaalik'', are sometimes called fisha ...

. Other well-preserved elpistostegalians include '' Elpistostege'' (from Quebec) and ''

'' (from Arctic Canada). Episostegalians in the narrow sense may be a

grade Grade most commonly refers to: * Grading in education, a measurement of a student's performance by educational assessment (e.g. A, pass, etc.) * A designation for students, classes and curricula indicating the number of the year a student has reach ...

paraphyletic Paraphyly is a taxonomic term describing a grouping that consists of the grouping's last common ancestor and some but not all of its descendant lineages. The grouping is said to be paraphyletic ''with respect to'' the excluded subgroups. In co ...

group defined by ancestral anatomical conditions) or a

clade In biology, a clade (), also known as a Monophyly, monophyletic group or natural group, is a group of organisms that is composed of a common ancestor and all of its descendants. Clades are the fundamental unit of cladistics, a modern approach t ...

monophyletic In biological cladistics for the classification of organisms, monophyly is the condition of a taxonomic grouping being a clade – that is, a grouping of organisms which meets these criteria: # the grouping contains its own most recent co ...

group defined by exclusive shared ancestry). More recent studies tend to redefine Elpistostegalia in an expanded format, as a clade starting at ''Panderichthys'' and encompassing everything as far as living tetrapods (the tetrapod

crown group In phylogenetics, the crown group or crown assemblage is a collection of species composed of the living representatives of the collection, the most recent common ancestor of the collection, and all descendants of the most recent common ancestor ...

). In January 2010, ''Nature'' reported well-preserved and "securely dated" tetrapod tracks from Polish marine tidal flat sediments approximately 397 million years old.Niedzwiedzki, G., Szrek, P., Narkiewicz, K., Narkiewicz, M and Ahlberg, P., ''Nature'' 463(7227):43–48, 2010
''Tetrapod trackways from the early Middle Devonian period of Poland''
7 January 2010. These fossil tracks suggest that a group of two meter long tetrapods lived in the fully marine intertidal or lagoonal areas on the south coast of Laurussia during the time elpistostegalians were living. This implies that ''Panderichthys'' (and relatives like ''Elpistostege'' and ''Tiktaalik'') were not direct ancestors to tetrapods, and represents their own adaptive morphology. Under this interpretation, ''Panderichthys'' can only be a "late-surviving relic", showing traits that convergently evolved during the transition from fish-like creatures to tetrapods, but whose date does not reflect that transition. The tracks "force a radical reassessment of the timing, ecology and environmental setting of the fish–tetrapod transition, as well as the completeness of the body fossil record."

Palaeoecology

Paleoenvironment

''Panderichthys'' was alive during the late Devonian (

) in Lode, Latvia. Lode is known to be a marginal marine environment and it has been hypothesized that ''Panderichthys'' was adapted for movement in shallow and debris filled waters.Clack, Jennifer A. "Devonian climate change, breathing, and the origin of the tetrapod stem group." Integrative and Comparative Biology 47.4 (2007): 510-523. ''Panderichthys'' was collected in deposits that were formerly believed to be from a calm freshwater basin, but have proven to be from shallow tidal flats or an estuary. The Lode Formation, where ''P. rhombolepis'' was found, occurs within a 200-meter thick layer composed of fine grained sandstone and clay along with finely dispersed clays. Nearly every major taxa of late Devonian vertebrates are represented within the Lode Formation. Most of the specimens are well preserved due to anaerobic substrate conditions as well as rapid burial in depressions on the submarine delta slopes. ''P. rhombolepis'' was discovered in the Gauja Regional formation within the lower Frasnian section. Taphocoenosis was characterized as in finely displaced clay and silty clay as well as low water activity.

Diet

Within this environment it has been hypothesized that ''P. rhombolepis'' was a large predator and fed upon dipterids, small and juvenile sarcopterygians, and ''Latvius''. Associated vertebrates found in the same deposits include an armored jawless fish ('' Psammolepis''), two placoderms ('' Asterolepis'' and '' Plourdosteus''), an unidentified acanthodid acanthodian, a porolepiform lobe-fin ('' Laccognathus''), a lungfish (''

Dipterus ''Dipterus'' (from , 'two' and 'wing') is an extinct genus of marine lungfish from the middle Devonian The Devonian ( ) is a period (geology), geologic period and system (stratigraphy), system of the Paleozoic era (geology), era during t ...

''), and another elpistostegalian ('' Livoniana''). Heterostracan (armored jawless fish) specimens showing bite marks are found at every formation which produces ''Panderichthys'' fossils. ''Panderichthys'' is an outlier in size and bite mark co-occurrence compared to many other jawed vertebrates, so it may have been a major predator of heterostracans.

References

External links

Pharyngula
{{Taxonbar, from=Q132313 Elpistostegalia Prehistoric lobe-finned fish genera Late Devonian sarcopterygians Devonian sarcopterygians of Europe Transitional fossils Fossil taxa described in 1941