Cranial kinesis is the term for significant movement of skull bones relative to each other in addition to movement at the joint between the upper and lower jaw. It is usually taken to mean relative movement between the upper jaw and the braincase. Most vertebrates have some form of kinetic skull. Cranial kinesis, or lack thereof, is usually linked to feeding. Animals which must exert powerful bite forces, such as crocodiles, often have rigid skulls with little or no kinesis, for maximum strength. Animals which swallow large prey whole ( snakes), which grip awkwardly shaped food items ( parrots eating nuts), or, most often, which feed in the water via suction feeding often have very kinetic skulls, frequently with numerous mobile joints. In the case of mammals, which have akinetic skulls (except for perhaps hares), the lack of kinesis is most likely to be related to the secondary palate, which prevents relative movement. This in turn is a consequence of the need to be able to create a suction during suckling. Ancestry also plays a role in limiting or enabling cranial kinesis. Significant cranial kinesis is rare in

mammal Mammals () are a group of vertebrate animals constituting the class Mammalia (), characterized by the presence of mammary glands which in females produce milk for feeding (nursing) their young, a neocortex (a region of the brain), fur or ...

s (the human skull shows no cranial kinesis at all). Birds have varying degrees of cranial kinesis, with parrots exhibiting the greatest degree. Among

reptile Reptiles, as most commonly defined are the animals in the class Reptilia ( ), a paraphyletic grouping comprising all sauropsids except birds. Living reptiles comprise turtles, crocodilians, squamates (lizards and snakes) and rhynchocephalians ( ...

crocodilian Crocodilia (or Crocodylia, both ) is an order of mostly large, predatory, semiaquatic reptiles, known as crocodilians. They first appeared 95 million years ago in the Late Cretaceous period ( Cenomanian stage) and are the closest living ...

s and turtles lack cranial kinesis, while lizards possess some, often minor, degree of kinesis and snakes possessing the most exceptional cranial kinesis of any tetrapod. In amphibians, cranial kinesis varies, but has yet to be observed in frogs and is rare in salamanders. Almost all fish have highly kinetic skulls, and

teleost fish Teleostei (; Greek ''teleios'' "complete" + ''osteon'' "bone"), members of which are known as teleosts ), is, by far, the largest infraclass in the class Actinopterygii, the ray-finned fishes, containing 96% of all extant species of fish. Tel ...

have developed the most kinetic skulls of any living organism. Joints are often simple syndesmosis joints, but in some organisms, some joints may be synovial, permitting a greater range of movement.

Types of kinesis

Versluys (1910, 1912, 1936) classified types of cranial kinesis based on the location of the joint in the dorsal part of the skull. * Metakinesis is jointing between the dermatocranium and occipital segment * Mesokinesis is jointing more rostral in the skull. Hofer (1949) further partitioned mesokinesis into * Mesokinesis proper, which occurs within the braincase (the frontoparietal joint), e.g., many lizards * Prokinesis, which occurs between the braincase and facial skeleton (the nasofrontal joint, or within the nasals), e.g. birds. Streptostyly is the fore-aft movement of the

quadrate Quadrate may refer to: * Quadrate bone * Quadrate (heraldry) * Quadrate lobe of liver * Quadrate tubercle The quadrate tubercle is a small tubercle found upon the upper part of the femur. It serves as a point of insertion of the quadratus femori ...

about the

otic joint Otic means pertaining to the ear. It can refer to: * Otic ganglion, nerve cells in ear * Otic polyp, benign growth in middle ear * Otic capsule, another name for bony labyrinth * Otic drops, another name for ear drops * Otic notch, notch in skull ...

(quadratosquamosal joint), although transverse movements may also be possible. Many hypothesized types of kinesis require basal joint kinesis (neurokinesis of Iordansky, 1990), that is, movement between the

braincase In human anatomy, the neurocranium, also known as the braincase, brainpan, or brain-pan is the upper and back part of the skull, which forms a protective case around the brain. In the human skull, the neurocranium includes the calvaria or skul ...

and palate at the basipterygoid joint.

Fish

The first example of cranial kinesis was in the chondrichthyans, such as sharks. There is no attachment between the

hyomandibular The hyomandibula, commonly referred to as hyomandibular one( la, os hyomandibulare, from el, hyoeides, "upsilon-shaped" (υ), and Latin: mandibula, "jawbone") is a set of bones that is found in the hyoid region in most fishes. It usually plays ...

and the quadrate, and instead the

hyoid arch The pharyngeal arches, also known as visceral arches'','' are structures seen in the embryonic development of vertebrates that are recognisable precursors for many structures. In fish, the arches are known as the branchial arches, or gill arc ...

suspends the two sets of jaws like pendulums. This allows sharks to swing their jaws outwards and forwards over the prey, allowing the synchronous meeting of the jaws and avoiding deflecting the prey when it comes close.

Actinopterygian fish

Actinopterygii Actinopterygii (; ), members of which are known as ray-finned fishes, is a class of bony fish. They comprise over 50% of living vertebrate species. The ray-finned fishes are so called because their fins are webs of skin supported by bony or h ...

(ray finned fish) possess a huge range of kinetic mechanisms. As a general trend through phylogenetic trees, there is a tendency to liberate more and more bony elements to allow greater skull motility. Most actinopts use kinesis to rapidly expand their buccal cavity, to create suction for suction feeding.

Sarcopterygian fish

Early Dipnoi (lungfishes) had upper jaws fused to their braincase, which implies feeding on hard substrates. Many

crossopterygian Sarcopterygii (; ) — sometimes considered synonymous with Crossopterygii () — is a taxon (traditionally a class or subclass) of the bony fishes known as the lobe-finned fishes. The group Tetrapoda, a mostly terrestrial superclass includin ...

fishes had kinesis also.

Amphibians

Early tetrapods inherited much of their suction feeding ability from their

ancestors. The skulls of modern

Lissamphibia The Lissamphibia is a group of tetrapods that includes all modern amphibians. Lissamphibians consist of three living groups: the Salientia (frogs, toads, and their extinct relatives), the Caudata (salamanders, newts, and their extinct relatives), ...

ns are greatly simplified, with many bones fused or otherwise reduced. They have mobility in the premaxilla of the snout, allowing amphibians to open and close their nasal openings. In caecilians, the gap between the parietal bone and squamosal bone enables the skull to bend, which aids the animal in burrowing. Caecilians are the only extant amphibian known to exhibit

streptostyly Cranial kinesis is the term for significant movement of skull bones relative to each other in addition to movement at the joint between the upper and lower jaw. It is usually taken to mean relative movement between the upper jaw and the braincase. ...

, and their quadrate bone moves even after death.

Modern reptiles

Different groups of reptiles exhibit varying degrees of cranial kinesis, ranging from akinetic, meaning there is very little movement between skull bones, to highly kinetic.

Crocodilians

Alligators and crocodiles possess highly sutured (or akinetic) skulls. This is thought to allow them to have a stronger bite.

Lizards

Three forms of cranial kinesis exist within lizards: metakinesis, mesokinesis, and streptostyly. * Metakinesis - Movement of the skeletal braincase relative to the rest of the skull * Mesokinesis - Movement of the front portion of the skull relative to the back portion of the skull. The hinge where the movement occurs is present at the frontal-parietal suture. * Streptostyly - Movement of the quadrate, where it moves in a back and forth motion, allowing the jaw to swing backwards and forwards. Different lizards possess different degrees of kinesis, with chameleons,

agamids Agamidae is a family of over 300 species of iguanian lizards indigenous to Africa, Asia, Australia, and a few in Southern Europe. Many species are commonly called dragons or dragon lizards. Overview Phylogenetically, they may be sister to the I ...

, phrynosomatids, and

amphisbaenia Amphisbaenia (called amphisbaenians or worm lizards) is a group of usually legless squamates, comprising over 200 extant species. Amphisbaenians are characterized by their long bodies, the reduction or loss of the limbs, and rudimentary eyes. As ...

ns possessing the least kinetic skulls.

Snakes

Snake Anaconda mouth Schlange Maul South America P1130965

Snakes use highly kinetic joints to allow a huge gape; it is these highly kinetic joints that allow the wide gape and ''not'' the "unhinging" of joints, as many believe. Snakes engage in high amounts of cranial kinesis that help them perform important tasks such as eating. Studies done in cottonmouth snakes suggests that the process of eating, as it relates to movement of the cranial bones, can be situated into three parts: hold, advance, and close. The phases document the ways in which the cranial bones shift according to the action being performed on the prey, specifically when the prey is passing through the gape. Similarly observed in the banded water snake, a prey's height acts on the maxillary and quadrate bones of the snake's skull by displacing them in a way that allows for the prey to enter the mouth more smoothly.

Tuatara

The tuatara possesses an akinetic skull. Some researchers think that juvenile tuatara may have somewhat kinetic skulls, and the bones only fuse later in adults.

Dinosaurs

The three principle types of kinesis found in Dinosaurs are, * Streptostyly; forwards and back movement of the quadrate, seen in most lizards, snakes and birds. In dinosaurs, this is seen in Ankylosaurs, and possibly in many theropods, such as '' Carnotaurus'','' Coelophysis'', and '' Allosaurus''. It is also seen in '' Hypsilophodon'' and '' Massospondylus''. * Metakinesis; jointing between the neurocranium and the dermatocranium, seen in some lizards. ''

Dromaeosaurus ''Dromaeosaurus'' (, "running lizard") is a genus of dromaeosaurid theropod dinosaur which lived during the Late Cretaceous period (middle late Campanian and Maastrichtian), sometime between 80 and 69 million years ago, in Alberta, Canada and the ...

'' and also '' Hypsilophodon'' shows a metakinetic joint. * Prokinesis; a joint in the facial area, such as modern snakes and birds. This is seen in a variety of dinosaurs. Some show a combination of the two, such as streptostyly and prokinesis (''

Shuvuuia ''Shuvuuia'' is a genus of bird-like theropod dinosaur from the late Cretaceous period of Mongolia. It is a member of the family Alvarezsauridae, small coelurosaurian dinosaurs which are characterized by short but powerful forelimbs specialized f ...

''). Many, on the other hand, have at various points been thought to show akinesis, such as

sauropod Sauropoda (), whose members are known as sauropods (; from '' sauro-'' + '' -pod'', 'lizard-footed'), is a clade of saurischian ('lizard-hipped') dinosaurs. Sauropods had very long necks, long tails, small heads (relative to the rest of their bo ...

ankylosaur Ankylosauria is a group of herbivorous dinosaurs of the order Ornithischia. It includes the great majority of dinosaurs with armor in the form of bony osteoderms, similar to turtles. Ankylosaurs were bulky quadrupeds, with short, powerful limbs. ...

s, and ceratopsians. It can be very difficult to prove that skulls were akinetic, and many of the above examples are contentious.

Pleurokinesis in ornithopods

Pleurokinesis refers to the complex multiple jointing thought to occur in

ornithopod Ornithopoda () is a clade of ornithischian dinosaurs, called ornithopods (), that started out as small, bipedal running grazers and grew in size and numbers until they became one of the most successful groups of herbivores in the Cretaceous world ...

s, such as hadrosaurs. Ornithopod jaws are isognathic (meet simultaneously), working like a guillotine to slice plant material which can be manipulated with their teeth. However, because of the wedge shape of their teeth, the occlusional plane is tilted away from the centre of the head, causing the jaws to lock together and, due to the lack of a secondary palate, the force of this would not be braced. Because of this, Norman and Weishampel proposed a pleurokinetic skull. Here, there are four (or perhaps even more) kinetic parts of the skull, * Maxillojugal Unit * Dentary-predentary * Quadratojugal * Quadrate As the lower jaw closes, the maxillojugal units move laterally producing a power stroke. These motions were later proved by a microwear analysis on an Edmontosaurus jaw.

Birds

Birds show a vast range of cranial kinetic hinges in their skulls. Zusi recognised three basic forms of cranial kinesis in birds, * Prokinesis, where the upper beak moves at the point where it is

hinge A hinge is a mechanical bearing that connects two solid objects, typically allowing only a limited angle of rotation between them. Two objects connected by an ideal hinge rotate relative to each other about a fixed axis of rotation: all other ...

d with the bird's skull * Amphikinesis. Unlike prokinesis, the

narial opening A nostril (or naris , plural ''nares'' ) is either of the two orifices of the nose. They enable the entry and exit of air and other gasses through the nasal cavities. In birds and mammals, they contain branched bones or cartilages called turbi ...

s extend back almost to the level of the

craniofacial hinge Craniofacial (''cranio-'' combining form meaning head or skull + ''-facial'' combining form referring to the facial structures grossly) is an adjective referring to the parts of the head enclosing the brain and the face. The term is typically used ...

, and the dorsal and ventral bars are flexible near the symphysis. In addition, the lateral bar is flexible near its junction with the dorsal bar. As a result, protraction and retraction forces are transmitted primarily to the symphysis via the lateral and ventral bars. During protraction the entire upper jaw is raised and the tip of the jaw is bent up in addition; in retraction the tip bends down with respect to the rest of the upper jaw. * Rhynchokinesis (see below) Rhynchokinesis is further subdivided into double, distal, proximal, central and extensive. The older terms "schizorhynal" and "holorhynal" are generally synonymous with rhynchokinesis. In schizorhinal birds and most rhynchokinetic birds, the presence of two hinge axes at the base of the upper jaw imposes a requirement of bending within the jaw during kinesis. Bending takes different forms according to the number of hinges and their geometric configuration within the upper jaw. Proximal rhynchokinesis and distal rhynchokinesis apparently evolved from double rhynchokinesis by loss of different hinges. Extensive rhynchokinesis is an unusual and probably specialized variant. Kinesis in hummingbirds is still little understood.

Rhynchokinesis

Rhynchokinesis is an ability possessed by some birds to flex their upper beak or rhinotheca. Rhynchokinesis involves flexing at a point some way along the upper beak - either upwards, in which case the upper beak and lower beak or gnathotheca diverge, resembling a yawn, or downwards, in which case the tips of the beaks remain together while a gap opens up between them at their midpoint. Unlike prokinesis, which is widespread in birds, rhynchokinesis is only known in cranes, shorebirds, swifts and

hummingbird Hummingbirds are birds native to the Americas and comprise the biological family Trochilidae. With about 361 species and 113 genera, they occur from Alaska to Tierra del Fuego, but the vast majority of the species are found in the tropics aro ...

s. The adaptive significance of rhynchokinesis in certain non-probing birds is not yet known. It is hypothesized that the schizorhinal skull in proximally rhynchokinetic birds reflects ancestry, but has no adaptive explanation, in many living species. Species in which this has been recorded photographically include the following species: short-billed dowitcher,

marbled godwit The marbled godwit (''Limosa fedoa'') is a large migratory shorebird in the family Scolopacidae. On average, it is the largest of the four species of godwit. Taxonomy In 1750 the English naturalist George Edwards included an illustration and a ...

, least sandpiper, common snipe,

long-billed curlew The long-billed curlew (''Numenius americanus'') is a large North American shorebird of the family Scolopacidae. This species was also called "sicklebird" and the "candlestick bird". The species breeds in central and western North America, migrat ...

, pectoral sandpiper, semipalmated sandpiper, Eurasian oystercatcher and bar-tailed godwit (see Chandler 2002 and external links). Either prokinesis or some form of rhynchokinesis could be primitive for birds. Rhynchokinesis is not compatible with the presence of teeth in the bending zone of the ventral bar of the upper Jaw, and it probably evolved after their loss. Neognathous rhynchokinesis, however, probably evolved from prokinesis. The evolutionary origin of rhynchokinesis from prokinesis required selection for morphological changes that produced two hinge axes at the base of the upper jaw. Once evolved, the properties of these axes were subject to selection in relation to their effects on kinesis. The various forms of kinesis are hypothesized to have evolved by simple steps. In neognathous birds, prokinesis was probably ancestral to amphikinesis, and amphikinesis to rhynchokinesis in most cases, but prokinesis has also evolved secondarily.

Hares

hare Hares and jackrabbits are mammals belonging to the genus ''Lepus''. They are herbivores, and live solitarily or in pairs. They nest in slight depressions called forms, and their young are able to fend for themselves shortly after birth. The ge ...

s or "jackrabbits" (but not in their ancestors), there is a suture between regions in the fetal

that remains open in the adult, forming what is thought to be an

intracranial joint The cranial cavity, also known as intracranial space, is the space within the skull that accommodates the brain. The skull minus the mandible is called the ''cranium''. The cavity is formed by eight cranial bones known as the neurocranium that in ...

, permitting relative motion between the anterior and posterior part of the braincase. It is thought that this helps absorb the force of impact as the hare strikes the ground.

References

;Notes ;Bibliography * ''A functional and evolutionary analysis of rhynchokinesis in birds'' by Richard L Zusi, Smithsonian Institution Press, 1984. * Chandler, Richard (2002) PhotoSpot - Rhynchokinesis in waders '' British Birds'' Vol 95 p39

External links

Photographs of birds performing rhynchokinesis can be found here:

- a short-billed dowitcher

- a

- a least sandpiper A very clear animation of pleurokinesis in Hadrosaurs can be found here:

{{DEFAULTSORT:Cranial Kinesis Musculoskeletal system Skull