The Chondrichthyes or cartilaginous fishes
are jawed
fish with paired fins, paired nostrils, scales,
two-chambered hearts, and skeletons made of
cartilage rather than bone. They are divided into two
subclasses: Elasmobranchii (sharks, rays and skates) and
Holocephali (chimaera, sometimes called ghost sharks).
Characteristics
Chondrichthyes have internal fertilization and a
reproduction strategy reminiscent of that seen in amniotes.
They also have a relative brain development of its major
divisions, reminiscent of those found in birds and mammals.
Their brain weight relative to body size comes close to that
of mammals, and is about ten times that of bony fishes.
There are exceptions: the mormyrid bony fishes have a
relative brain size comparable to humans, while the
primitive megamouth shark has a brain of only 0.002 percent of its
body weight. One of the explanations for their relatively
large brains is that the density of nerve cells is much
lower than in the brains of bony fishes, making the brain
less energy demanding and allowing it to be bigger.
Their digestive systems have spiral valves, and with the
exception of Holocephali, they also have a
cloaca.
As they do not have bone marrow,
red blood cells are produced in the spleen and special
tissue around the gonads. They are also produced in an organ called Leydig's Organ which is only found in cartilaginous fishes,
although some have lost it. Another unique organ is the
epigonal organ which probably has a role in the immune
system. The subclass Holocephali, which is a very
specialized group, lacks both of these organs.
Originally the pectoral and pelvic girdles, which do not
contain any dermal elements, did not connect. In later
forms, each pair of fins became ventrally connected in the
middle when scapulocoracoid and pubioischiadic bars evolved.
In
rays, the pectoral fins have connected to the head and
are very flexible.
A
spiracle is found behind each eye on most species,
although Holocephali and some pelagic sharks have lost it.
Their tough skin is covered with dermal teeth (again with
Holocephali as an exception as the teeth are lost in adults,
only kept on the clasping organ seen on the front of the
male's head), also called placoid scales or dermal denticles,
making it feel like sandpaper. It is assumed that their oral
teeth evolved from dermal denticles which migrated into the
mouth. But it could be the other way around as the teleost
bony fish Denticeps clupeoides has most of its head covered
by dermal teeth (as do probably Atherion elymus, another
bony fish). This is most probably a secondary evolved
characteristic which means there is not necessarily a
connection between the teeth and the original dermal scales.
The old placoderms did not have teeth at all, but had sharp bony
plates in their mouth. So what came first, the oral teeth or
the dermal teeth, is not known for sure. Neither is it sure
how many times it has happened if it turns out to be the
case. It has even been suggested that the original bony
plates of all the vertebrates are gone and that the present
scales are just modified teeth, even if both teeth and the
body armour have a common origin a long time ago. But for
the moment there is no evidence of this.
Taxonomy
Subclass
Elasmobranchii (sharks, rays and skates)
Superorder
Batoidea (rays and skates), containing the
orders:
Rajiformes (common rays and skates)
Pristiformes (Sawfishes)
Torpediniformes (electric rays)
Superorder
Selachimorpha (sharks),
containing the orders:
Hexanchiformes Two families are found within
this order. Species of this order are
distinguished from other sharks by having
additional gill slits (either six or seven).
Examples from this group include the cow sharks,
frilled shark and even a shark that looks on
first inspection to be a marine snake.
Squaliformes Three families and more than 80
species are found within this order. These
sharks have two dorsal fins, often with spines,
and no anal fin. They have teeth designed for
cutting in both the upper and lower jaws.
Examples from this group include the bramble
sharks, dogfish and roughsharks.
Pristiophoriformes One family is found within
this order. These are the sawsharks, with an
elongate, toothed snout that they use for
slashing the fishes that they then eat.
Squatiniformes One family is found within this
order. These are flattened sharks that can be
distinguished from the similar appearing skates
and rays by the fact that they have the gill
slits along the side of the head like all other
sharks. They have a caudal fin (tail) with the
lower lobe being much longer in length than the
upper, and are commonly referred to as angel
sharks.
Heterodontiformes One family is found within
this order. They are commonly referred to as the
bullhead, or horn sharks. They have a variety of
teeth allowing them to grasp and then crush
shellfishes.
Orectolobiformes Seven families are found within
this order. They are commonly referred to as the
carpet sharks, including zebra sharks, nurse
sharks, wobbegongs and the largest of all
fishes, the whale sharks. They are distinguished
by having barbels at the edge of the nostrils.
Most, but not all are nocturnal.
Carcharhiniformes Eight families are found
within this order. It is the largest order,
containing almost 200 species. They are commonly
referred to as the groundsharks, and some of the
species include the blue, tiger, bull, reef and
oceanic whitetip sharks (collectively called the
requiem sharks) along with the houndsharks,
catsharks and hammerhead sharks. They are
distinguished by an elongated snout and a
nictitating membrane which protects the eyes
during an attack.
Lamniformes Seven families are found within this
order. They are commonly referred to as the
mackerel sharks. They include the goblin shark,
basking shark, megamouth, the thresher, mako
shark and great white shark. They are
distinguished by their large jaws and
ovoviviparous reproduction. The Lamniformes
contains the extinct Megalodon (Carcharodon
megalodon), which like most extinct sharks is
only known by the teeth (the only bone found in
these cartilaginous fishes, and therefore are
often the only fossils produced). A reproduction
of the jaw was based on some of the largest
teeth (up to almost 7 inches in length) and
suggested a fish that could grow 120 feet in
length. The jaw was realized to be inaccurate,
and estimates revised downwards to around 50
feet.
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