e-ISSN: 2321-6190 p-ISSN: 2347-2294
John Francis*
Department of Zoological Sciences, Gaziantep University, Gaziantep, Turkey
Received: 31-Mar-2022, Manuscript No. JZS-22-66161; Editor assigned: 04-Apr-2022, Pre QC No. JZS-22-66161(PQ); Reviewed: 18- Apr-2022, QC No. JZS-22-66161; Revised: 21- Apr -2022, Manuscript No.JZS-22-66161(R); Published: 29- Apr-2022, DOI: 10.4172/2321-6190.10.S4.001
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The class of fishes known as chondrichthyes (kndrki.iz; from the Ancient Greek o (khóndros) "cartilage" and ikhths "fish") includes cartilaginous fishes, which have skeletons that are predominantly made of cartilage. They can be compared to Osteichthyes, also known as bony fishes, whose skeletons are primarily made of bone tissue. Jawed vertebrates known as chondrichthyes have paired fins, paired nares, scales, and a heart with chambers arranged in series. From the 10 cm (3.9 in) finless sleeping ray to the 10 m (32 ft) whale shark, chondrichthyes are still alive today.
Elasmobranchii, which includes sharks, rays, skates, and sawfish, and Holocephali, which includes chimaeras (also known as ghost sharks), are the two subclasses that make up this class. The cartilaginous fishes are unique from all other jawed vertebrates within the infraphylum Gnathostomata.
Evolution
Cartilaginous fish are considered to have evolved from acanthodians. The discovery of Entelognathus and several examinations of acanthodian characteristics indicate that bony fish evolved directly from placoderm like ancestors, while acanthodians represent a paraphyletic assemblage leading to Chondrichthyes. Some characteristics previously thought to be exclusive to acanthodians are also present in basal cartilaginous fish. In particular, new phylogenetic studies find cartilaginous fish to be well nested among acanthodians, with Doliodus and Tamiobatis being the closest relatives to Chondrichthyes. Recent studies vindicate this, as Doliodus had a mosaic of chondrichthyan and acanthodian traits. Dating back to the Middle and Late Ordovician Period, many isolated scales, made of dentine and bone, have a structure and growth form that is chondrichthyan-like. They may be the remains of stem-chondrichthyans, but their classification remains uncertain.
The earliest unequivocal fossils of acanthodian-grade cartilaginous fishes are Qianodus and Fanjingshania from the early Silurian (Aeronian) of Guizhou, China around 439 million years ago, which are also the oldest unambiguous remains of any jawed vertebrates. Shenacanthus vermiformis, which lived 436 million years ago, had thoracic armour plates resembling those of placoderms.
By the start of the Early Devonian, 419 million years ago, jawed fishes had divided into three distinct groups: the now extinct placoderms (a paraphyletic assemblage of ancient armoured fishes), the bony fishes, and the clade that includes spiny sharks and early cartilaginous fish. The modern bony fishes, class Osteichthyes, appeared in the late Silurian or early Devonian, about 416 million years ago. The first abundant genus of shark, Cladoselache, appeared in the oceans during the Devonian Period. The first Cartilaginous fishes evolved from Doliodus-like spiny shark ancestors.
Classification
Chondrichthyes is a class of fishes included in the division Gnathostomata as they have jaws. The division Gnathostomata includes all the vertebrates having jaws. Gnathostomata is divided into two super classes, viz. Pisces (having fins) and Tetrapoda (bear limbs).
Pisces is divided into two classes:
a. Chondrichthyes- Cartilaginous fishes
b. Osteichthyes- Bony fishes
Chondrichthyes is subdivided into two subclasses:
a. Elasmobranchii- Sharks and rays, skates, sawfishes.
b. Holocephali- Chimaeras, also known as ghost sharks.
Reproduction
Fertilization is internal. Development is usually live birth (ovoviviparous species) but can be through eggs (oviparous). Some rare species are viviparous. There is no parental care after birth; however, some chondrichthyans do guard their eggs.
Capture-induced premature birth and abortion (collectively called capture-induced parturition) occurs frequently in sharks/rays when fished. Capture-induced parturition is often mistaken for natural birth by recreational fishers and is rarely considered in commercial fisheries management despite being shown to occur in at least 12% of live bearing sharks and rays (88 species to date).