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Cameroceras
Cameroceras, from Ancient Greek καμάρα (kamára), meaning "chamber", and κέρας (kéras), meaning "horn", is an extinct genus of endocerid cephalopod which lived in equatorial oceans during the entire Ordovician period. Like other endocerids, it was an orthocone, meaning that its shell was fairly straight and pointed. It was particularly abundant and widespread in the Late Ordovician, inhabiting the shallow tropical seas in and around Laurentia, Baltica and Siberia (equivalent to modern North America, Europe, and Asia).
Cameroceras exhibited a broad range of sizes, and some species were fairly large by extinct cephalopod standards. One species, C. turrisoides from the Boda Limestone of Sweden, is estimated to have shell around 2 metres (6.6 ft) in length, while that of C. rowenaense was about 70 centimetres (2.3 ft).
Some books and older scientific papers treated Cameroceras as the absolute largest nautiloid-grade cephalopod, with a shell length reaching 5.7 metres (19 ft) or even 9.14 metres (30.0 ft). More recent studies classify the largest orthocone fossils as Endoceras giganteum. Moreover, the maximum length estimate is based on a highly doubtful field observation. Cameroceras and Endoceras are indistinguishable in most anatomical aspects, only differing in their shell texture.
Cameroceras is a cephalopod, the same group of mollusks that includes the octopuses, squids, and cuttlefish. The only portion of the animal to fossilize is the shell (formally known as the conch). Like other orthoconic nautiloids, Cameroceras had a narrow conical shell with smooth, simple sutures dividing a series of septa (internal chambers). In cross-section, the shell may be perfectly circular or slightly depressed (elliptical, wider than tall).
The position of the siphuncle varies, but in most species it runs close to the lower edge of the shell. In some species, the siphuncle is voluminous, reaching a diameter equal to half of the shell diameter. The siphuncle is filled with stacked funnel-shaped concretions known as endocones, which have a simple conical form in Cameroceras. A thin endosiphuncular tube passes through the apex of each endocone, in the lower part of the siphuncle. The surface of the siphuncle is supported by septal necks, which are holochoanitic, meaning that they fully sheath the siphuncle and extend all the way between each septum. The main difference between Cameroceras and Endoceras is that Cameroceras lacks annulations (thin concentric rings) on the outer surface of the shell.
From comparison with living cephalopods, particularly the shelled nautilus, some inferences about the biology of Cameroceras can be made. The head of the animal would have been soft, muscular tissue situated at the opening of the shell, with the mantle (sheath-like body wall) lying within the shell for protection. Tentacles would have grown from the base of the head, and these tentacles would have been used to seize and manipulate prey. At the base of these tentacles within the buccal mass (analogous to the mouth), a hard keratinous beak would have bitten into the bodies of its prey, and is assumed to have been strong enough to breach the prey's exoskeleton or shell. Modern cephalopods' beaks contain a radula, or 'toothed' tongue, which is used to rasp out soft tissue from within the prey's shell.
Cameroceras has historically been utilized as a "wastebasket taxon" in which species of large orthoconic endocerids such as Endoceras, Vaginoceras, and Meniscoceras were originally placed. This poses difficulty for describing Cameroceras as a distinct genus. The type species Cameroceras trentonense was named by Conrad in 1842, based on fossils from the Trenton Limestone of western New York state. The original specimen of C. trentonense is apparently lost, which complicates comparisons to other endocerids.
Hall, who named and described Endoceras annulatum in 1847, recognized C. trentonense as a valid combination, but used Endoceras for other specimens of large endocerids from the Trenton Limestone. Sardeson (1925/1930) suggested that Cameroceras and Endoceras are potentially different growth stages of the same genus, though other authors have doubted this perspective.
Cameroceras
Cameroceras, from Ancient Greek καμάρα (kamára), meaning "chamber", and κέρας (kéras), meaning "horn", is an extinct genus of endocerid cephalopod which lived in equatorial oceans during the entire Ordovician period. Like other endocerids, it was an orthocone, meaning that its shell was fairly straight and pointed. It was particularly abundant and widespread in the Late Ordovician, inhabiting the shallow tropical seas in and around Laurentia, Baltica and Siberia (equivalent to modern North America, Europe, and Asia).
Cameroceras exhibited a broad range of sizes, and some species were fairly large by extinct cephalopod standards. One species, C. turrisoides from the Boda Limestone of Sweden, is estimated to have shell around 2 metres (6.6 ft) in length, while that of C. rowenaense was about 70 centimetres (2.3 ft).
Some books and older scientific papers treated Cameroceras as the absolute largest nautiloid-grade cephalopod, with a shell length reaching 5.7 metres (19 ft) or even 9.14 metres (30.0 ft). More recent studies classify the largest orthocone fossils as Endoceras giganteum. Moreover, the maximum length estimate is based on a highly doubtful field observation. Cameroceras and Endoceras are indistinguishable in most anatomical aspects, only differing in their shell texture.
Cameroceras is a cephalopod, the same group of mollusks that includes the octopuses, squids, and cuttlefish. The only portion of the animal to fossilize is the shell (formally known as the conch). Like other orthoconic nautiloids, Cameroceras had a narrow conical shell with smooth, simple sutures dividing a series of septa (internal chambers). In cross-section, the shell may be perfectly circular or slightly depressed (elliptical, wider than tall).
The position of the siphuncle varies, but in most species it runs close to the lower edge of the shell. In some species, the siphuncle is voluminous, reaching a diameter equal to half of the shell diameter. The siphuncle is filled with stacked funnel-shaped concretions known as endocones, which have a simple conical form in Cameroceras. A thin endosiphuncular tube passes through the apex of each endocone, in the lower part of the siphuncle. The surface of the siphuncle is supported by septal necks, which are holochoanitic, meaning that they fully sheath the siphuncle and extend all the way between each septum. The main difference between Cameroceras and Endoceras is that Cameroceras lacks annulations (thin concentric rings) on the outer surface of the shell.
From comparison with living cephalopods, particularly the shelled nautilus, some inferences about the biology of Cameroceras can be made. The head of the animal would have been soft, muscular tissue situated at the opening of the shell, with the mantle (sheath-like body wall) lying within the shell for protection. Tentacles would have grown from the base of the head, and these tentacles would have been used to seize and manipulate prey. At the base of these tentacles within the buccal mass (analogous to the mouth), a hard keratinous beak would have bitten into the bodies of its prey, and is assumed to have been strong enough to breach the prey's exoskeleton or shell. Modern cephalopods' beaks contain a radula, or 'toothed' tongue, which is used to rasp out soft tissue from within the prey's shell.
Cameroceras has historically been utilized as a "wastebasket taxon" in which species of large orthoconic endocerids such as Endoceras, Vaginoceras, and Meniscoceras were originally placed. This poses difficulty for describing Cameroceras as a distinct genus. The type species Cameroceras trentonense was named by Conrad in 1842, based on fossils from the Trenton Limestone of western New York state. The original specimen of C. trentonense is apparently lost, which complicates comparisons to other endocerids.
Hall, who named and described Endoceras annulatum in 1847, recognized C. trentonense as a valid combination, but used Endoceras for other specimens of large endocerids from the Trenton Limestone. Sardeson (1925/1930) suggested that Cameroceras and Endoceras are potentially different growth stages of the same genus, though other authors have doubted this perspective.