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[[File:Nuculidae hinge.jpg|right|thumb|A close-up photograph of the hinge teeth of a [[Nuculidae|nut clam]]]]
'''Hinge teeth''' are part of the anatomical structure of the inner surface of a [[bivalve shell]], i.e. the shell of a bivalve [[mollusk]]. Bivalves typically have two [[valve (mollusc)|valve]]s which are joined together by a strong and flexible [[ligament (bivalve)|ligament]], and which in many cases articulate with one another using structures known as dentition or "teeth" which are situated along the [[hinge line]]. In most families of bivalves, the two valves of the shell are symmetrical with one another along the hinge line.


'''Hinge teeth''' are part of the anatomical structure of the inner surface of a [[bivalve shell]], i.e. the shell of a [[bivalve]] [[mollusk]]. Bivalves by definition have two [[valve (mollusc)|valve]]s, which are joined together by a strong and flexible [[ligament (bivalve)|ligament]] situated on the [[hinge line]] at the dorsal edge of the shell. In life, the shell needs to be able to open slightly to allow the foot and siphons to protrude, and then close again, without the valves moving out of alignment with one another. To make this possible, in most cases the two valves are articulated using an arrangement of structures known as hinge teeth (often referred to collectively as the "dentition"). Like the ligament, the hinge teeth are also situated along the hinge line of the shell, in most cases.
The hinge teeth are often very distinctive within a related group of bivalves, and thus examining the arrangement of the hinge teeth in a bivalve shell is often essential both for identification and for classification.

In most families of bivalves, the two valves of the shell are almost perfectly symmetrical with one another along the hinge line, although the placement and shape of the teeth may differ slightly in the left valve and right valve in order for the two valves to articulate properly.

Each related group of bivalves tends to have distinctive hinge teeth, and because of this, examining the arrangement of the hinge teeth in a bivalve shell is often essential for identification and classification.

A formal terminology is used to describe the different types of dentition.


==In taxonomy==
==In taxonomy==
The hinge teeth, or lack of them, is an important feature to use in identifying bivalves, because the teeth are generally similar within the major [[taxonomic]] groups. Historically the hinge teeth have provided a convenient means by which to construct classification schemes and attempt to indicate the [[phylogenetic]] relationships within the class [[Bivalvia]].<ref>Sturm, C. F., T. A. Pearce, and A. Valdes. 2006. ''The Mollusks: A guide to their Study, Collection, and Preservation''. American Malacological Society, Pittsburgh, PA, U.S.A. xii+455 Pp.</ref><ref>Huber, Markus (2010). Compendium of Bivalves. A Full-color Guide to 3'300 of the World's Marine Bivalves. A Status on Bivalvia after 250 Years of Research. Hackenheim: ConchBooks. pp. 901 pp. + CD. ISBN 978-3-939767-28-2, at p. 59</ref><ref>''Bivalves'' by J.H. Leal, Bailey-Matthews Shell Museum, Florida, USA http://www.shellmuseum.org/BivalvesLeal.pdf </ref><ref>Invertebrate Paleobiology on-line syllabus on Bivalves, by Dr. Burt Carter, Georgia Southwestern State University, at: http://itc.gsw.edu/faculty/bcarter/paleo/labs/moll/biv2.htm </ref> There are formal names for the various types of hinge tooth arrangements.
The hinge teeth, or the lack thereof, is an important feature in identifying bivalves because the teeth are generally similar within the major [[Taxonomy (biology)|taxonomic]] groups. Historically the hinge teeth have provided a convenient means by which to construct classification schemes and attempt to indicate the [[phylogenetic]] relationships within the class [[Bivalvia]].<ref>Sturm, C. F., T. A. Pearce, and A. Valdes. 2006. ''The Mollusks: A guide to their Study, Collection, and Preservation''. American Malacological Society, Pittsburgh, PA, U.S.A. xii+455 Pp.</ref><ref>Huber, Markus (2010). Compendium of Bivalves. A Full-color Guide to 3'300 of the World's Marine Bivalves. A Status on Bivalvia after 250 Years of Research. Hackenheim: ConchBooks. pp. 901 pp. + CD. {{ISBN|978-3-939767-28-2}}, at p. 59</ref><ref>''Bivalves'' by J.H. Leal, Bailey-Matthews Shell Museum, Florida, USA {{cite web |url=http://www.shellmuseum.org/BivalvesLeal.pdf |title=Archived copy |access-date=2012-11-13 |url-status=dead |archive-url=https://web.archive.org/web/20130511085317/http://www.shellmuseum.org/BivalvesLeal.pdf |archive-date=2013-05-11 }}</ref><ref>Invertebrate Paleobiology on-line syllabus on Bivalves, by Dr. Burt Carter, Georgia Southwestern State University, at: http://itc.gsw.edu/faculty/bcarter/paleo/labs/moll/biv2.htm</ref> There are formal names for the various types of hinge tooth arrangements or ''dentition''.


==Kinds of hinge teeth==
==Kinds of hinge teeth==

===Taxodont===
===Taxodont===
The taxodont hinge shows rows of similar interlocking teeth on either side of the [[umbo (bivalve)|umbones]], as in the [[Arcidae|arc clams]] (''Arcidae''). ''[[Glycymerididae]]'', and ''[[Nuculidae]]''.
The ''taxodont'' hinge shows either one or two rows of similar interlocking teeth on either side of the [[umbo (bivalve)|umbones]], as is the case in the ark clams ([[Arcidae]]), the bittersweets ([[Glycymerididae]]), and the nut clams ([[Nuculidae]]).
<gallery>
<gallery>
File:Arcidae hinge.jpg|Arcidae hinge
File:Arcidae hinge.jpg|[[Arcidae]] hinge
File:Glycymerididae hinge.jpg|Glycymerididae hinge
File:Glycymerididae hinge.jpg|[[Glycymerididae]] hinge
File:Nuculidae hinge.jpg|Nuculidae hinge
</gallery>
</gallery>


===Dysodont===
===Dysodont===
The dysodont hinge shows a strong ligament along the hinge line, with weak teeth near the [[umbo (bivalve)|umbones]], as in the [[Mytilidae|marine mussels]] (''Mytilidae'').
The ''dysodont'' hinge shows a strong ligament along the hinge line, with weak teeth near the [[umbo (bivalve)|umbones]], as in the [[Mytilidae|marine mussels]] ([[Mytilidae]]).
<gallery>
<gallery>
File:Mytilidae hinge.jpg|Mytilidae hinge
File:Mytilidae hinge.jpg|[[Mytilidae]] hinge
</gallery>
</gallery>


===Isodont===
===Isodont===
The isodont hinge has lateral tubercles and sockets on either side of a thick ligament which is referred to as a [[resilifer]]. This arrangement is typical of the [[oysters]] (''Ostreidae''), [[scallops]] (''Pectinidae''), ''[[Spondylidae]]'' thorny oysters, and ''[[Plicatulidae]]'' kittens paws.
The ''isodont'' hinge has lateral tubercles and sockets on either side of a thick ligament which is referred to as a [[resilium]]. This arrangement is typical of the [[oysters]] ([[Ostreidae]]), [[scallops]] ([[Pectinidae]]), thorny oysters ([[Spondylidae]]), and kittens paws ([[Plicatulidae]]).
<gallery>
<gallery>
File:Ostreidae hinge.jpg|Ostreidae hinge
File:Ostreidae hinge.jpg|[[Ostreidae]] hinge
File:Pectinidae hinge.jpg|Pectinidae hinge
File:Pectinidae hinge.jpg|[[Pectinidae]] hinge
File:Spondylidae hinge.jpg|Spondylidae hinge
File:Spondylidae hinge.jpg|[[Spondylidae]] hinge
File:Plicatulidae hinge.jpg|Plicatulidae hinge
File:Plicatulidae hinge.jpg|[[Plicatulidae]] hinge
</gallery>
</gallery>


===Crurae===
===Crurae===
The crurae hinge has lamellar ridges on or near the hinge plate, and these function as hinge teeth. This arrangement is characteristic of the ''[[Pandoridae]]'', ''[[Anomiidae]]'', and ''[[Dimyidae]]''.
The {{lang|la|crurae}} hinge has lamellar ridges on or near the hinge plate, and these function as hinge teeth. This arrangement is characteristic of the [[Pandoridae]], the jingle shells [[Anomiidae]], and [[Dimyidae]].
<gallery>
<gallery>
File:Anomiidae hinge.jpg|Anomiidae hinge
File:Anomiidae hinge.jpg|[[Anomiidae]] hinge
</gallery>
</gallery>


===Schizodont===
===Schizodont===
The schizodont hinge has reverse "V" shaped scissurate teeth, and often an elongated lateral tooth. This arrangement is found in most ''[[Unionidae]]'' freshwater clams.
The ''schizodont'' hinge has reverse V-shaped [[:wikt:scissurate|scissurate]] teeth, and often an elongated lateral tooth. This arrangement is found in most [[Unionidae]] freshwater mussels.
<gallery>
<gallery>
File:Unionidae hinge.jpg|Unionidae hinge
File:Unionidae hinge.jpg|[[Unionidae]] hinge
</gallery>
</gallery>


===Pachyodont===
===Pachyodont===
The pachyodont hinge has large obscure tubercules with corresponding pits on the opposite valve. This arrangement is characteristic of the ''[[Chamidae]]''.
The ''pachyodont'' hinge has large obscure tubercules with corresponding pits on the opposite valve. This arrangement is characteristic of the [[Chamidae]], the jewel boxes.
<gallery>
<gallery>
File:Chamidae hinge.jpg|Chamidae hinge
File:Chamidae hinge.jpg|[[Chamidae]] hinge
</gallery>
</gallery>


===Heterodont===
===Heterodont===
The heterodont hinge has two to three wedge-shaped cardinal teeth set in the center near the [[umbo (bivalve)|umbones]], and generally also has elongated lateral teeth on the anterior and posterior margins (on both sides, or sometimes only on one side). This arrangement is characteristic of the [[Veneridae|venus clams]] (''Veneridae''), [[cockle_(bivalve)|cockles]] (''Cardiidae'') and several other important groups.
The ''heterodont'' hinge has two to three wedge-shaped cardinal teeth set in the center near the [[umbo (bivalve)|umbones]], and generally also has elongated lateral teeth on the anterior and posterior margins (on one or both sides). This arrangement is characteristic of the venus clams ([[Veneridae]]), the [[cockle (bivalve)|cockles]] ([[Cardiidae]]) and several other important groups.
<gallery>
<gallery>
File:Veneridae close up heterodont hinge.jpg|Veneridae: Pitar hinge
File:Veneridae close up heterodont hinge.jpg|[[Veneridae]]: ''[[Pitar]]'' hinge
File:Veneridae hinge.jpg|Veneridae: Tivela hinge
File:Veneridae hinge.jpg|Veneridae: ''[[Tivela]]'' hinge
File:Veneridae hinge 3.jpg|Veneridae: Dosina hinge
File:Veneridae hinge 3.jpg|Veneridae: ''[[Dosina]]'' hinge
File:Cardiidae hinge.jpg|Cardiidae hinge
File:Cardiidae hinge.jpg|[[Cardiidae]] hinge
</gallery>
</gallery>


===Desmodont===
===Desmodont===
In the desmodont hinge, also known as an asthenodont hinge, the hinge consists of a large ligamentous [[resilifer]] (or chondrophore) which replaces the cardinal teeth, as in the [[Myidae|soft-shell clams]] (''Myidae'').
In the ''desmodont'' hinge, also known as an ''asthenodont'' hinge, the hinge consists of a large ligamentous [[resilifer]] (or chondrophore) which replaces the cardinal teeth, as in the soft-shell clams ([[Myidae]]).
<gallery>
<gallery>
File:Myidae hinge.jpg|Myidae hinge
File:Myidae hinge.jpg|''[[Myidae]]'' hinge
File:Pholadidae hinge.jpg|Pholadidae hinge
File:Pholadidae hinge.jpg|''[[Pholadidae]]'' hinge
</gallery>
</gallery>


===Anodont===
===Anodont===
The anodont hinge is characterized by a strong ligament (or a series of transverse ligamental grooves as in the ''Isognomonidae''), however true teeth are absent in adults, as is the case in the pen clams, tree oysters, and some freshwater mussels, e.g. ''[[Pinnidae]]'', ''[[Pteriidae]]'', ''[[Isognomonidae]]'', and ''[[Anodonta]]''.
The ''anodont'' hinge is characterized by a strong ligament (or a series of transverse ligamental grooves as in the ''Isognomonidae''), however, true teeth are absent in adults as is the case in the pen shells ([[Pinnidae]]), tree oysters ([[Isognomonidae]]), the pearl oysters ([[Pteriidae]]), and some freshwater mussels such as the genus ''[[Anodonta]]''.
<gallery>
<gallery>
File:Pinnidae hinge.jpg|Pinnidae hinge
File:Pinnidae hinge.jpg|[[Pinnidae]] hinge
File:Pteriidae hinge.jpg|Pteriidae hinge
File:Pteriidae hinge.jpg|[[Pteriidae]] hinge
File:Isognomonidae hinge.jpg|Isognomonidae hinge
File:Isognomonidae hinge.jpg|[[Isognomonidae]] hinge
</gallery>
</gallery>


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<references />
<references />


{{Bivalve anatomy}}


[[Category:Mollusc shells]]
{{bivalve-stub}}

Latest revision as of 19:27, 8 January 2024

A close-up photograph of the hinge teeth of a nut clam

Hinge teeth are part of the anatomical structure of the inner surface of a bivalve shell, i.e. the shell of a bivalve mollusk. Bivalves by definition have two valves, which are joined together by a strong and flexible ligament situated on the hinge line at the dorsal edge of the shell. In life, the shell needs to be able to open slightly to allow the foot and siphons to protrude, and then close again, without the valves moving out of alignment with one another. To make this possible, in most cases the two valves are articulated using an arrangement of structures known as hinge teeth (often referred to collectively as the "dentition"). Like the ligament, the hinge teeth are also situated along the hinge line of the shell, in most cases.

In most families of bivalves, the two valves of the shell are almost perfectly symmetrical with one another along the hinge line, although the placement and shape of the teeth may differ slightly in the left valve and right valve in order for the two valves to articulate properly.

Each related group of bivalves tends to have distinctive hinge teeth, and because of this, examining the arrangement of the hinge teeth in a bivalve shell is often essential for identification and classification.

A formal terminology is used to describe the different types of dentition.

In taxonomy[edit]

The hinge teeth, or the lack thereof, is an important feature in identifying bivalves because the teeth are generally similar within the major taxonomic groups. Historically the hinge teeth have provided a convenient means by which to construct classification schemes and attempt to indicate the phylogenetic relationships within the class Bivalvia.[1][2][3][4] There are formal names for the various types of hinge tooth arrangements or dentition.

Kinds of hinge teeth[edit]

Taxodont[edit]

The taxodont hinge shows either one or two rows of similar interlocking teeth on either side of the umbones, as is the case in the ark clams (Arcidae), the bittersweets (Glycymerididae), and the nut clams (Nuculidae).

Dysodont[edit]

The dysodont hinge shows a strong ligament along the hinge line, with weak teeth near the umbones, as in the marine mussels (Mytilidae).

Isodont[edit]

The isodont hinge has lateral tubercles and sockets on either side of a thick ligament which is referred to as a resilium. This arrangement is typical of the oysters (Ostreidae), scallops (Pectinidae), thorny oysters (Spondylidae), and kittens paws (Plicatulidae).

Crurae[edit]

The crurae hinge has lamellar ridges on or near the hinge plate, and these function as hinge teeth. This arrangement is characteristic of the Pandoridae, the jingle shells Anomiidae, and Dimyidae.

Schizodont[edit]

The schizodont hinge has reverse V-shaped scissurate teeth, and often an elongated lateral tooth. This arrangement is found in most Unionidae freshwater mussels.

Pachyodont[edit]

The pachyodont hinge has large obscure tubercules with corresponding pits on the opposite valve. This arrangement is characteristic of the Chamidae, the jewel boxes.

Heterodont[edit]

The heterodont hinge has two to three wedge-shaped cardinal teeth set in the center near the umbones, and generally also has elongated lateral teeth on the anterior and posterior margins (on one or both sides). This arrangement is characteristic of the venus clams (Veneridae), the cockles (Cardiidae) and several other important groups.

Desmodont[edit]

In the desmodont hinge, also known as an asthenodont hinge, the hinge consists of a large ligamentous resilifer (or chondrophore) which replaces the cardinal teeth, as in the soft-shell clams (Myidae).

Anodont[edit]

The anodont hinge is characterized by a strong ligament (or a series of transverse ligamental grooves as in the Isognomonidae), however, true teeth are absent in adults as is the case in the pen shells (Pinnidae), tree oysters (Isognomonidae), the pearl oysters (Pteriidae), and some freshwater mussels such as the genus Anodonta.

References[edit]

  1. ^ Sturm, C. F., T. A. Pearce, and A. Valdes. 2006. The Mollusks: A guide to their Study, Collection, and Preservation. American Malacological Society, Pittsburgh, PA, U.S.A. xii+455 Pp.
  2. ^ Huber, Markus (2010). Compendium of Bivalves. A Full-color Guide to 3'300 of the World's Marine Bivalves. A Status on Bivalvia after 250 Years of Research. Hackenheim: ConchBooks. pp. 901 pp. + CD. ISBN 978-3-939767-28-2, at p. 59
  3. ^ Bivalves by J.H. Leal, Bailey-Matthews Shell Museum, Florida, USA "Archived copy" (PDF). Archived from the original (PDF) on 2013-05-11. Retrieved 2012-11-13.{{cite web}}: CS1 maint: archived copy as title (link)
  4. ^ Invertebrate Paleobiology on-line syllabus on Bivalves, by Dr. Burt Carter, Georgia Southwestern State University, at: http://itc.gsw.edu/faculty/bcarter/paleo/labs/moll/biv2.htm
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