Zygomatic plate

In rodent anatomy, the zygomatic plate is a bony plate derived from the flattened front part of the zygomatic arch (cheekbone).[1] At the back, it connects to the front (maxillary) root of the zygomatic arch, and at the top it is connected to the rest of the skull via the antorbital bridge.[2] It is part of the maxillary bone, or upper jaw, which also contains the upper cheekteeth. Primitively, rodents have a nearly horizontal zygomatic plate.[3] In association with specializations in zygomasseteric system, several distinct morphologies have developed across the order.

Skull, seen from the left, with a red circle around a bony plate before and above the upper first molar.
Skull of Rattus macleari with the left zygomatic plate indicated.

The term is also used for an analogous structure in some South American typotheres, including Pseudotypotherium[4] and Medistylus.[5]

Function

The zygomatic plate serves to resist muscular tension resulting from the contraction of the incisors by the anterior deep masseter muscle; thus, rodents which pulverize hard food with the incisors tend to have broader zygomatic plates than those that rather use their molars for this purpose.[6]

Hystricomorpha

The members of this large and diverse suborder have a narrow, low zygomatic plate.[7]

Sciuromorpha

The suborder Sciuromorpha includes three families.[8] Squirrels (family Sciuridae) tend to have broad zygomatic plate that extend above the infraorbital foramen.[9] The mountain beaver (Aplodontia rufa), the only surviving member of its family, retains the primitive narrow and low plate.[10] The dormice (Gliridae) have broad, high zygomatic plates,[11] except for Graphiurus, which has a lower plate.[12]

Castorimorpha

Members of the suborder Castorimorpha, which includes the beavers, pocket gophers, and pocket mice,[8] tend to have broad zygomatic plate that extend above the infraorbital foramen.[13]

Anomaluromorpha

Anomaluromorpha is a small suborder, containing only two families.[8] Anomaluridae have a low and narrow zygomatic plate.[14] Members of the subfamily Idiurinae are atypical in having the zygomatic plate extended forward nearly to the incisors.[15] The condition in the springhaas (Pedetes) is similar.[15]

Myomorpha

Myomorpha is the largest suborder of rodents.[8] In the most numerous subgroup, the Muroidea (including all living families except Dipodidae), the zygomatic plate is generally broad and tilted upwards.[16] Muroids may have the plate extending in front of the front (maxillary) root of the actual zygomatic arch, creating a zygomatic notch.[17] In some, the plate extends at the front into a spinous process, the zygomatic spine.[18]

Dipodidae

Members of the family Dipodidae, which have hystricomorphous zygomasseteric morphology, have nearly horizontal, narrow zygomatic plates.[19]

Platacanthomyidae

Members of the small family Platacanthomyidae have a relatively narrow zygomatic plate.[20]

Spalacidae

The fossorially specialized family Spalacidae shows peculiarities in the condition of the zygomatic plate. In Tachyoryctes and the Rhizomyinae, it is tilted upward and fused to the sides of the snout (rostrum).[20] In the Spalacinae and Myospalacinae, on the other hand, the plate is tilted downward into an almost horizontal position.[21]

Calomyscidae

The mouse-like hamster (Calomyscus), the only member of its family, has a straight front margin on the zygomatic plate.[22]

Nesomyidae

The family Nesomyidae is restricted to Africa.[23]

Dendromus has a narrow zygomatic plate,[24] as do Steatomys[25] and Prionomys.[26]

Brachyuromys has an arvicoline-like high zygomatic plate.[27] In Eliurus, the front border of the plate is straight.[28] Nesomys has a low zygomatic plate.[29] In Hypogeomys, it is broad, but rather low.[30]

Muridae

Muridae is the order's largest family, and contains several subfamilies.[23]

Deomys, a member of the Deomyinae, has an unusually low zygomatic plate,[27] as does Lophuromys, a member of the same subfamily.[31]

Most members of the subfamily Murinae, the Old World rats and mice, have a fairly broad zygomatic plate with a well-developed zygomatic notch.[32] A zygomatic spine is developed in some Australian genera, including Notomys and some Pseudomys. Except for Xeromys, Hydromys and related genera ("hydromyines") have a narrow plate, lacking the notch, as does Hyomys,[32] Macruromys, Crunomys,[31] and Rhynchomys.[33] The Philippine Batomys, Carpomys, and Crateromys have well-developed zygomatic plates, reminiscent of those in Arvicolinae.[34] Phloeomys has a broad zygomatic plate.[35]

Cricetidae

The family Cricetidae is the order's second largest, containing several subfamilies and hundreds of species.[23]

The subfamily Arvicolinae, the voles and lemmings, has the zygomatic plate tilted upwards very strongly.[27]

In the subfamily Tylomyinae, Nyctomys has a narrow zygomatic plate.[36]

Among members of the Neotominae, Baiomys, Reithrodontomys, Onychomys, and Peromyscus has a narrow zygomatic plate.[37]

Members of the subfamily Sigmodontinae, which includes a number of tribes, usually have the antorbital bridge below the upper surface of the skull.[2] Most have a zygomatic notch.[17] The extent of the zygomatic plate at the back is also variable within Sigmodontinae, with some having the plate extending back to the level of the first upper molar and others having shorter plates.[38]

Members of the semiaquatic tribe Ichthyomyini are unique among the Sigmodontinae in lacking the zygomatic notch.[39] In ichthyomyines, the development of the zygomatic plate is correlated with the development of the teeth: those species with large molars and small incisors, including species of Anotomys and Rheomys, have slender plates that do not extend back to the first molars, whereas those with larger incisors and smaller molars, including some Ichthyomys and Neusticomys, have broader zygomatic plates that do reach the level of the first molars.[40]

The genus Sigmodon, which is classified in its own tribe, has a broad zygomatic plate and a zygomatic spine.[41] Relative width of the zygomatic plate can distinguish some species of Sigmodon.[42]

Most members of the tribe Phyllotini have the antorbital bridge located higher than is usual in Sigmodontinae (Calomys and Andalgalomys show the normal sigmodontine condition). A similar condition characterizes Euneomys, Neotomys, Reithrodon, which are no longer considered phyllotines, but to an even larger extent than in most actual phyllotines; in Euneomys, the antorbital bridge is inserted on the upper surface of the skull.[43] Most phyllotines have zygomatic spines, but the structure is more well-developed in Reithrodon.[44] The zygomatic plate not extending backwards to the first molars is a diagnostic character of phyllotines.[45]

Most thomasomyines lack a well-developed zygomatic notch.[44] The genus Rhipidomys has a narrow zygomatic plate, no zygomatic spine and only a narrow notch.[46] Thomasomys shares a narrow zygomatic plate.[47]

In the Akodontini, Oxymycterus and Lenoxus have a low zygomatic plate, similar to that of Lophuromys.[48] Scapteromys shares a low plate.[49] In Akodon, the plate is narrow,[50] as in many others akodontine; this is extremely so in Blarinomys.[51]

The tribe Abrotrichini is characterized by a narrow zygomatic plate, without an extension at the upper border.[52]

In the tribe Oryzomyini, the configuration of the zygomatic plate is variable. Most have a well-developed zygomatic notch. In the three related genera Holochilus, Pseudoryzomys, and Lundomys, this extension has further developed into a zygomatic spine. In contrast, Microryzomys, Oreoryzomys, Oecomys, Scolomys, and Sigmodontomys aphrastus lack a well-defined notch and do not have the plate extending appreciably in front of the root of the zygomatic arch.[53] The zygomatic plate extending back to the level of the upper first molar is a putative synapomorphy of Clade C within Oryzomyini.[54]

The sigmodontine Juliomys pictipes has an almost vertical zygomatic plate.[55]

References

  1. Voss, 1988, p. 271
  2. Steppan, 1995, p. 29
  3. Wood, 1935, p. 246
  4. Patterson, 1934, p. 124
  5. Reguero et al., 2007, p. 1305
  6. Voss, 1988, pp. 408–410
  7. Ellerman, 1940, pp. 24–29, 33; Jenkins et al., 2005, p. 427
  8. Carleton and Musser, 2005
  9. Ellerman, 1940, p. 30; Miller and Gidley, 1918, pp. 432–433
  10. Ellerman, 1940, p. 29
  11. Ellerman, 1940, p. 37
  12. Ellerman, 1940, p. 36
  13. Ellerman, 1940, p. 31; Miller and Gidley, 1918, pp. 432–433
  14. Ellerman, 1940, p. 32
  15. Ellerman, 1940, p. 33
  16. Ellerman, 1940, p. 35; Ellerman, 1941, pp. 1–2
  17. Steppan, 1995, p. 30; Weksler, 2006, p. 32
  18. Steppan, 1995, p. 30; Weksler, 2006, fig. 17
  19. Wood, 1935, p. 246; Ellerman, 1940, p. 34
  20. Miller and Gidley, 1918, p. 437; Ellerman, 1940, p. 37
  21. Miller and Gidley, 1918, p. 438; Ellerman, 1940, p. 37
  22. Ellerman, 1941, p. 404
  23. Musser and Carleton, 2005
  24. Ellerman, 1941, p. 307
  25. Ellerman, 1941, p. 311
  26. Ellerman, 1941, p. 315
  27. Ellerman, 1941, p. 6
  28. Ellerman, 1941, p. 76
  29. Ellerman, 1941, p. 376
  30. Ellerman, 1941, p. 481
  31. Ellerman, 1941, p. 56
  32. Tate, 1951, p. 210
  33. Ellerman, 1941, p. 296
  34. Ellerman, 1941, p. 48
  35. Ellerman, 1941, p. 292
  36. Ellerman, 1941, p. 375
  37. Ellerman, 1941, pp. 378, 385, 401, 404
  38. Weksler, 2006, p. 32
  39. Voss, 1988, p. 284
  40. Voss, 1988, pp. 289–290
  41. Voss, 1992, p. 13
  42. Voss, 1992, p. 35
  43. Steppan, 1995, pp. 28–29; D'Elía et al., 2007, pp. 191–192
  44. Steppan, 1995, p. 30
  45. Steppan, 1995, p. 72
  46. Patton et al., 2000, p. 162
  47. Ellerman, 1941, p. 367
  48. Ellerman, 1941, p. 330
  49. Ellerman, 1941, p. 426
  50. Ellerman, 1941, p. 407
  51. Ellerman, 1941, p. 422
  52. D'Elía et al., 2007, p. 188
  53. Weksler, 2006, pp. 31–32, fig. 17; Weksler et al., 2006, for nomenclature
  54. Weksler, 2006, p. 128
  55. Osgood, 1933, p. 12; Musser and Carleton, 2005, p. 1121

Literature cited

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