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== Description == |
== Description == |
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[[File:Tribosphenic molar diagram.png|left|thumb|A diagram of tribosphenic molars showing the terminology of certain parts of the tooth]] |
[[File:Tribosphenic molar diagram.png|left|thumb|A diagram of tribosphenic molars showing the terminology of certain parts of the tooth]] |
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=== Skull === |
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Members of Didymoconidae have been generally described as being medium to large ‘insectivores’ with larger members of the family like ”Archaeoryctes euryalis” having skull lengths of {{Convert|10|cm|in}}. The rostrum of the skull was made up of the premaxilla and nasal bones with this potentially leading to a very mobile nose in genera like ”Archaeoryctes”.<ref name=”:3″ /> The part of the maxilla within the orbit was bordered by the front bone which caused the lacrimal and palatine to lack contact. The tympanic bulla of didymoconids was made up of fused ectotympanic and entotympanic bones which caused it to become fully ossified. Compared to groups that were once assigned to Lipotyphla like hedgehogs, the zygomatic arches in Didymoconidae were much larger even though their jugal bones were majorly reduced in size and did not make contact with the lacrimal. The exact dental formula of taxa within the family differ but they do all share the trait of being reduced in some way with {{DentalFormula|upper=3-?.1.3-?.2|lower=2-0.1.3-2.2}} covering the range of dentition. The incisors were the smallest teeth in the dentition, being described as chisel-shaped, while the canines were but far the largest teeth. Didymoconid canines were generally similar to what is seen in other mammals. The premolars are simple with the fourth premolar on both the top and bottom dentitions being much more similar to the molars than the other premolars. The teeth that differ that most between the top and bottom dentitions are the molars. A large amount of the grooves of the molars such as the paracone and metacone of the upper molars and the protoconid and metaconid of the lower molars are very close together, also referred to as “twinned”<ref>{{Cite journal |last=Tabuce |first=Rodolphe |last2=Clavel |first2=Julien |last3=Antunes |first3=Miguel Telles |date=2011 |title=A structural intermediate between triisodontids and mesonychians (Mammalia, Acreodi) from the earliest Eocene of Portugal |url=http://link.springer.com/10.1007/s00114-010-0747-y |journal=Naturwissenschaften |language=en |volume=98 |issue=2 |pages=145–155 |doi=10.1007/s00114-010-0747-y |issn=0028-1042}}</ref><ref name=”:2″ /> |
Members of Didymoconidae have been generally described as being medium to large ‘insectivores’ with larger members of the family like ”Archaeoryctes euryalis” having skull lengths of {{Convert|10|cm|in}}. The rostrum of the skull was made up of the premaxilla and nasal bones with this potentially leading to a very mobile nose in genera like ”Archaeoryctes”.<ref name=”:3″ /> The part of the maxilla within the orbit was bordered by the front bone which caused the lacrimal and palatine to lack contact. The tympanic bulla of didymoconids was made up of fused ectotympanic and entotympanic bones which caused it to become fully ossified. Compared to groups that were once assigned to Lipotyphla like hedgehogs, the zygomatic arches in Didymoconidae were much larger even though their jugal bones were majorly reduced in size and did not make contact with the lacrimal. The exact dental formula of taxa within the family differ but they do all share the trait of being reduced in some way with {{DentalFormula|upper=3-?.1.3-?.2|lower=2-0.1.3-2.2}} covering the range of dentition. The incisors were the smallest teeth in the dentition, being described as chisel-shaped, while the canines were but far the largest teeth. Didymoconid canines were generally similar to what is seen in other mammals. The premolars are simple with the fourth premolar on both the top and bottom dentitions being much more similar to the molars than the other premolars. The teeth that differ that most between the top and bottom dentitions are the molars. A large amount of the grooves of the molars such as the paracone and metacone of the upper molars and the protoconid and metaconid of the lower molars are very close together, also referred to as “twinned”<ref>{{Cite journal |last=Tabuce |first=Rodolphe |last2=Clavel |first2=Julien |last3=Antunes |first3=Miguel Telles |date=2011 |title=A structural intermediate between triisodontids and mesonychians (Mammalia, Acreodi) from the earliest Eocene of Portugal |url=http://link.springer.com/10.1007/s00114-010-0747-y |journal=Naturwissenschaften |language=en |volume=98 |issue=2 |pages=145–155 |doi=10.1007/s00114-010-0747-y |issn=0028-1042}}</ref><ref name=”:2″ /> |
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Revision as of 18:20, 3 December 2025
History and Classification
The type genus of Didymoconidae, Didymoconus, was first described in W. D. Matthew and W. Granger in 1924 based on a fairly complete skull and mandibles; all of these being found within the sediments of the Hsanda Gol Formation.[1] Since this original publication, didymoconids would be occasionally published on with all records of the family being located in Central Asia. Similar to a large amount of other early Cenozoic mammal groups, the exact placement of Didymoconidae within Eutheria has not remained consistent. In their original publication, Matthew and Granger would place it within Carnivora though compare the family to other groups such as Leptictidae and Mesonychidae. Other authors would place the family close to a number of other groups such as Creodonta, Lagomorpha, Hapalodectidae, and Macroscelidea though the suggestions made in the 1924 publication would still be brought up from time to time. One example of this is when authors such as Gingerich and Wang would push towards Didymoconidae having a close relationship with Mesonychidae. Authors would go as far as placing the mesonychid Yantanglestes as the ancestor of Didymoconidae. Another genus, Wyolestes, would also be suggested to be part of the family and would even be placed within its own subfamily, Wyolestinae, during this time but authors such as Meng would argue against the assignment. Men specifically argued against the genus being placed as a member of Didymoconidae due to a lack of shared, more derived features.[2] This would be corroborated not only when more complete material of Wyolestes would be described in 1987 and 1991 but also when a 2025 study by Shawn P. Zack and coauthors would place the genus as a hyeanodont based on both cranial and postcranial material.[3]
A number of features in the cranium also suggested that Didymoconidae could have been closely related to the now obsolete orders Insectivora and Lipotyphla.[2] During the early 1990’s and early 2000’s, a pair of papers would be published in A. V. Lopatin which would name a total of three subfamilies. The first paper would be published in 1997 and would name the subfamilies Ardynictinae and Didymoconinae to describe two lineages that were noticed in the family. They would be defined by how each subfamily reached the similar result of an open talonid and cutting hypoconid on the lower fourth premolar. There would also be other differences noted such the presence of hypocones on the upper fourth premolar to second molar in Ardynictinae.[4] A third subfamily, Kennatheriinae, would be named by Lopatin in a 2006 publication based on differences in the dentition along with the shape of the angular and coronoid processes on the mandible.[5] The first and only cladistic analysis of the family would be done by Pieter Missiaen and coauthors in 2016 which would test the relationships within Didymoconidae along with a number of other groups that it has been suggested to be placed near. These groups included Zalambdalestidae, Nyctitheriidae, and Leptictida along with a similar Asian mammal group from the same time, Sarcodontidae. This analysis would show that Ardynictinae was a paraphyletic group of stem didymoconids though would find the other two subfamilies as monophyletic. Below is the cladogram from the 2016 publication.[6]
The type genus Didymoconus would be included in a cladogram within the 2025 publication by Shawn P. Zack and coauthors and would find it in a number of positions such as being close to Mesonyx and Afrosoricida though both of these results were weakly supported. Even with this being the case, the most parsimonious tree in the publication would place Didymoconus as sister to Mesonyx, agreeing with a number of previous papers that suggested a close relationship between Didymoconidae and Mesonychidae.[3] Though not common, Didymoconidae is sometimes assigned to the order Didymoconidae with it being the only group within it.[5]
Description
Skull
Members of Didymoconidae have been generally described as being medium to large ‘insectivores’ with larger members of the family like Archaeoryctes euryalis having skull lengths of 10 centimetres (3.9 in). The rostrum of the skull was made up of the premaxilla and nasal bones with this potentially leading to a very mobile nose in genera like Archaeoryctes.[6] The part of the maxilla within the orbit was bordered by the front bone which caused the lacrimal and palatine to lack contact. The tympanic bulla of didymoconids was made up of fused ectotympanic and entotympanic bones which caused it to become fully ossified. Compared to groups that were once assigned to Lipotyphla like hedgehogs, the zygomatic arches in Didymoconidae were much larger even though their jugal bones were majorly reduced in size and did not make contact with the lacrimal. The exact dental formula of taxa within the family differ but they do all share the trait of being reduced in some way with 3-?.1.3-?.22-0.1.3-2.2 covering the range of dentition. The incisors were the smallest teeth in the dentition, being described as chisel-shaped, while the canines were but far the largest teeth. Didymoconid canines were generally similar to what is seen in other mammals. The premolars are simple with the fourth premolar on both the top and bottom dentitions being much more similar to the molars than the other premolars. The teeth that differ that most between the top and bottom dentitions are the molars. A large amount of the grooves of the molars such as the paracone and metacone of the upper molars and the protoconid and metaconid of the lower molars are very close together, also referred to as “twinned”[7][5]
Evolutionary history
Paleoecology
References
- ^ Matthew, W. D.; Granger, Walter (1924). “NEW CARNIVORA FROM THE TERTIARY OF MONGOLIA”. AMERICAN MUSEUM NOVITATES. 104.
- ^ a b Meng, Jin; Suyin, Ting; Schiebout, Judith A. (1995-02-15). “The cranial morphology of an early Eocene didymoconid (Mammalia, Insectivora)”. Journal of Vertebrate Paleontology. 14 (4): 534–551. doi:10.1080/02724634.1995.10011576. ISSN 0272-4634.
- ^ a b Zack, Shawn P.; Rose, Kenneth D.; O’Leary, Maureen A. (2025-06-24). “New Cranial and Postcranial Remains of the Once Enigmatic Early Eocene Mammal Wyolestes (Mammalia, Ferae, Hyaenodonta) from North America, and Phylogenetic Evidence for its Interordinal Relationships”. Bulletin of the American Museum of Natural History. 2025 (475). doi:10.1206/0003-0090.475.1.1. ISSN 0003-0090.
- ^ Lopatin, A. V. (1997). “New Oligocene Didymoconidae (Mesonychia, Mammalia) from Mongolia and Kazakhstan”. Paleontological Journal. 31 (1).
- ^ a b c Lopatin, A. V. (2006). “Early Paleogene insectivore mammals of Asia and establishment of the major groups of Insectivora”. Paleontological Journal. 40 (S3): S205 – S405. doi:10.1134/s0031030106090012. ISSN 0031-0301.
- ^ a b Missiaen, P.; Solé, F.; Bast, Eric de; Yang, Jian; Li, Cheng-Sen; Smith, T. (2013-10-10). “A new species of Archaeoryctes from the Middle Paleocene of China and the phylogenetic diversification of Didymoconidae”. Geologica Belgica. 16 (4): 245–253.
- ^ Tabuce, Rodolphe; Clavel, Julien; Antunes, Miguel Telles (2011). “A structural intermediate between triisodontids and mesonychians (Mammalia, Acreodi) from the earliest Eocene of Portugal”. Naturwissenschaften. 98 (2): 145–155. doi:10.1007/s00114-010-0747-y. ISSN 0028-1042.
