Jamaican monkey

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Jamaican monkey
Temporal range: Pleistocene-Holocene
Status iucn3.1 EX.svg
Extinct  (c.1050 [1] )  (IUCN 3.1) [2]
Scientific classification Red Pencil Icon.png
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Primates
Suborder: Haplorhini
Infraorder: Simiiformes
Family: Pitheciidae
Subfamily: Pitheciinae
Tribe: Xenotrichini
Genus: Xenothrix
Williams & Koopman, 1952
Species:
X. mcgregori
Binomial name
Xenothrix mcgregori
Williams & Koopman, 1952

The Jamaican monkey (Xenothrix mcgregori) is an extinct species of New World monkey that was endemic to Jamaica. It was first uncovered at Long Mile Cave by Harold Anthony in 1920.

Contents

Discovery

Harold Anthony is responsible for many species descriptions of Caribbean taxa during the 1920s[ citation needed ] and his field notes record the discovery of the monkey material:

“January 17 – Spent all day digging in the long mile cave and secured some good bones. The most important find was the lower jaw and femur of a small monkey, found in the yellow limestone detritus. It was not associated with the human remains but not so far from them that the animal must not be strongly suspected as an introduced species. It was deeper than any of the human bones by at least 10” to 1’…” (reproduced in Williams and Koopman, 1952)

The eventual species description was not completed until 1952 when two graduate students, Ernest Williams and Karl Koopman, found the associated femur and mandibular fragment forgotten in a drawer at the American Museum of Natural History. They remained wary in describing the primate taxonomically as it had shared characteristics with a number of platyrrhine taxa. [3]

Analysis

The small mandible has a dental formula of 2 incisors, 1 canine, 3 premolars and 2 molars – a departure from the vast majority of living platyrrhines (with the notable exception of the callitrichines). It is significantly larger than the living callitrichines, and work by Rosenberger has largely eliminated the possibility that these taxa share a close phylogenetic relationship. Rosenberger suggested that the absence of the third molar in Xenothrix was not homologous with the character state in callitrichines. He based his assessment on the length of the molars relative to the molar row, and the inferred retention of hypocones on M1-2, which have been greatly reduced in the marmosets and tamarins. He further suggested that Xenothrix shared a close phylogenetic affinity with the genera Callicebus or Aotus . His conclusions were tentative due to the fragmentary nature of the material.

The postcranial remains discovered by Anthony in the 1920s were eventually described by MacPhee and Fleagle [4] who attributed the femur, os coxae, and tibia to the order Primates. MacPhee and Fleagle [4] stated that the primate postcrania bore little resemblance to modern forms, but they interpreted the femur as being indicative of slow climbing. The femur also shares some similarities with Potos flavus, the kinkajou. They provisionally accepted Hershkovitz's family Xenotrichidae until further analysis could fully elucidate the relationships of Xenothrix.

Further research

In the 1990s, several expeditions to Jamaican cave sites resulted in the recovery of additional cranial and postcranial material attributed to Xenothrix, including a partial lower face containing the palate with left and right P4-M2, most of the maxilla and parts of the sphenoid. This discovery confirmed that the dental formula of this taxon is 2.1.3.2. With the new partial face, Horovitz and MacPhee [5] were able to further develop the hypothesis, first proposed by MacPhee et al., [6] that all the Antillean monkeys (the others being the two Cuban monkey species of genus Paralouatta and Insulacebus toussaintiana and Antillothrix bernensis of Hispaniola) belonged to a monophyletic group linked most closely with modern Callicebus.

Rosenberger has objected to this hypothesis and has suggested that Xenothrix was a Jamaican owl monkey, [7] thus modifying his earlier view. He based his conclusions on the fairly large orbit size as inferred from the preserved orbital rim, large inferior orbital fissure, and the large I1 alveolus as compared to the I2 alveolus. These characters are shared with Aotus. MacPhee and Horovitz [8] tested this alternative phylogeny with extensive anatomical comparisons and by extending their parsimony analysis using PAUP*. [9] They maintained that the monophyly of the Antillean monkeys was still supported in the most parsimonious trees, but in slightly less parsimonious trees, Aotus does appear to be linked with Xenothrix. MacPhee and Horovitz [8] assigned the Antillean monkeys to the tribe Xenotrichini – the sister group of the tribe Callicebini.

DNA analysis indicates that the species is a type of titi monkey, sister to the recently recognized northern South American genus Cheracebus , that colonized Jamaica around 11 million years ago. This is younger than the oldest fossils of monkeys on Cuba, meaning that the Jamaican monkey has a separate origin from the other monkeys of the Greater Antilles. [10]

Related Research Articles

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Aegyptopithecus is an early fossil catarrhine that predates the divergence between hominoids (apes) and cercopithecids. It is known from a single species, Aegyptopithecus zeuxis, which lived around 38-29.5 million years ago in the early part of the Oligocene epoch. It likely resembled modern-day New World monkeys, and was about the same size as a modern howler monkey, which is about 56 to 92 cm long. Aegyptopithecus fossils have been found in the Jebel Qatrani Formation of modern-day Egypt. Aegyptopithecus is believed to be a stem-catarrhine, a crucial link between Eocene and Miocene fossils.

<i>Archaeoindris</i> Extinct giant lemur

Archaeoindris fontoynontii is an extinct giant lemur and the largest primate known to have evolved on Madagascar, comparable in size to a male gorilla. It belonged to a family of extinct lemurs known as "sloth lemurs" (Palaeopropithecidae) and, because of its extremely large size, it has been compared to the ground sloths that once roamed North and South America. It was most closely related to Palaeopropithecus, the second largest type of sloth lemur. Along with the other sloth lemurs, Archaeoindris was related to the living indri, sifakas, and woolly lemurs, as well as the recently extinct monkey lemurs (Archaeolemuridae). The genus, Archaeoindris, translates to "ancient indri-like lemur", even though it probably became extinct recently, around 350 BCE.

<i>Paralouatta</i> Extinct genus of new world monkeys

Paralouatta is a platyrrhine genus that currently contains two extinct species of small primates that lived on the island of Cuba.

The Hispaniola monkey is an extinct primate that was endemic on the island of Hispaniola, in the present-day Dominican Republic. The species is thought to have gone extinct around the 16th century. The exact timing and cause of the extinction are unclear, but it is likely related to the settlement of Hispaniola by Europeans after 1492.

<span class="mw-page-title-main">Xenotrichini</span> Extinct tribe of monkeys

Xenotrichini is a tribe of extinct primates, which lived on the Greater Antilles as recently as the 16th century.

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Insulacebus is an extinct monotypic genus of New World monkey found on the island of Hispaniola from Late Quaternary deposits. Fossils of the type species Insulacebus toussaintiana have been recovered from the Plain of Formon, Department du Sud, southwestern Haiti. The body mass of the monkey was estimated between 4,159 and 5,443 grams. The dentally primitive I. toussaintiana was likely derived from a fauna that was evolving on the mainland before the Miocene monkey bed of the Honda Group of central Colombia, and stems from a pre-Middle Miocene colonization from the South American mainland.

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<i>Cebupithecia</i> Single-species extinct genus of monkeys

Cebupithecia is an extinct genus of New World monkeys from the Middle Miocene. Its remains have been found at the Konzentrat-Lagerstätte of La Venta in the Honda Group of Colombia. The type species is C. sarmientoi.

Lagonimico is an extinct genus of New World monkeys from the Middle Miocene. Its remains have been found at the Konzentrat-Lagerstätte of La Venta in the Honda Group of Colombia. The type species is L. conclucatus.

Micodon is an extinct genus of New World monkeys from the Middle Miocene. Its remains have been found at the Konzentrat-Lagerstätte of La Venta in the Honda Group of Colombia. The type species is M. kiotensis, a very small monkey among the New World species.

Mohanamico is an extinct genus of New World monkeys from the Middle Miocene. Its remains have been found at the Konzentrat-Lagerstätte of La Venta in the Honda Group of Colombia. The type species is M. hershkovitzi. Due to the relatively few material found of Mohanamico, the placement of the genus is not certain and four possible families have been proposed by different authors, Atelidae, Callitrichidae, Pitheciidae or Aotidae.

Patasola is an extinct genus of New World monkeys from the Middle Miocene. Its remains have been found at the Konzentrat-Lagerstätte of La Venta in the Honda Group of Colombia. The type species is Patasola magdalenae.

Saimiri annectens, originally described as Laventiana annectens and later as Neosaimiri annectens, is an extinct species of New World monkey in the genus Saimiri from the Middle Miocene. Its remains have been found at the Konzentrat-Lagerstätte of La Venta in the Honda Group of Colombia.

Saimiri fieldsi is an extinct species of New World monkey in the genus Saimiri from the Middle Miocene. Its remains have been found at the Konzentrat-Lagerstätte of La Venta in the Honda Group of Colombia.

<span class="mw-page-title-main">Megalocnidae</span> Extinct Greater Antilles sloth family

Megalocnidae is an extinct family of sloths, native to the islands of the Greater Antilles from the Early Oligocene to the Mid-Holocene. They are known from Cuba, Hispaniola and Puerto Rico, but are absent from Jamaica. While they were formerly placed in the Megalonychidae alongside two-toed sloths and ground sloths like Megalonyx, recent mitochondrial DNA and collagen sequencing studies place them as the earliest diverging group basal to all other sloths. They displayed significant diversity in body size and lifestyle, with Megalocnus being terrestrial and probably weighing several hundred kilograms, while Neocnus was likely arboreal and similar in weight to extant tree sloths, at less than 10 kilograms.

References

  1. Cooke, Siobhán B.; Mychajliw, Alexis M.; Southon, John; MacPhee, Ross D E. (2017). "The extinction of Xenothrix mcgregori, Jamaica's last monkey". Journal of Mammalogy. 98 (4): 937–949. doi: 10.1093/jmammal/gyw165 .
  2. MacPhee, R. (2021). "Xenothrix mcgregori". IUCN Red List of Threatened Species . 2021: e.T136515A17976302. doi: 10.2305/IUCN.UK.2021-2.RLTS.T136515A17976302.en . Retrieved 19 November 2021.
  3. Williams, E. E.; Koopman, K.F. (1952). "West Indian Fossil Monkeys". American Museum Novitates (1546): 16.
  4. 1 2 MacPhee, R.D.E.; Fleagle, J. (1991). "Postcranial Remains of Xenothrix mcgregori (Primates, Xenotrichidae) and Other Late Quaternary Mammals from Long Mile Cave, Jamaica". Bulletin of the American Museum of Natural History. 206: 287–321.
  5. Horovitz, I.; MacPhee, R.D.E. (1999). "The quaternary Cuban platyrrhine Paralouatta varonai and the origin of the Antillean monkeys". Journal of Human Evolution. 36 (1): 33–68. doi:10.1006/jhev.1998.0259. PMID   9924133.
  6. MacPhee, R.D.E.; et al. (1995). "A New Genus for the Extinct Hispaniolan Monkey Saimiri bernensis Rímoli, 1977, with Notes on Its Systematic Position". American Museum Novitates (3134): 21.
  7. Rosenberger, A.L. (2002). Platyrrhine paleontology and systematics: The paradigm shifts. In Hartwig, W., (ed.) The Primate Fossil Record. Cambridge: Cambridge University Press, pp. 151–159.
  8. 1 2 MacPhee, R. D. E.; Horovitz, I. (14 May 2004). "New craniodental remains of the quaternary Jamaican monkey Xenothrix mcgregori (Xenotrichini, Callicebinae, Pitheciidae), with a reconsideration of the Aotus hypothesis". American Museum Novitates (3434): 1–51. doi:10.1206/0003-0082(2004)434<0001:NCROTQ>2.0.CO;2. S2CID   86051925.
  9. Swofford, D.L. (2002) PAUP*: phylogenetic analysis using parsimony (* and other methods) Version 4. Sinauer, Sunderland, MA
  10. Woods, R.; Turvey, S.T.; Brace, S.; MacPhee, R.D.E.; Barnes, I. (12 November 2018). "Ancient DNA of the extinct Jamaican monkey Xenothrix reveals extreme insular change within a morphologically conservative radiation". PNAS . 115 (50): 12769–12774. doi: 10.1073/pnas.1808603115 . PMC   6294883 . PMID   30420497.

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