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Strepsirrhines; Fossil range: Early Eocene - Recent
	Coquerel's Sifaka (Propithecus coquereli)
Scientific classification
Kingdom:	Animalia;
Phylum:	Chordata;
Class:	Mammalia;
Order:	Primates;
Suborder:	Strepsirrhini; E. Geoffroy, 1812
Families
	Cheirogaleidae; Lemuridae; Lepilemuridae; Indriidae; Daubentoniidae (Aye-aye); Lorisidae; Galagidae

The clade Strepsirrhini is one of the two suborders of primates. One of the most distinguishing characteristics of these 118 species is their wet noses, and it is this feature for which the grouping is named. The Greek name means having a curved or bent nose (a terpsimbrotos compound of strepho "bend" and rhis "nose"). Madagascar's only primates (apart from humans) are strepsirrhines, although others can be found in southeast Asia and Africa.

Strepsirrhines are considered to have more primitive features and adaptations than their haplorrhine ("dry-nose", in Greek "simple nose") cousins. Their moist nose is connected to the upper lip, which is connected to the gum, giving them a limit to the facial expressions they can manage. Their brain to body ratio tends to be smaller, indicating a lower intelligence. Their brain's olfactory lobes are larger, lending to the notion that they have a stronger reliance on smell. Their snouts are generally elongated giving them a dog-like appearance, although this is true of some monkeys, too. Strepsirrhines also have a post-orbital bar, adding to the primitive nature when compared to the suborder Haplorrhini. The strepsirrhines have also retained the ability to enzymatically manufacture vitamin C, which has been lost by all the haplorrhines, including the Tarsiidae.^[2]

With the exception of the Aye-aye, all strepsirrhines have a toothcomb—tightly clustered incisors and canine teeth—that is used for grooming. Another grooming adaptation is a toilet-claw on the second toe of all strepsirrhines, while the big toe is widely separated from the others allowing a vise-like grip for locomotion.

About 75% of species are nocturnal and all of these have a tapetum, a shiny, reflective layer in the back of their eyes, although several diurnal species like the Ring-tailed Lemur have it as well. Many of the nocturnal species also have very sensitive hearing and ears they can move independently, allowing them to capture sounds even better.

Strepsirrhine reproduction differs greatly from haplorrhine reproduction. Instead of an individual cycle, strepsirrhines have a breeding season. They also have a litter of offspring and the females have a Y-shaped (bicornate) uterus and multiple sets of nipples.

[edit] Classification and evolution

Archaeolemur majori skull

The suborder Strepsirrhini is composed of seven families split into two groups. The first group is the infraorder Lemuriformes, five families of primates typically called lemurs. The other two families are split with the lorises, pottos and the galagos in the infraorder Lorisiformes.

As recently as 2005, the Aye-aye was tentatively placed in its own infraorder (Chiromyiformes). It was uncertain whether this unique primate split off from the ancestral strepsirrhine line before the lemurs and lorises, or after. If the Aye-aye represents a group that is ancestral to all the rest of Strepsirrhini, then it evolved away from the strepsirrhine line between 63 million years ago (mya) (when the strepsirrhines split from the primitive primate line) and 50 mya (the lemur/loris split). If Chiromyiformes is to be considered as the sister only to the lemurs, then it must have evolved after the lemur/loris split 50 mya. In 2008, the Aye-aye and its family, Daubentonia, were placed back in infraorder Lemuriformes, making it the fifth lemur family.^[3] Molecular research had shown that Aye-ayes were basal to the lemuriform clade.^[4]

Early classification schemes broke the Primate order into the suborders Prosimii (prosimians) and Anthropoidea (simians - monkeys and apes). However, the prosimian tarsiers have been shown to be more closely related to the simians, and so it has been joined with the simians. Prosimii are now renamed Strepsirrhini, and Anthropoidea are now renamed Haplorrhini. Other classifications split Strepsirrhini directly into four superfamilies: Daubentonioidea, Lemuroidea, Loroidea (including Cheirogaleidae) and Indroidea. However, significant evidence suggests that Cheirogaleidae is not related to the lorises, and that Indridae is sister-group to Lemuridae.

The strepsirrhine phylogeny has also been elucidated by Retrotransposon presence/absence data.

The adapids are an extinct polyphyletic grouping that were most certainly prosimians and closely related to the strepsirrhines. The omomyids are another extinct group of prosmians but they are believed to be haplorhines, closely related to the tarsiers, but an outgroup to the rest of the haplorhines.

Order Primates
- Suborder Strepsirrhini: non-tarsier prosimians
  - Infraorder Lemuriformes
    - Family Cheirogaleidae: dwarf and mouse lemurs (32 species)
    - Family Daubentoniidae: Aye-aye (1 species)
    - Family Lemuridae: lemurs (22 species)
    - Family Lepilemuridae: sportive lemurs (26 species)
    - Family Indriidae: woolly lemurs and allies (19 species)
  - Infraorder Lorisiformes
    - Family Lorisidae: lorises, pottos and allies (9 species)
    - Family Galagidae: galagos (19 species)
- Suborder Haplorrhini: tarsiers, monkeys and apes

[edit] References

Wikispecies has information related to: Strepsirrhini

^ Groves, C. (2005). Wilson, D. E., & Reeder, D. M.. ed. Mammal Species of the World (3rd ed.). Johns Hopkins University Press. pp. 111-127. ISBN 0-801-88221-4. http://www.bucknell.edu/msw3/browse.asp?id=12100002.
^ Pollock JI, Mullin RJ (May 1987). "Vitamin C biosynthesis in prosimians: evidence for the anthropoid affinity of Tarsius". Am J Phys Anthropol 73 (1): 65–70. doi:10.1002/ajpa.1330730106. PMID 3113259.
^ Mittermeier, R., Ganzhorn, J., Konstant, W., Glander, K., Tattersall, I., Groves, C., Rylands, A., Hapke, A., Ratsimbazafy, J., Mayor, M., Louis, E., Rumpler, Y., Schwitzer, C. & Rasoloarison, R. (December 2008). "Lemur Diversity in Madagascar". International Journal of Primatology 29 (6): 1607–1656. doi:10.1007/s10764-008-9317-y.
^ Yoder, A.D.; Vilgalys, R.; Ruvolo, M. (1996), "Molecular Evolutionary Dynamics of Cytochrome b in Strepsirrhine Primates: The Phylogenetic Significance of Third-Position Transversions", Molecular Biology and Evolution 13 (10): 1339–1350, http://www.biology.duke.edu/yoderlab/reprints/1996YoderVilgalysMBE.pdf

[edit] Others

Roos C, Schmitz J, Zischler H (2004) Primate jumping genes elucidate strepsirrhine phylogeny. Proc Natl Acad Sci U S A 101: 10650–10654.
Primate Taxonomy (Smithsonian Institution Press, 2001), Colin Groves (ISBN 1-56098-872-X)
Primates in Question (Smithsonian Institution Press, 2003), Robert W. Shumaker & Benjamin B. Beck (ISBN 1-58834-176-3)

[msw3-0] Groves, C. (2005). Wilson, D. E., & Reeder, D. M.. ed. Mammal Species of the World (3rd ed.). Johns Hopkins University Press. pp. 111-127. ISBN 0-801-88221-4. http://www.bucknell.edu/msw3/browse.asp?id=12100002.

[1] Pollock JI, Mullin RJ (May 1987). "Vitamin C biosynthesis in prosimians: evidence for the anthropoid affinity of Tarsius". Am J Phys Anthropol 73 (1): 65–70. doi:10.1002/ajpa.1330730106. PMID 3113259.

[Mittermeier2008-2] Mittermeier, R., Ganzhorn, J., Konstant, W., Glander, K., Tattersall, I., Groves, C., Rylands, A., Hapke, A., Ratsimbazafy, J., Mayor, M., Louis, E., Rumpler, Y., Schwitzer, C. & Rasoloarison, R. (December 2008). "Lemur Diversity in Madagascar". International Journal of Primatology 29 (6): 1607–1656. doi:10.1007/s10764-008-9317-y.

[Yoder-3] Yoder, A.D.; Vilgalys, R.; Ruvolo, M. (1996), "Molecular Evolutionary Dynamics of Cytochrome b in Strepsirrhine Primates: The Phylogenetic Significance of Third-Position Transversions", Molecular Biology and Evolution 13 (10): 1339–1350, http://www.biology.duke.edu/yoderlab/reprints/1996YoderVilgalysMBE.pdf

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