Taxonomy of lemurs
Lemurs were first classified in 1758 by Carl Linnaeus, and the taxonomy remains controversial today, with approximately 70 to 100 species and subspecies recognized, depending on how the term "species" is defined. Having undergone their own independent evolution on Madagascar, lemurs have diversified to fill many niches normally filled by other types of mammals. They include the smallest primates in the world, and once included some of the largest. Since the arrival of humans approximately 2,000 years ago, lemurs have become restricted to 10% of the island, or approximately 60,000 square kilometres (23,000 sq mi), and many face extinction. Concerns over lemur conservation have affected lemur taxonomy, since distinct species receive increased conservation attention compared to subspecies.
The relationship between the aye-aye and the rest of the lemurs has had the greatest impact on lemur taxonomy at the family rank and above. Genetic analysis of this relationship has also clarified lemur phylogeny and supports the hypothesis that lemurs rafted to Madagascar. Despite general agreement on phylogeny, the taxonomy is still under debate. At the genus level, the taxonomy has been relatively stable since 1931, but a number of additional genera have been recognized since then.
Since the 1990s, there has been a steep increase in the number of recognized lemur species and subspecies through the discovery of new species, the elevation of existing subspecies to full species status, and the recognition of new species among previously known populations that were not even distinct subspecies. Currently living lemur species are divided into five families and 15 genera. If the extinct subfossil lemurs are included, three families, eight genera, and 17 species would be added to the count. The recent rise in species numbers is due to both improved genetic analysis and a push in conservation to encourage the protection of isolated and distinct lemur populations. Not everyone in the scientific community supports these taxonomic changes, with some preferring instead an estimate of 50 living species.
Since their arrival on Madagascar, a biogeographically isolated island with a unique mammalian fauna, lemurs have diversified both in behavior and morphology. Their diversity rivals that of the monkeys and apes found throughout the rest of the world, especially when the recently extinct subfossil lemurs are considered. Ranging in size from the 30 g (1.1 oz) Madame Berthe's mouse lemur, probably the world's smallest primate, to the extinct 160–200 kg (350–440 lb) Archaeoindris fontoynonti, the largest known prosimian, lemurs evolved diverse forms of locomotion, varying levels of social complexity, and unique adaptations to the local climate. They went on to fill many niches normally occupied by monkeys, squirrels, woodpeckers, and large grazing ungulates. In addition to the incredible diversity between lemur families, there has also been great diversification among closely related lemurs.
The arrival of humans on the island 1,500 to 2,000 years ago has taken a significant toll, not only on the size of lemur populations, but also on their diversity. Due to habitat destruction and hunting, at least 17 species and 8 genera have gone extinct and many others have become threatened. Historically, lemurs ranged across the entire island inhabiting a wide variety of habitats, including dry deciduous forests, lowland forests, spiny thickets, subhumid forests, montane forest, and mangrove. Today, their collective range is restricted to 10% of the island, or approximately 60,000 km2 (23,000 sq mi). Most of the remaining forests and lemurs are found along the periphery of the island. The center of the island, the Hauts-Plateaux, was converted by early settlers to rice paddies and grassland through slash-and-burn agriculture, known locally as tavy. As erosion depleted the soil, the cyclical forest regrowth and burning ended as the forest gradually failed to return. In 2008, 41% of all lemur taxa were threatened with extinction while 42% were classified on the IUCN Red List as "Data Deficient".
Overview of taxonomic and phylogenetic classificationEdit
In the first volume of the 10th edition of Systema Naturae (1758), Carl Linnaeus, the founder of modern binomial nomenclature, created the genus Lemur to include three species: Lemur tardigradus (the red slender loris, now known as Loris tardigradus), Lemur catta (the ring-tailed lemur), and Lemur volans (the Philippine colugo, now known as Cynocephalus volans). Although the term "lemur" was at first intended for lorises, it was soon applied to the endemic Malagasy primates, which have been known as "lemurs" ever since. The name derives from the Latin term lemures, which refers to the "spirits of the dead" from Roman mythology. According to Linnaeus' own explanation, the name was selected because of the nocturnal activity and slow movements of the slender loris. Being familiar with the works of Virgil and Ovid and seeing an analogy that fit with his naming scheme, Linnaeus adapted the term "lemur" for these nocturnal primates. However, it has been commonly and falsely assumed that Linnaeus was referring to the ghost-like appearance, reflective eyes, and ghostly cries of lemurs. It has also been speculated that Linnaeus may also have known that the some Malagasy people have held legends that lemurs are the souls of their ancestors, but this is unlikely given that the name was selected for slender lorises from India.
Since the first taxonomic classification of lemurs, many changes have been made to lemur taxonomy. Within the primate order, treeshrews (order Scandentia) were considered basal, prosimian primates—close relatives of lemurs—until the 1980s. Colugos, also incorrectly referred to as "flying lemurs", were once considered lemur-like primates, but were reclassified as close relatives of bats, and more recently as close relatives of primates within their own order, Dermoptera. Primates, together with their closest relatives, the treeshrews, colugos, and long-extinct plesiadapiforms, form the taxonomically unranked Euarchonta clade within the Euarchontoglires. Lorisids, some of which were originally placed in the genus Lemur by Carl Linnaeus, have since been moved into either their own infraorder (Lorisiformes) or their own superfamily (Lorisoidea) within Lemuriformes.
For the Malagasy primate fauna, taxonomic nomenclature proliferated during the 1800s, with the aid of museum systematists, such as Albert Günther and John Edward Gray, as well as naturalists and explorers, such as Alfred Grandidier. This nomenclature was not sorted out until decades later, when Ernst Schwarz standardized it in 1931. It was not until the 1990s that this nomenclature started to see a new wave of taxonomic change.
Although Carl Linnaeus originally grouped the first "lemurs" he classified under the order Primates, lemurs and other non-human primates were later separated from humans by being placed in the order Quadrumana by Johann Friedrich Blumenbach in 1775. (He also placed humans in the order Bimana.) This view was upheld by other famous naturalists and zoologists of the time, including Étienne Geoffroy Saint-Hilaire (who first placed lemurs in Strepsirrhini in 1812), Georges Cuvier, and (initially) John Edward Gray. By 1862, William Henry Flower, a comparative anatomist, was arguing against moving strepsirrhines out of Quadrumana into Insectivora (a now-abandoned biological grouping), claiming that their brain had features transitional between other primates and "inferior" mammals. In 1863, Thomas Henry Huxley restored the order Primates to include humans, other apes, monkeys, lemurs, and even colugos. However, opposition continued with many specialists arguing that lemurs (or "Half-apes") should be placed in their own order. In 1873, English comparative anatomist St. George Jackson Mivart countered these arguments and proceeded to define the primates by a list of anatomical features.
|Closest lemur relations|
Since the 19th century, the classification of lemurs above the genus level has seen many changes. Early taxonomists proposed a variety of classifications for lemurs, but generally separated indriids from other lemurs and placed the aye-aye in a major group of its own; some classified the dwarf and mouse lemurs with the galagos. In 1915, William King Gregory published a classification that remained generally accepted over the next decades. He placed all the lemurs together in a "series" Lemuriformes and recognized three families: Daubentoniidae, Indriidae, and Lemuridae (including the current Cheirogaleidae and Lepilemuridae). George Gaylord Simpson's influential 1945 classification of mammals placed the treeshrews and the fossil Anagale (both now classified outside Primates) inside Lemuriformes and classified the fossil families Plesiadapidae and Adapidae in a superfamily Lemuroidea with most of the lemurs.
Although treeshrews, plesiadapids, and the like are now no longer considered to be closely related to lemurs, disagreements persist over the classification of lemurs and related groups, resulting in competing arrangements of the infraorders and superfamilies within Strepsirrhini. In one taxonomy, infraorder Lemuriformes contains all living strepsirrhines in two superfamilies, Lemuroidea for all lemurs and Lorisoidea for the lorisoids (lorisids and galagos). Alternatively, the lorisoids are sometimes placed in their own infraorder, Lorisiformes, separate from the lemurs. Yet another classification published by Colin Groves placed the aye-aye in its own infraorder, Chiromyiformes, while the rest of the lemurs were placed in Lemuriformes and the lorisoids in Lorisiformes.
|2 infraorders||3 infraorders||4 infraorders|
The classification of several lemur taxa has elicited particular debate. Most significantly, the placement of the aye-aye has been controversial since its introduction to Western science in 1782, and it has been a topic of debate until very recently. Arguing against Darwin's theory of natural selection, Richard Owen claimed in 1863 that the aye-aye's distinct characteristics, including its ever-growing incisors and unique, highly flexible middle finger, are so perfectly adapted for their uses in extractive foraging that they could not have evolved gradually through natural selection. More recently, the aye-aye's placement has posed problems for the rafting hypothesis for the primate colonization of Madagascar. If this species does not form a monophyletic group with the rest of the lemurs, then multiple colonization events would have had to occur to explain the occurrence of lemurs on Madagascar.
Until Owen published a definitive anatomical study in 1866, early naturalists were uncertain whether the aye-aye (genus Daubentonia) was a primate, rodent, or marsupial. In the late eighteenth century, for example, the aye-aye was classified under the squirrel genus Sciurus. By emphasizing its primate features, such as its postorbital bar, stereoscopic vision, and opposable hallux, over its rodent-like teeth, Owen demonstrated its affinity with other primates. In 1996, Ankel-Simons demonstrated that the shape and arrangement of the aye-aye's diminutive deciduous incisors indicate that this genus has a shared ancestry with the toothcombed primates. However, the placement of the aye-aye within the primates remained problematic until very recently. The karyotype of the aye-aye is noticeably different from that of its closest relatives, the lorises and the rest of the lemurs, with a diploid chromosome count of 2n=30. Based on its anatomy, researchers have found support for classifying the genus Daubentonia as a specialized indriid, a sister group to all strepsirrhines, and an indeterminate taxon within the primates. In 1931, Schwarz labeled the aye-aye as an offshoot of Indriidae, claiming that all lemurs were monophyletic, whereas Reginald Innes Pocock had previously placed the aye-aye outside of the lemurs. In that same year, Anthony and Coupin classified the aye-aye under infraorder Chiromyiformes, a sister group to the other strepsirrhines. Colin Groves upheld this classification in 2005 because he was not entirely convinced the aye-aye formed a clade with the rest of the Malagasy lemurs, despite molecular tests that had shown Daubentoniidae was basal to all Lemuroidea.
|Competing lemur phylogenies|
|There are two competing lemur phylogenies, one by Horvath et al. (top) and one by Orlando et al. (bottom). Note that Horvath et al. did not attempt to place the subfossil lemurs.|
Another interpretation of the aye-aye's origins has once again called into question the single origins of the lemurs. The aye-aye and a fossil strepsirrhine primate from Africa, Plesiopithecus, share similarities in the shape of the skull and the morphology of the lower jaw, which suggest that the latter could be an early relative of the aye-aye. However, the placement of an aye-aye ancestor in Africa would require multiple colonizations of Madagascar by strepsirrhine primates. Molecular tests may offer support, since they show that the aye-aye was the first to diverge in the lemur clade and that the other lemur families did not diverge until much later.
Often classified with the galagos by early students, the cheirogaleids (dwarf and mouse lemurs) were placed with the other lemurs from Gregory's 1915 classification until the early 1970s, when several anthropologists proposed that they were more closely related to lorisoids, based on morphological data. However, relevant genetic studies unanimously place cheirogaleids within the lemuroid clade and Groves himself, who had promoted the cheirogaleid-lorisoid relationship in a 1974 paper, by 2001 regarded the idea as refuted.
Classifications in the first half of the 20th century divided lemurs into three families: Daubentoniidae, Indriidae, and Lemuridae, with the latter including the current Cheirogaleidae and Lepilemuridae. Because of concerns that Lemuridae might not be monophyletic, the family was later split; in 1982 Tattersall separated the Cheirogaleidae for the dwarf lemurs, mouse lemurs and relatives, and the Lepilemuridae for the sportive lemurs and bamboo lemurs (including the greater bamboo lemur). This classification is still used, except that the bamboo lemurs were moved back to Lemuridae.
From the 1970s to the 1990s, there have been suggestions that the ruffed lemurs might be related to indriids or a sister group to Lemuridae and Indriidae and that the bamboo lemurs are related to the sportive lemurs, but neither view is supported by molecular phylogeny. The sportive lemurs and the extinct koala lemurs (Megaladapidae) both lack upper incisors in the permanent dentition, and in 1981, Groves placed both together in the family Megaladapidae, which he renamed Lepilemuridae in 2005 because that older name takes precedence. Genetic research does not support a close relationship between the sportive and koala lemurs and instead places the koala lemurs as a sister group to Lemuridae; therefore, the two are now placed in separate families (Lepilemuridae for the sportive lemurs and Megaladapidae for the koala lemurs). The sloth lemurs (Palaeopropithecidae) and monkey lemurs (Archaeolemuridae) were classified as subfamilies within Indriidae as late as 1982, but are now recognized as separate families.
The relationships among the families of lemurs have been problematic and have yet to be definitively resolved. Two competing phylogenies exist based on genetic and molecular data. One approach (Horvath et al.) looks at a larger number of genes, but among fewer species. This results in Lemuridae being a sister group to Lepilemuridae, Cheirogaleidae, and Indriidae. The other approach (Orlando et al.) looks at fewer genes, but more lemur species. Using this analysis, Lepilemuridae becomes the sister group to Lemuridae, Cheirogaleidae, and Indriidae. Both phylogenies agree that the Malagasy primates are monophyletic and that Daubentoniidae (the aye-aye) is basal to the lemuroid clade, having split off significantly earlier than the other families. However, two problems create complications for both approaches. First, the four most closely related living lemur families diverged within a narrow window of approximately 10 million years, making it much harder to distinguish the splits with molecular evidence. In addition, these families diverged from their last common ancestor approximately 42 mya; such distant splits create a lot of noise for molecular techniques.
Early distribution of lemur species among genera differed in a number of ways from current taxonomy. For example, the fork-marked lemurs were initially placed in Lemur and then in Microcebus with the mouse lemurs before being placed in their own genus Phaner, and Charles Immanuel Forsyth Major split the Cheirogaleus medius species group of the dwarf lemurs into a separate genus Opolemur, but this was not accepted. Genus-level taxonomy was largely stabilized by Schwarz in 1931, but a number of later changes have become accepted:
- The ring-tailed lemur, ruffed lemurs, and brown lemurs were once grouped together in the genus Lemur due to a host of morphological similarities. For instance, the skeletons of the ring-tailed lemur and the brown lemurs are nearly indistinguishable. However, ruffed lemurs were reassigned to the genus Varecia in 1962, and due to similarities between the ring-tailed lemur and the bamboo lemurs, particularly in regards to molecular evidence and scent gland similarities, the brown lemurs were moved to the genus Eulemur in 1988. The genus Lemur is now monotypic, containing only the ring-tailed lemur.
- In 2001, Colin Groves concluded that despite similarities, the greater bamboo lemur was sufficiently distinct from the bamboo lemurs of the genus Hapalemur to merit its own monotypic genus, Prolemur, in contrast to Schwarz's 1931 disagreement with Pocock's decision to separate Prolemur from Hapalemur.
- Originally placed in the genus Microcebus (mouse lemurs), the giant mouse lemur was moved to its own genus, Mirza, in 1985 due to its larger size, morphological differences, dental characteristics, and behavior.
- The hairy-eared dwarf lemur was first placed in the genus Cheirogaleus (dwarf lemurs) in 1875 and was later found to have closer affinities with Microcebus. However, its dentition and cranium structure were held sufficiently distinct to merit elevation to its own genus, Allocebus.
- In 1948, paleontologist Charles Lamberton proposed a new sub-genus for the giant ruffed lemurs, Pachylemur, which had previously been placed in the genus Lemur. Since the 1960s, it has been considered its own separate genus, although the two extinct species of giant ruffed lemur have sometimes been grouped under Varecia with their closest relatives.
- A new genus of sloth lemur, Babakotia was named in 1990.
There is widespread disagreement on aspects of species-level lemur taxonomy, particularly concerning the recent increase in the number of recognized species. According to Russell Mittermeier, the president of Conservation International (CI), taxonomist Colin Groves, and others, there are currently 101 recognized species or subspecies of extant lemur, divided into five families and 15 genera. Conversely, other experts in the field label this as a possible example of taxonomic inflation, and prefer instead an estimate of at least 50 species. All sides generally agree that the recently extinct subfossil lemurs should be classified in three families, eight genera, and 17 species.
Over the past two decades, the number of recognized lemur species has more than tripled according to some experts. In 1994, 32 distinct species were named in the first edition of Conservation International's field guide, Lemurs of Madagascar, and 68 were described in the 2nd edition, published in 2006. In December 2008, Russell Mittermeier, Colin Groves, and other experts co-wrote an article in the International Journal of Primatology classifying 99 species and subspecies. In late 2010, the 3rd edition of Lemurs of Madagascar listed 101 taxa. The number of lemur species is likely to continue growing in the coming years, as field studies, cytogenetic and molecular genetic research continues, particularly on cryptic species, such as mouse lemurs, which cannot be distinguished visually.
This threefold increase in less than two decades has not had universal support among taxonomists and lemur researchers. In many cases, classifications ultimately depends upon which species concept is used. Due to the critical condition that most Malagasy primate populations are in, taxonomists and conservationists sometimes favor splitting them into separate species to develop an effective strategy for the conservation of the full range of lemur diversity. Implicitly, this means that full species status will help grant genetically distinct populations added environmental protection.
The first large wave of new lemur species descriptions came in 2000, when Colin Groves split two species of dwarf lemur (Cheirogaleus) into seven species while Rodin Rasoloarison and colleagues recognized seven species of mouse lemur in western Madagascar. Then in 2001, Colin Groves elevated the red ruffed lemur (Varecia rubra), five subspecies of brown lemur (Eulemur albifrons, E. albocollaris, E. collaris, E. rufus and E. sanfordi), and four subspecies of sifaka (Propithecus coquereli, P. deckenii, P. edwardsi, and P. perrieri) to full species status. Additional elevations of all remaining subspecies within the Eulemur and Propithecus genera were made in the years that followed. These and subsequent changes in taxonomy were largely due to a shift to the phylogenetic species concept, and are not universally endorsed.
By far the most explosive growth in species numbers (in absolute terms) has been in the genera Microcebus and Lepilemur. In 2006, 15 new species of Lepilemur were described, with three new species reported in February, one in June, and 11 in September. Since then, three additional species have been described, one of which turned out to be identical to a previously described species. Genetic and morphological differences seem to suggest that they are cryptic species, but there is still debate whether these merit full species status or should be regarded as subspecies of previously identified, "core" species.
Both brown lemurs and mouse lemurs were initially divided into a small number of species, either with no distinguishable subspecies (in the case of mouse lemurs) or with several distinguishable subspecies (in the case of brown lemurs). With molecular research suggesting a more distant split in both genera, these subspecies or undistinguished populations have been promoted to species status.
In the case of mouse lemurs, the rise in species numbers has been only slightly less sudden and dramatic. Classified as one species by Ernst Schwarz in 1931 (excluding one, Coquerel's giant mouse lemur, that is no longer classified in Microcebus), the genus was revised to contain two species, the gray mouse lemur (Microcebus murinus) and the brown mouse lemur (M. rufus), after an extensive field study in 1972 showed both living in sympatry in southeastern Madagascar. At the time, the gray mouse lemur was known in the drier parts of the north, west, and south, while the brown mouse lemur inhabited the humid rainforest regions of the east. However, we now know the species diversity and distribution to be significantly more complex. Revisions throughout the 1990s and 2000s identified numerous new species through genetic testing using mitochondrial DNA, demonstrating that the genus is represented by a multitude of cryptic species. Many, but not all of these defined species have been supported by nuclear DNA tests.
However, there are still concerns that species are being identified prematurely. Ian Tattersall, an anthropologist who recognized 42 species of lemur in 1982, has expressed concern that the geographically organized variety in lemur populations is being recognized with full species status while the number of subspecies in lemur genera has virtually disappeared. He has argued that taxonomists are confusing differentiation and speciation, two processes that are often unrelated, while denying the role of microevolution in evolutionary processes. Still other researchers who emphasize the framework of the "general lineage concept of species" contend that lineage divergence or differentiation demarcates the beginning of a new species.
New species have been identified due to differences in morphology, karyotypes, cytochrome b sequences, and other genetic tests, as well as several combinations of these. When nuclear DNA (nDNA) was tested in conjunction with mitochondrial DNA (mtDNA) in mouse lemurs, a few species, such as Claire's mouse lemur (Microcebus mamiratra) were demonstrated to be indistinguishable from other closely related species. In such cases, nDNA did not vary, but the mtDNA that had been used to define it as a species was still distinct. Differences in results between nDNA, which is inherited from both parents, and mtDNA, which is inherited from the mother, was attributed to female philopatry, where females remain within or close to the home range into which they were born while males disperse. Since the isolated population known as Claire's mouse lemur has distinct mtDNA, but not nDNA, it is likely to contain a population descended from a related group of females, but which still disperses and interbreeds with nearby populations.
Traditionally, karyology has been considered when determining species status. For example, in 2006, three new species of sportive lemur were named based partly on karyotypes. From the lemurs studied so far, the diploid number of chromosomes varies between 2n=20 and 2n=66. In the case of the brown lemurs, the diploid number ranges from 2n=44 to 2n=60 while the individual chromosome sizes vary considerably, despite strong similarities in morphology.
Sometimes distinctions are made due to very slight differences in pelage coloration. For instance, three distinctly colored types of mouse lemur were discovered in a multi-year study in Beza Mahafaly Reserve in southern Madagascar, but rather than being separate species, DNA tests revealed that they all belonged to a single species, the reddish-gray mouse lemur (Microcebus griseorufus). For this reason, further research is needed to confirm or deny the recent species splits. Only through detailed studies of morphology, ecology, behavior, and genetics can the true number of lemur species be determined.
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|Lemur[N 2][N 4]||6||7||4||7||1||0||1||0||1||0||1||0|
- In 1931, Allocebus was not recognized as a separate genus, but was lumped under the genus Cheirogaleus.
- In 1931 and 1982, Eulemur was not recognized as a separate genus, but was lumped under the genus Lemur.
- The genus Prolemur was not distinguished until 2001. Prior to this, the greater bamboo lemur was placed in the genus Hapalemur.
- In 1931, Varecia was not recognized as a separate genus, but was lumped under the genus Lemur.
- In 1931, Mirza was not recognized as a separate genus, but was lumped under the genus Microcebus.
- The grand total of species and subspecies for each year will not equal the sum of the species total and the subspecies total since each subspecies group already counts as one species. For example, in 2010 three subspecies of Varecia variegata were recognized: V. v. variegata, V. v. editorum, and V. v. subcincta. Together, they count as one species, which is already included in the species total for that year. The same applies that year for Hapalemur. For this reason there are 101 species and subspecies (97 − 2 + 6 = 101), not 103.
- Garbutt 2007, pp. 85–86.
- Mittermeier et al. 2010, p. 124.
- Mittermeier et al. 2010, p. 37.
- Godfrey, Jungers & Burney 2010, p. 356.
- Vuillaume-Randriamanantena 1988, p. 379.
- Preston-Mafham 1991, pp. 141–188.
- Sussman 2003, p. 110.
- Mittermeier et al. 2010, pp. 1, 27.
- Mittermeier et al. 2006, p. 17.
- Preston-Mafham 1991, pp. 18–21.
- Mittermeier et al. 2010, p. 1.
- Linnaeus 1758, pp. 29–30.
- Tattersall 1982, pp. 43–44.
- Dunkel, Zijlstra & Groves 2011–2012, p. 65.
- Blunt & Stearn 2002, p. 252.
- Nield 2007, p. 41.
- Rowe 1996, p. 13.
- Rowe 1996, p. 27.
- Janečka et al. 2007.
- Groves 2005, Strepsirrini.
- Godinot 2006, p. 446.
- Jolly & Sussman 2006, p. 25.
- Mittermeier et al. 2010, pp. 48–49.
- Mittermeier et al. 2010, p. 49.
- Schwarz 1931.
- Tattersall 2007, p. 14.
- Groves 2008, p. 90.
- Groves 2008, p. 107.
- Groves 2008, pp. 113–114.
- Groves 2008, p. 117.
- Groves 2008, pp. 128–129.
- Gray 1862, p. 105.
- Groves 2008, pp. 136–137.
- Groves 2008, pp. 149–151.
- Janečka et al. 2007, fig. 2.
- Asher, Bennett & Lehmann 2009, p. 856.
- Tattersall 1982, pp. 246–247.
- Gregory 1915.
- Simpson 1945, pp. 61–62.
- Cartmill 2010, p. 15.
- Hartwig 2011, pp. 20–21.
- Groves 2005.
- Sterling & McCreless 2006, pp. 159–160.
- Sterling & McCreless 2006, p. 159.
- Ankel-Simons 2007, pp. 257.
- Garbutt 2007, pp. 205–207.
- Owen 1866, p. 36.
- Elliot 1907, p. 552.
- Owen 1866, p. 96.
- Simons 1997, p. 144.
- Ankel-Simons 2007, p. 544.
- Yoder 2003, p. 1242.
- Schwarz 1931, p. 400.
- Pocock 1918, pp. 51–52.
- Groves 2005, Chiromyiformes.
- Yoder 2003, p. 1243.
- Horvath et al. 2008, fig. 1.
- Orlando et al. 2008, fig. 1.
- Godinot 2006, p. 457–458.
- Chatterjee et al. 2009, pp. 3, 5.
- Groves 2001, p. 55.
- Yoder 2003, pp. 1242–1243.
- Tattersall 1982, p. 263.
- Mittermeier et al. 2008, p. 1628.
- Groves 2001, pp. 54–55.
- Ankel-Simons 2007, p. 248.
- Godfrey & Jungers 2002, p. 112.
- Groves 2005, Lepilemuridae.
- Orlando et al. 2008.
- Garbutt 2007, p. 115.
- Karanth et al. 2005, p. 5094.
- Orlando et al. 2008, p. 2.
- Yoder & Yang 2004, p. 768.
- Schwarz 1931, p. 406.
- Garbutt 2007, p. 111.
- Groves 2005, Phaner.
- Groves 2001, pp. 65–66.
- Schwarz 1931, p. 404.
- Garbutt 2007, p. 146.
- Groves 2005, Varecia.
- Mittermeier et al. 2010, p. 315.
- Groves 2005, Eulemur.
- Garbutt 2007, p. 144.
- Groves 2005, Prolemur.
- Schwarz 1931, p. 407.
- Garbutt 2007, p. 108.
- Groves 2005, Mirza.
- Groves 2005, Allocebus.
- Godfrey & Jungers 2002, p. 105.
- Godfrey & Jungers 2002, p. 102.
- Tattersall 2007, pp. 21–22.
- Yoder 2007, p. 866.
- Groeneveld et al. 2009, pp. 2–3, 12.
- Mittermeier et al. 2010, pp. 100–103.
- Tattersall 2007, pp. 12, 21–22.
- Gommery et al. 2009.
- Mittermeier et al. 2010, p. 34.
- Mittermeier et al. 1994, p. 51.
- Mittermeier et al. 2006, pp. 54–55.
- Mittermeier et al. 2008, p. 1608.
- Mittermeier et al. 2010, p. 68.
- Yoder 2007, pp. 866–867.
- Mittermeier et al. 2008, pp. 1609–1614.
- Groves 2000, p. 943.
- Rasoloarison, Goodman & Ganzhorn 2000, p. 963.
- Garbutt 2007, p. 170.
- Groves 2005, Varecia rubra.
- Groves 2005, Eulemur fulvus.
- Groves 2005, Propithecus.
- Mittermeier et al. 2010, p. 377.
- Garbutt 2007, pp. 149, 182.
- Thalmann 2006.
- Tattersall 2007, pp. 19–20.
- Andriaholinirina et al. 2006.
- Rabarivola et al. 2006.
- Louis et al. 2006.
- Mittermeier et al. 2008, pp. 1624, 1628.
- Tattersall 2007, p. 18.
- Yoder & Yang 2004, p. 769–770.
- Johnson 2006, pp. 188–189.
- Johnson 2006, pp. 193–194.
- Schwarz 1931, pp. 401–403.
- Kappeler & Rasoloarison 2003, p. 1310.
- Garbutt 2007, p. 86.
- Mittermeier et al. 2008, p. 1615.
- Braune, Schmidt & Zimmermann 2008.
- Olivieri et al. 2007, p. 309.
- Louis et al. 2008.
- Weisrock et al. 2010, pp. 8–9.
- Tattersall 1982, pp. 40–43.
- Weisrock et al. 2010, p. 8.
- Tattersall 2007.
- Weisrock et al. 2010, p. 11.
- Ankel-Simons 2007, pp. 541–544.
- Heckman et al. 2006, p. 1.
- Yoder 2007, p. 867.
- Mittermeier et al. 1994, pp. 80–82.
- Mittermeier et al. 2006, pp. 85–88.
- Andriaholinirina, N.; Fausser, J. L.; Roos, C.; Zinner, D.; Thalmann, U.; Rabarivola, C.; Ravoarimanana, I.; Ganzhorn, J. U.; Meier, B.; Hilgartner, R.; Walter, L.; Zaramody, A.; Langer, C.; Hahn, T.; Zimmermann, E.; Radespiel, U.; Craul, M.; Tomiuk, J. R.; Tattersall, I.; Rumpler, Y. (2006). "Molecular phylogeny and taxonomic revision of the sportive lemurs (Lepilemur, Primates)" (PDF). BMC Evolutionary Biology. 6: 17. doi:10.1186/1471-2148-6-17. PMC 1397877. PMID 16504080.
- Ankel-Simons, F. (2007). Primate Anatomy (3rd ed.). Academic Press. ISBN 978-0-12-372576-9. OCLC 42622248.
- Asher, R. J.; Bennett, N.; Lehmann, T. (6 July 2009). "The new framework for understanding placental mammal evolution". BioEssays. 31 (8): 853–864. doi:10.1002/bies.200900053. PMID 19582725.
- Blunt, W.; Stearn, W.T. (2002). Linnaeus: the compleat naturalist. Princeton University Press. ISBN 978-0-691-09636-0.
- Braune, P.; Schmidt, S.; Zimmermann, E. (2008). "Acoustic divergence in the communication of cryptic species of nocturnal primates (Microcebus ssp.)". BMC Biology. 6 (19): 19. doi:10.1186/1741-7007-6-19. PMC 2390514. PMID 18462484. Lay summary – ScienceDaily (14 May 2008).
- Cartmill, M. (2010). "Chapter 2: Primate Classification and Diversity". In Platt, M.; Ghazanfar, A. (eds.). Primate Neuroethology. Oxford University Press. ISBN 978-0-19-532659-8.
- Chatterjee, Helen J.; Ho, Simon Y.W.; Barnes, Ian; Groves, Colin (2009). "Estimating the phylogeny and divergence times of primates using a supermatrix approach". BMC Evolutionary Biology. 9 (259): 259. doi:10.1186/1471-2148-9-259. PMC 2774700. PMID 19860891.
- Dunkel, A.R.; Zijlstra, J.S.; Groves, C.P. (2011–2012). "Giant rabbits, marmosets, and British comedies: etymology of lemur names, part 1" (PDF). Lemur News. 16: 64–70. ISSN 1608-1439.
- Elliot, D.G. (1907). A Catalogue of the Collection of Mammals in the Field Columbian Museum. Field Columbian Museum.
- Garbutt, N. (2007). Mammals of Madagascar, A Complete Guide. A&C Black Publishers. ISBN 978-0-300-12550-4. OCLC 154689042.
- Godfrey, L.R.; Jungers, W.L. (2002). "Chapter 7: Quaternary fossil lemurs". In Hartwig, W.C. (ed.). The Primate Fossil Record. Cambridge University Press. pp. 97–121. ISBN 978-0-521-66315-1.
- Godfrey, L. R.; Jungers, W. L.; Burney, D. A. (2010). "Subfossil lemurs of Madagascar". In Werdelin, L.; Sanders, W.J (eds.). Cenozoic mammals of Africa. Berkeley: University of California Press. pp. 351–367. ISBN 978-0-520-25721-4.
- Godinot, M. (2006). "Lemuriform origins as viewed from the fossil record". Folia Primatologica. 77 (6): 446–464. doi:10.1159/000095391. PMID 17053330.
- Gommery, D.; Ramanivosoa, B.; Tombomiadana-Raveloson, S.; Randrianantenaina, H.; Kerloc’h, P. (2009). "A new species of giant subfossil lemur from the North-West of Madagascar (Palaeopropithecus kelyus, Primates)". Comptes Rendus Palevol. 8 (5): 471–480. doi:10.1016/j.crpv.2009.02.001. Lay summary (27 May 2009).
- Goodman, S.M.; Benstead, J.P., eds. (2003). The Natural History of Madagascar. University of Chicago Press. ISBN 978-0-226-30306-2. OCLC 51447871.
- Yoder, A.D. (2003). "Phylogeny of the Lemurs". The Natural History of Madagascar. pp. 1242–1247.
- Kappeler, P.M.; Rasoloarison, R.M. (2003). "Microcebus, Mouse Lemurs, Tsidy". The Natural History of Madagascar. pp. 1310–1315.
- Gould, L.; Sauther, M.L., eds. (2006). Lemurs: Ecology and Adaptation. Springer. ISBN 978-0-387-34585-7. OCLC 209925660.
- Jolly, A.; Sussman, R.W. (2006). "Chapter 2: Notes on the History of Ecological Studies of Malagasy Lemurs". Lemurs: Ecology and Adaptation. pp. 19–40. ISBN 9780387345864.
- Sterling, E.J.; McCreless, E.E. (2006). "Chapter 8: Adaptations in the Aye-aye: A Review". Lemurs: Ecology and Adaptation. pp. 159–184. ISBN 9780387345864.
- Johnson, S.E. (2006). "Chapter 9: Evolutionary Divergence in the Brown Lemur Species Complex". Lemurs: Ecology and Adaptation. pp. 187–210. ISBN 9780387345864.
- Gray, V.P. (1862). "Mr. W. H. Flower on the Javan loris". Proceedings of the Zoological Society of London. 1: 103–105. doi:10.1111/j.1469-7998.1862.tb06463.x.
- Gregory, W.K. (1915). "1. On the relationships of the Eocene lemur Notharctus to the Adapidae and other primates. 2. On the classification and phylogeny of the Lemuroidea". Bulletin of the Geological Society of America. 26: 419–446.
- Groeneveld, L. F.; Weisrock, D. W.; Rasoloarison, R. M.; Yoder, A. D.; Kappeler, P. M. (2009). "Species delimitation in lemurs: multiple genetic loci reveal low levels of species diversity in the genus Cheirogaleus" (PDF). BMC Evolutionary Biology. 9: 30. doi:10.1186/1471-2148-9-30. PMC 2652444. PMID 19193227.
- Groves, C. P. (2000). "The genus Cheirogaleus: unrecognized biodiversity in dwarf lemurs". International Journal of Primatology. 21 (6): 943–962. doi:10.1023/A:1005559012637.
- Groves, C.P. (2001). Primate Taxonomy. Smithsonian Institution Press. ISBN 978-1-56098-872-4. OCLC 44868886.
- Groves, C. P. (2005). "Order Primates". In Wilson, D. E.; Reeder, D. M. (eds.). Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). The Johns Hopkins University Press. pp. 111–184. ISBN 978-0-8018-8221-0. Archived from the original on 4 February 2012.
- Groves, C.P. (2008). Extended Family: Long Lost Cousins. A personal look at the history of primatology. Conservation International. ISBN 978-1-934151-25-9.
- Hartwig, W. (2011). "Chapter 3: Primate evolution". In Campbell, C. J.; Fuentes, A.; MacKinnon, K. C.; Bearder, S. K.; Stumpf, R. M (eds.). Primates in Perspective (2nd ed.). Oxford University Press. pp. 19–31. ISBN 978-0-19-539043-8.
- Heckman, K. L.; Rasoazanabary, E.; Machlin, E.; Godfrey, L. R.; Yoder, A. D. (2006). "Incongruence between genetic and morphological diversity in Microcebus griseorufus of Beza Mahafaly" (PDF). BMC Evolutionary Biology. 6 (98): 98. doi:10.1186/1471-2148-6-98. PMC 1657033. PMID 17109740. Lay summary – ScienceDaily (16 November 2006).
- Horvath, J. E.; Weisrock, D. W.; Embry, S. L.; Fiorentino, I.; Balhoff, J. P.; Kappeler, P.; Wray, G. A.; Willard, H. F.; Yoder, A. D. (2008). "Development and application of a phylogenomic toolkit: Resolving the evolutionary history of Madagascar's lemurs" (PDF). Genome Research. 18 (3): 489–499. doi:10.1101/gr.7265208. PMC 2259113. PMID 18245770.
- Janečka, J.E.; Miller, W.; Pringle, T.H.; Wiens, F.; Zitzmann, A.; Helgen, K.M.; Springer, M.S.; Murphy, W.J. (2007). "Molecular and genomic data identify the closest living relative of primates" (PDF). Science. 318 (5851): 792–794. Bibcode:2007Sci...318..792J. doi:10.1126/science.1147555. PMID 17975064.
- Karanth, K. P.; Delefosse, T.; Rakotosamimanana, B.; Parsons, T. J.; Yoder, A. D. (2005). "Ancient DNA from giant extinct lemurs confirms single origin of Malagasy primates" (PDF). Proceedings of the National Academy of Sciences. 102 (14): 5090–5095. Bibcode:2005PNAS..102.5090K. doi:10.1073/pnas.0408354102. PMC 555979. PMID 15784742.
- Linnaeus, Carl (1758). Systema Naturae (in Latin). 1. Impensis Direct. Laurentii Salvii.
- Louis, E.E., Jr.; Engberg, S.E.; Lei, R.; Geng, H.; Sommer, J.A.; Randriamampionona, R.; Randriamanana, J.C.; Zaonarivelo, J.R.; Andriantompohavana, R.; Randria, G.; Prosper; Ramaromilanto, B.; Rakotoarisoa, G.; Rooney, A.; Brenneman, R.A. (2006). "Molecular and morphological analyses of the sportive lemurs (family Megaladapidae: genus Lepilemur) reveals 11 previously unrecognized species" (PDF). Special Publications, Museum of Texas Tech University. 49: 1–47. Archived from the original (PDF) on 5 June 2011.
- Louis, E. E.; Engberg, S. E.; McGuire, S. M.; McCormick, M. J.; Randriamampionona, R.; Ranaivoarisoa, J. F.; Bailey, C. A.; Mittermeier, R. A.; Lei, R. (2008). "Revision of the mouse lemurs, Microcebus (Primates, Lemuriformes), of northern and northwestern Madagascar with descriptions of two new species at Montagne d'Ambre National Park and Antafondro Classified Forest" (PDF). Primate Conservation. 23: 19–38. doi:10.1896/052.023.0103. Archived from the original (PDF) on 5 February 2009.
- Mittermeier, R.A.; Tattersall, I.; Konstant, W.R.; Meyers, D.M.; Mast, R.B. (1994). Lemurs of Madagascar. Illustrated by S.D. Nash (1st ed.). Conservation International. ISBN 1-881173-08-9. OCLC 32480729.
- Mittermeier, R.A.; Konstant, W.R.; Hawkins, F.; Louis, E.E.; et al. (2006). Lemurs of Madagascar. Illustrated by S.D. Nash (2nd ed.). Conservation International. ISBN 1-881173-88-7. OCLC 883321520.
- Mittermeier, R. A.; Ganzhorn, J. U.; Konstant, W. R.; Glander, K.; Tattersall, I.; Groves, C. P.; Rylands, A. B.; Hapke, A.; Ratsimbazafy, J.; Mayor, M. I.; Louis, E. E.; Rumpler, Y.; Schwitzer, C.; Rasoloarison, R. M. (2008). "Lemur Diversity in Madagascar" (PDF). International Journal of Primatology. 29 (6): 1607–1656. doi:10.1007/s10764-008-9317-y. hdl:10161/6237.
- Mittermeier, R.A.; Louis, E.E.; Richardson, M.; Schwitzer, C.; et al. (2010). Lemurs of Madagascar. Illustrated by S.D. Nash (3rd ed.). Conservation International. ISBN 978-1-934151-23-5. OCLC 670545286.
- Nield, T. (2007). Supercontinent: Ten Billion Years in the Life of Our Planet. Harvard University Press. ISBN 978-0-674-02659-9.
- Olivieri, G.; Zimmermann, E.; Randrianambinina, B.; Rasoloharijaona, S.; Rakotondravony, D.; Guschanski, K.; Radespiel, U. (2007). "The ever-increasing diversity in mouse lemurs: Three new species in north and northwestern Madagascar" (PDF). Molecular Phylogenetics and Evolution. 43 (1): 309–327. doi:10.1016/j.ympev.2006.10.026. PMID 17197200.
- Orlando, L.; Calvignac, S.; Schnebelen, C.; Douady, C. J.; Godfrey, L. R.; Hänni, C. (2008). "DNA from extinct giant lemurs links archaeolemurids to extant indriids" (PDF). BMC Evolutionary Biology. 8 (121): 121. doi:10.1186/1471-2148-8-121. PMC 2386821. PMID 18442367.
- Owen, R. (1866). "On the Aye-aye (Chiromys, Cuvier; Chiromys Madagascariensis, Desm.; Sciurus Madagascariensis, Gmel., Sonnerat; Lemur Psilodactylus, Schreber, Shaw)". Transactions of the Zoological Society of London. 5 (2): 33–101. doi:10.1111/j.1096-3642.1863.tb00641.x. Retrieved 29 May 2011.
- Pocock, R. I. (1918). "On the external characters of the lemurs and of Tarsius". Proceedings of the Zoological Society of London. 1918: 19–53. doi:10.1111/j.1096-3642.1918.tb02076.x.
- Preston-Mafham, K. (1991). Madagascar: A Natural History. Facts on File. ISBN 978-0-8160-2403-2. OCLC 23650974.
- Rabarivola, C.; Zaramody, A.; Fausser, J.; Andriaholinirina, N.; Roos, C.; Zinner, D.; Marcel, H.; Rumpler, Y. (2006). "Cytogenetic and molecular characteristics of a new species of sportive lemur from Northern Madagascar" (PDF). Lemur News. 11: 45–49. ISSN 0343-3528. Archived from the original (PDF) on 23 July 2011.
- Rasoloarison, R. M.; Goodman, S. M.; Ganzhorn, J. U. (2000). "Taxonomic revision of mouse lemurs (Microcebus) in the western portions of Madagascar". International Journal of Primatology. 21 (6): 963–1019. doi:10.1023/A:1005511129475.
- Rowe, N. (1996). The Pictorial Guide to the Living Primates. Pogonias Press. ISBN 978-0-9648825-1-5. OCLC 35692646.
- Simons, E.L. (1997). "Chapter 6: Lemurs: Old and New". In Goodman, S.M.; Patterson, B.D. (eds.). Natural Change and Human Impact in Madagascar. Smithsonian Institution Press. ISBN 978-1-56098-682-9. OCLC 35620388.
- Schwarz, E. (1931). "A revision of the genera and species of Madagascar Lemuridae". Proceedings of the Zoological Society of London. 1931 (2): 399–428. doi:10.1111/j.1096-3642.1931.tb01020.x.
- Simpson, G.G. (1945). "The principles of classification and a classification of mammals". Bulletin of the American Museum of Natural History. 85: 1–350. hdl:2246/1104. OCLC 341579.
- Sussman, R.W. (2003). Primate Ecology and Social Structure. Pearson Custom Publishing. ISBN 978-0-536-74363-3. OCLC 199284796.
- Tattersall, I. (2007). "Madagascar's Lemurs: Cryptic diversity or taxonomic inflation?". Evolutionary Anthropology: Issues, News, and Reviews. 16 (1): 12–23. doi:10.1002/evan.20126.
- Tattersall, I. (1982). Primates of Madagascar. Columbia University Press. ISBN 978-0-231-04704-3. OCLC 7837781.
- Thalmann, U. (December 2006). "Lemurs – Ambassadors for Madagascar" (PDF). Madagascar Conservation & Development. 1: 4–8. doi:10.4314/mcd.v1i1.44043. ISSN 1662-2510. Archived from the original (PDF) on 22 September 2013.
- Vuillaume-Randriamanantena, M. (1988). "The taxonomic attributions of giant subfossil lemur bones from Ampasambazimba: Archaeoindris and Lemuridotherium". Journal of Human Evolution. 17 (4): 379–391. doi:10.1016/0047-2484(88)90027-9.
- Weisrock, D. W.; Rasoloarison, R. M.; Fiorentino, I.; Ralison, J. M.; Goodman, S. M.; Kappeler, P. M.; Yoder, A. D. (2010). "Delimiting species without nuclear monophyly in Madagascar's mouse lemurs". PLoS ONE. 5 (3): e9883. doi:10.1371/journal.pone.0009883. PMC 2847600. PMID 20360988.
- Yoder, A.D. (2007). "Lemurs: A quick guide" (PDF). Current Biology. 17 (20): R866–R868. doi:10.1016/j.cub.2007.07.050. PMID 17956741.
- Yoder, A. D.; Yang, Z. (2004). "Divergence dates for Malagasy lemurs estimated from multiple gene loci: geological and evolutionary context" (PDF). Molecular Ecology. 13 (4): 757–773. doi:10.1046/j.1365-294X.2004.02106.x. PMID 15012754.