Cameroon scaly-tail
The Cameroon scaly-tail (Zenkerella insignis), also referred to as the Cameroon anomalure, flightless anomalure or flightless scaly-tail,[3] is a rodent species endemic to West Central Africa.[3][4][5] The scientific literature has never (or possibly only obscurely) reported observations of live individuals.[3][4][6] The taxonomic classification of the species has been subject to recent revision.
Cameroon scaly-tail Temporal range: Early Miocene to recent (genus)[1] | |
---|---|
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Mammalia |
Order: | Rodentia |
Family: | Zenkerellidae |
Genus: | Zenkerella |
Species: | Z. insignis |
Binomial name | |
Zenkerella insignis Matschie, 1898 | |
Phylogeny
Previous common names for this species included flightless scaly-tail ‘squirrel’, but this is a misnomer as anomalures are very distantly related to the true squirrels of the rodent family Sciuridae and only superficially resemble them.[6] Z. insignis is the only extant species in the genus Zenkerella and family Zenkerellidae and is the only surviving species of a lineage that diverged from the other extant anomalures (genera Idiurus and Anomalurus) ~49 million years ago (Ma).[6] Among mammals, very few species are the sole survivors of such ancient lineages, some other examples being the pen-tailed treeshrew and the monito del monte.[7]
Extinct fossil taxa which are putative close relatives of Z. insignis include: Zenkerella wintoni (~20 Ma, early Miocene, Kenya),[8] Prozenkerella saharaensis (~31 Ma, early Oligocene, Libya),[9] and possibly Oromys zenkerellinopsis (~33 Ma, earliest Oligocene, Morocco).[10]
In 2016, it was reported that three whole-body specimens of Z. insignis were recovered on Bioko Island, Equatorial Guinea.[6] At that time, it had been over 20 years since the scientific literature recorded new individuals.[5][6] These specimens were used to sequence portions of the Z. insignis genome. Phylogenetic analysis using combined DNA and anatomical data place Zenkerella as the sister taxon of an Idiurus-Anomalurus clade.[6] This is contrary to a previous hypothesis that grouped Zenkerella with Idiurus within the family Anomaluridae.[6][9][11] The Z. insignis position in the rodent evolutionary tree supports a single origin of the anomalure gliding adaptation with no evolutionary reversals;[6] more complex evolutionary scenarios were previously envisioned.[9][12] The same analysis estimated an early Oligocene origin of anomalure gliding and an early Eocene divergence of the Z. insignis lineage.[6] These results were used to justify a taxonomic revision that erected the new rodent family Zenkerellidae in which Z. insignis is the only living species.[6]
Morphology
The anomalures, including Z. insignis, are unique among rodents in having a set of scales on the ventral surface of the base of the tail.[6] These scales reportedly provide traction when climbing trees.[3][4] Z. insignis is the only anomalure that lacks patagia (membranes that span between the forelimbs and hindlimbs).[3][4] Anomalures that possess patagia are able to glide between trees. Thus, Z. insignis is unable to glide. The divergence of the Z. insignis lineage from other extant anomalures apparently occurred before the evolution of anomalure gliding.[6] Gliding is a relatively rare adaptation that has independently evolved in three lineages of extant placental mammals (anomalures, colugos, and flying squirrels).[13] Z. insignis has ashy-grey pelage and bushy black tail hair.[4][6] Tufts of short, course, and spikey hairs are located on the lateral ankles.[4][6] The hands and feet have four and five digits respectively.[4][6] Pedal digit I (the first toe) is somewhat divergent.[6]
Z. insignis molars are distinct from other extant anomalures in having a continuous enamel crest that, in occlusal view, forms a full perimeter around the tooth and a single transverse crest divides the occlusal surface into two basins.[6][9][14] The fossilized molars of Z. wintoni and P. saharaensis also have these features and the lineage's tooth morphology is essentially unchanged since the early Oligocene.[6][9] In mammals, dental morphology is an excellent indicator of the animal's diet; it therefore seems that the lineage has retained the same dietary niche for at least 31 million years.[6] Sole survivorship of an ancient lineage combined with the retention of morphology are characteristics which identify Z. insignis as a ‘living fossil’.[6] However, some biologists have questioned the usefulness of this popular term.
Distribution and habitat
There are no (or possibly only obscure) entries in the scientific literature that document direct observations of living Z. insignis individuals.[3][4][6] Although the species was first described in 1898, trapping efforts have resulted in only 14 specimens deposited in world natural history museums.[5][6] From these specimens, the geographic distribution of Z. insignis is recorded from south Cameroon, Equatorial Guinea (including Bioko Island), southwestern Central African Republic, and Republic of Congo.[3][5] The species is not recorded from Gabon but probably occurs there.[3][4] Based on collection localities, Z. insignis inhabits rainforest and semi-deciduous forests.[3][5]
Ecology
Without direct scientific observation, lifestyle and diet are largely inferred from what is known of other anomalures[3][4] and anecdotal information gathered by interviewing local people and subsistence trappers.[5][6] The species is probably largely arboreal[3][4][5] but occasional captures in ground snares indicates it sometimes comes to the ground.[5][6] Other anomalures are largely or exclusively nocturnal and sleep in tree-hollows during the day;[3][4] these habits may also be true for Z. insignis.[6] The species is probably herbivorous.[3][4]
Conservation
The IUCN previously assessed the species as Data Deficient, but in 2008 this was changed to the current listing of Least Concern as the species appears to have a relatively wide distribution with extensive suitable habitat, and occurs in several protected areas.[2] However, some conservation biologists state that “This rating belies the fact that threats such as habitat loss and degradation are intense and widespread in central Africa” and “Zenkerella may be under greater threat”.[7]
References
- "Mindat.org". www.mindat.org. Retrieved 2021-06-13.
- Hutterer, R.; Decher, J. (2017). "Zenkerella insignis". IUCN Red List of Threatened Species. 2017: e.T23204A22183548. doi:10.2305/IUCN.UK.2017-2.RLTS.T23204A22183548.en. Retrieved 15 November 2021.
- Kingdon, J (2013). "Family Anomaluridae: Anomalures". In Happold DCD (ed.). Mammals of Africa. Volume III: rodents, hares and rabbits. London: Bloomsbury Publishing. pp. 602–617.
- Nowak, RM (1999). Walker's Mammals of the World. Baltimore: Johns Hopkins University Press. pp. 1617–1620.
- Pérez del Val, J.; Juste, J.; Castroviejo, J. (1995). "A review of Zenkerekka insignis, Matschie, 1898 (Rodentia, Anomaluridae) first records in Bioko island (Equatorial Guinea)". Mammalia. 59 (3): 441–443. doi:10.1515/mamm.1995.59.3.437. hdl:10261/49354.
- Heritage, S.; Fernández, D.; Sallam, H. M.; Cronin, D. T.; Echube, J. M. E.; Seiffert, E. R. (2016). "Ancient phylogenetic divergence of the enigmatic African rodent Zenkerella and the origin of anomalurid gliding". PeerJ. 4: e2320. doi:10.7717/peerj.2320. PMC 4991859. PMID 27602286.
- Vuong, Z (2016). "On the prowl for an elusive rodent called 'the ultimate Pokémon'". USC News. Retrieved 25 August 2016.
- Lavocat, R (1973). Les rongeurs du Miocène d'Afrique Orientale, Miocène inférieur. Memoires et Travaux de l'Institut de Montpellier de l'Ecole Pratique des Hautes Etudes 1:1-284.
- Coster, P.; Beard, C.; Salem, M. J.; Chaimanee, Y.; Jaeger, J. J. (2015). "New fossils from the Paleogene of central Libya illuminate the evolutionary history of endemic African anomaluroid rodents". Frontiers in Earth Science. 3: 56. Bibcode:2015FrEaS...3...56C. doi:10.3389/feart.2015.00056.
- Marivaux, L.; Adnet, S.; Benammi, M.; Tabuce, R.; Benammi, M. (2016). "Anomaluroid rodents from the earliest Oligocene of Dakhla, Morocco, reveal the long-lived and morphologically conservative pattern of the Anomaluridae and Nonanomaluridae during the Tertiary in Africa". Journal of Systematic Palaeontology. 15 (7): 1–31. doi:10.1080/14772019.2016.1206977. S2CID 88750294.
- Dieterlen F (2005). "Family Anomaluridae". In Wilson DE, Reeder DM (eds.). Mammal Species of the World: A Taxonomic and Geographic Reference (Third ed.). Baltimore: Johns Hopkins University Press. pp. 1532–1534.
- Unknown Author (2015). Meet the Scaly-tail Gliders. Scientific American - Tetrapod Zoology. Retrieved 25 August 2016.
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has generic name (help) - Jackson, SM; Thorington, R (2012). "Gliding Mammals: Taxonomy of Living and Extinct Species". Smithsonian Contributions to Zoology. 638 (638): 1–117. doi:10.5479/si.00810282.638.1. hdl:10088/18186.
- Marivaux, L.; Adaci, M.; Bensalah, M.; Rodrigues, H. G.; Hautier, L.; Mahboubi, M. H.; Mebrouk, F.; Tabuce, R.; Vianey-Liaud, M. (2011). "Zegdoumyidae (Rodentia, Mammalia), stem anomaluroid rodents from the early to middle Eocene of Algeria (Gour Lazib, Western Sahara): new dental evidence". Journal of Systematic Palaeontology. 9 (4): 563–588. doi:10.1080/14772019.2011.562555. S2CID 55989532.