Your search keyword '"Leptailurus"' showing total 9 results

1. Molecular screening indicates high prevalence and mixed infections of Hepatozoon parasites in wild felines from South Africa.

Author

Harris, David J., Sergiadou, Dimitra, Halajian, Ali, Swanepoel, Lourens, and Roux, Francois

Subjects

*MIXED infections, *CATS, *FELIDAE, *PARASITES, *FELIS, *LEOPARD

Abstract

Genetic diversity within partial 18S rRNA sequences from Hepatozoon protozoan parasites from wild felines in South Africa was assessed and compared with data from domestic cats to assess patterns of host specificity. Lions, leopards, servals, a caracal and an African wildcat were all positive for parasites of the Hepatozoon felis -complex. However, haplotypes were not species-specific, and potential mixed infections were widespread. Additional genetic markers are needed to untangle the extremely complex situation of these parasites in both domestic cats and wild felines in South Africa. [ABSTRACT FROM AUTHOR]

Published

2020

2. African golden cat and serval in forest–savannah transitions in Cameroon

Author

Franklin T. Simo, Iris Kirsten, Sévilor Kekeunou, Daniel J. Ingram, Ghislain F. Difouo, and David L. Olson

Subjects

Geography, Habitat, biology, Sympatric speciation, Ecology, African golden cat, Leptailurus, Camera trap, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2021

3. Leptailurus serval

Author

Jackson, Stephen M., Jansen, Justin J. F. J., Baglione, Gabrielle, and Callou, Cécile

Subjects

Felidae, Mammalia, Carnivora, Leptailurus, Animalia, Biodiversity, Chordata, Leptailurus serval, Taxonomy

Abstract

Felis capensis Forster, 1781 Felis capensis Forster, 1781: 4. COMMON NAME. — Serval. CURRENT NAME. — Leptailurus serval (Schreber, 1776). See Wozencraft (2005: 540). COLLECTOR/S. — Charles-Alexandre Lesueur, contra Desmarest (1821: 229) who mentioned both Péron and Lesueur as its collectors. COLLECTION LOCALITY. — Cape Town, South-Africa. COLLECTION DATE. — Before 24 January 1804. SPECIMEN NUMBER/S. — No specimen identified in MNHN collection. ILLUSTRATIONS. — No data., Published as part of Jackson, Stephen M., Jansen, Justin J. F. J., Baglione, Gabrielle & Callou, Cécile, 2021, Mammals collected and illustrated by the Baudin Expedition to Australia and Timor (1800 - 1804): A review of the current taxonomy of specimens in the Muséum national d'Histoire naturelle de Paris and the illustrations in the Muséum d'Histoire naturelle du Havre, pp. 387-548 in Zoosystema 43 (21) on page 438, DOI: 10.5252/zoosystema2021v43a21, http://zenodo.org/record/5142972, {"references":["FORSTER J. R. 1781. - Natural history and description of the tygercat of the Cape of Good Hope. Philosophical Transactions 71: 1 - 6. https: // www. biodiversitylibrary. org / page / 51825607","WOZENCRAFT W. C. 2005. - Order Carnivora, in WILSON D. E. & REEDER D. M. (eds) Mammal Species of the World. A Taxonomic and Geographic Reference. Johns Hopkins University Press, Baltimore. Third Edition: 532 - 628.","DESMAREST A. G. 1821. - Mammalogie, ou description des especes de mammiferes. Premier Partie, contenant les ordres des bimanes, des quadrumanes et des carnassiers. V. Agasse, Paris, 276 p. https: // www. biodiversitylibrary. org / page / 39523759"]}

Published

2021

4. Diet of serval ( Leptailurus serval) on farmlands in the Drakensberg Midlands, South Africa.

Author

Ramesh, Tharmalingam and Downs, Colleen T.

Subjects

*SERVAL, *LEPTAILURUS, *MAMMALS -- Food, *ANIMAL dropping analysis, *FARMS

Abstract

The feeding ecology of a wetland specialist, the serval ( Leptailurus serval), is poorly documented in regions subject to changing land use patterns. In this regard, we investigated the diet of serval by scat analysis from May to August 2013 at farmlands in the Drakensberg Midlands, South Africa. We recorded 17 species of prey remains in its diet, which included 10 rodent species, wild ungulates, the small-spotted genet ( Genetta genetta), grass, birds, reptiles, and insects. In terms of rodent biomass consumed, serval mainly preyed on Otomys auratus (57.8%), followed by Rhabdomys chakae (13.4%), Dasymys incomtus (11.4%), and Gerbilliscus brantsii (5.9%). In addition, we compared the diet of serval in our study with that of a 20-year-old research in the same landscape. Small mammals were the main prey items of serval in both studies. Despite the high diet overlap and low variation in trophic niche breadth found in these studies, biomass consumption of rodent species varied considerably as servals were reported feeding on reed buck ( Redunca arundinum), perhaps on fawns, in the present study. This feeding behaviour is probably related to the conversion of wetland habitat for agricultural activities. Given that wetland habitats support large populations of small mammals, which serve as prey for servals, wetland conservation is important in a mosaic agricultural landscape. [ABSTRACT FROM AUTHOR]

Published

2015

5. Impact of land use on occupancy and abundance of terrestrial mammals in the Drakensberg Midlands, South Africa.

Author

Ramesh, Tharmalingam and Downs, Colleen T.

Subjects

LAND use, WILDLIFE conservation, HABITATS, LEPTAILURUS

Abstract

Better management and knowledge regarding the effect of land use intensification on mammal abundance and occupancy is crucial for species conservation. This is particularly true in dynamic forest-farmland mosaics subjected to rapid human-induced habitat alterations for agricultural practices. We conducted camera-trap surveys at 44 locations across farmland use gradients between October 2012 and January 2013. We estimated occupancy and relative abundance of 10 terrestrial mammals in response to farmland use in the Drakensberg Midlands, South Africa. Occupancy modelling revealed the importance of available forest and wetland to several mammals. Occupancy estimates for Leptailurus serval were lower in cropland than for Herpestes ichneumon , Atilax paludinosus and Potamochoerus larvatus . Occupancy of Leptailurus serval and Redunca rundinu increased with relative human abundance while the relationship was inverse for Hystrix cristata and Potamochoerus larvatus . Livestock-related activity influenced occupancy of Potamochoerus larvatus positively and Hystrix cristata negatively. Pesticide usage had a negative impact on detection of several mammals, and occupancy of Atilax paludinosus . Commercial plantation influenced occupancy of Tragelaphus scriptus and Potamochoerus larvatus positively. Plantation supported the abundance of five species positively. Wetland influenced relative abundance of Leptailurus serval positively. Pesticide use significantly decreased relative abundance of Leptailurus serval and Atilax paludinosus. Livestock and human relative abundance were positively associated with relative abundance of Leptailurus serval and Canis mesomelas and negatively for other species. Our models proved the sensitivity of some mammals towards the natural habitat loss due to agricultural practices while others appeared to be tolerant to such human-modified habitats. We suggest feasible management implications for conserving diverse mammalian assemblages in farmland mosaics. [ABSTRACT FROM AUTHOR]

Published

2015

6. Molecular screening indicates high prevalence and mixed infections of Hepatozoon parasites in wild felines from South Africa

Author

Dimitra Sergiadou, David James Harris, Lourens H. Swanepoel, Francois Roux, and Ali Halajian

Subjects

030231 tropical medicine, Zoology, Animals, Wild, Cat Diseases, phylogeny, 18S ribosomal RNA, 030308 mycology & parasitology, leptailurus, South Africa, 03 medical and health sciences, 0302 clinical medicine, Phylogenetics, hepatozoonosis, biology.animal, panthera, parasitic diseases, Animals, Original Research, 0303 health sciences, Genetic diversity, lcsh:Veterinary medicine, General Veterinary, biology, Coccidiosis, Coinfection, Felis, Haplotype, General Medicine, biology.organism_classification, 18s rrna, caracal, Coccidia, Hepatozoon, Haplotypes, Genetic marker, felis, Cats, lcsh:SF600-1100, Panthera

Abstract

Genetic diversity within partial 18S rRNA sequences from Hepatozoon protozoan parasites from wild felines in South Africa was assessed and compared with data from domestic cats to assess patterns of host specificity. Lions, leopards, servals, a caracal and an African wildcat were all positive for parasites of the Hepatozoon felis-complex. However, haplotypes were not species-specific, and potential mixed infections were widespread. Additional genetic markers are needed to untangle the extremely complex situation of these parasites in both domestic cats and wild felines in South Africa.

Published

2020

7. Leptailurus serval

Author

Don E. Wilson and Russell A. Mittermeier

Subjects

Felidae, Mammalia, Carnivora, Leptailurus, Animalia, Biodiversity, Chordata, Leptailurus serval, Taxonomy

Abstract

11. Serval Leptailurus serval French: Serval / German: Serval / : Serval Taxonomy. Felis serval Schreber, 1776, Cape region of South Africa. Subspecific taxonomy in need of revision. Seven subspecies recognized. Subspecies and Distribution. L. s. serval Schreber, 1776 — S Zaire and Tanzania, S to Eastern Cape, South Africa. L. s. brachyurus Wagner, 1841 — Sierra Leone. L. s. constantinus Forster, 1780 — N Morocco and Algeria. On following pages: 12. African Golden Cat (Profelis aurata); 13. Caracal (Caracal caracal). L. s. hindet Wroughton, 1910 — Kenya E ofthe Rift Valley. L. s. liptostictus Pocock, 1907 — Uganda, Zaire, and N Angola. L. s. phillipsi G. M. Allen, 1914 — Lake Chad E to Ethiopian highlands. L. s. tanae Pocock, 1944 — dry zone of Ethiopia, Eritrea, and N Somalia. Descriptive notes. Head-body 59-92 cm, tail 20-38 cm; weight 7-13. 5 kg, with adult malesslightly larger than adult females. Tall, lightly-built cats with a short tail. Background coat color is tawny, marked with fine, freckle-sized black dots or larger black spots along the back and sides. The spots may form bars on the neck, shoulders, and limbs. The spot pattern is similar to that of the Cheetah and the skins of the two species are sometimes confused. Melanistic individuals are common in the highlands of Kenya and Ethiopia. Forits size, has the longest legs of any member of the cat family. Elongated metatarsal bones add considerably to the cat’s height. An adult stands 60 cm at the shoulder— more than 20 cm taller than the similarsized Ocelot. The face is small and delicate and the skull is lightly built. Ears are extremely large and oval shaped; backs of ears are black and marked with a white spot or line. Auditory bullae are large and well-developed. Habitat. Found in almostall types of grasslands and savannas in Africa. Their distribution is closely tied to water and associated vegetation, reed beds and marshes. Sometimes found along watercourses that penetrate semi-desert and desert and in forest areas interspersed with grassy glades and edges. Also found in subalpine habitats and high moorlands to 3000 m, and in farmlands with high rodent densities. They are absent from the dense rain forests of Central Africa. Use medium and tall grasslands and reed bedsas rest sites, although in areas with greater disturbance from people and livestock frequently retreat to patches of woody vegetation during the day. Food and Feeding. Specialized small mammal predators, well equipped to capture rodents in tall grass. Over 90% of the diet consists of prey weighing less than 200 g. Murid rodents dominate the diet. The multimammate mouse, Vlei rat, pygmy mouse, and various grass mice make up the bulk of the diet. Other murid prey include water rats, mole rats, gerbils, climbing mice, pouched mice, veld rats, groove-toothed rats, and black rats. Also eat shrews (Soricidae), golden moles (Chrysochloridae), cane rats (Thryonomyidae), and Scrub Hare (Lepus saxatilis). They occasionally take larger prey such as young Thomson's Gazelle and duikers, flamingos, black-bellied bustards (Lzssotis melanogaster), and rails. They also prey on smaller birds such as waxbills and quailfinches, larks, pipits, weavers, cisticolas, and swallows. Other prey includes grass and sand snakes (Colubridae), lizards (Agamidae), frogs, crabs, grasshoppers, crickets, and locusts. They have a specialized, almost foxlike, hunting style. Their long legs provide the large ears with a raised platform to “hear into” the tall grass. Long mobile toes and strong curved claws serve to hook prey from burrows or beneath vegetation. They locate their prey primarily by hearing and when hunting the cat walks slowly, stopping periodically to listen. It may stop and sit for 15 minutes at a time, scanning the area for sounds. When it hears something move it locates the exact position of the sound, then pounceslike a fox, leaping into the air and striking the prey with a blow from one or both feet. A single pounce may span 3-6 m and may be over one meter high.If the initial pounce is not successful it may be followed with a series ofstiff-legged bouncing jumps. Have been seen leaping 2-3 m into the air to seize birds and insects in flight. They also probe holes and crevices for nestling birds and rodents and can hook live fish out of water. Strong winds disruptits ability to hear and pinpoint the location of prey and hunting is often curtailed on windy days. Activity patterns. In Ngorongoro Crater, Tanzania, were largely crepuscular. Typically rested during midday and occasionally at night. One female increased her daytime activity significantly when she had kittens, spending more time traveling in search of food. In the Kamberg Biosphere Reserve, Natal, were predominantly nocturnal, possibly because of human disturbance. Movements, Home range and Social organization. In the Ngorongoro Crater an adult male and an female traveled an estimated at 2-4 km per night. Home range sizes of an adult male and an adult female in the Crater were at least 11-6 and 9-5 km? respectively. The full extent of their ranges could not be ascertained because they were not radio-tagged and there were times when they disappeared for several months from their normal haunts. However, one adult female was repeatedly sighted in the same area over a nine-year period, indicating strong site fidelity. Two radio-collaredfemales in the farmland that is part of the Kamberg Biosphere Reserve, Natal, had home ranges of 19-8 and 15-8 km? a tagged male’s range was 31-5 km? The adult male’s range in the Crater overlapped the smaller ranges of at least two adult females, but the home ranges of three adult females showed little overlap. In Kamberg, the adult male’s range overlapped extensively with that of an adult female. Two adult females utilized common areas, but they did so at different times. Adults of both sexes regularly scent mark as they move about their home ranges, although males mark at a much higher frequency. Urine spraying on trees, bushes, and other conspicuous objects is the most frequent type of marking, but also make scrape marks on the ground with their foreand hindfeet and leave their feces in prominent locations. They are solitary animals: sighting of groups or pairs consist of a mother with her young or a mating pair. Density estimates vary from eight per 100 km? in Natal’s Kamberg Biosphere Reserve to 41 per 100 km? in Ngorongoro Crater. Breeding. Females are polyestrous and in general births seem to occur about a month before the peak in murid rodent reproduction. Estruslasts from 1-4 days, and after a gestation period of about 74 days femalestypically give birth to two kittens (range 1-4 young). Young weigh about 250 g at birth. Birth dens are usually in dense vegetation or disused Aardvark or porcupine burrows. The mother begins to bring food back to the den when young are about a month old. Young acquire their permanent canine teeth at aboutsix months of age and begin to hunt for themselves shortly thereafter. Newly independent young are sometimes allowed to remain within their natal range for a year or more. In captivity, there are records of females becoming sexually mature when they were just over a year old, and a male wasfirst seen mating at 17 months of age. Status and Conservation. CITES Appendix II. Listed as species of Least Concern on The IUCN Red List. Not protected by national legislation over most ofits geographic range. Widely distributed in grasslands south of the Sahara but are declining in number in the west and extreme south of Africa. Their continued existence in Morocco and Algeria is doubtful. As specialized rodent hunters, present species is highly tolerant of agricultural activities and can play an important role in keeping rodent numbers down. They readily adapt to abandoned cultivation and second growth areas and as long as they are not persecuted may be able to live alongside humansin rural agricultural areas. Occasionally prey on poultry and young sheep and goats, but the problem is not considered serious. Attain their highest densities in wetland areas and wetland conservation is thought to be the key to their conservation. Bibliography. Boland (1990), Boland & Perrin (1993), Geertsema (1976, 1981, 1985), Kingdon (1971-1982), Mellen (1993), Nowell & Jackson (1996), Rosevear (1974), Smithers (1978), Stuart (1985), Sunquist & Sunquist (2002), Wackernagel (1968)., Published as part of Don E. Wilson & Russell A. Mittermeier, 2009, Felidae, pp. 54-168 in Handbook of the Mammals of the World – Volume 1 Carnivores, Barcelona :Lynx Edicions on pages 141-142, DOI: 10.5281/zenodo.6376899

Published

2009

8. Leptailurus Severtzov 1858

Author

W. Christopher Wozencraft

Subjects

Felidae, Mammalia, Carnivora, Leptailurus, Animalia, Biodiversity, Chordata, Taxonomy

Abstract

Leptailurus Severtzov, 1858. Rev. Mag. Zool. Paris, ser. 2, 10:389. TYPE SPECIES: Felis serval Schreber, 1776, by monotypy., Published as part of W. Christopher Wozencraft, 1993, Order Carnivora, pp. 279-348 in Mammal Species of the World (2 nd Edition), Washington and London :Smithsonian Institution Press on page 292, DOI: 10.5281/zenodo.7359191

Published

1993

9. Ellisville, I want you to know about Mia.

Author

Pokin, Steve

Subjects

SERVAL, CITY councils, LEPTAILURUS

Abstract

The article provides information on Mia, an African serval which was introduced at the City Council meeting in Saint Louis county, Missouri on February 15, 2012. The cat is being controlled by its owner and is not allowed to wander outside the house. Mia was introduced to the council as it works on amending the law on ownership of exotic animals.

Published

2012