Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-24T20:00:55.409Z Has data issue: false hasContentIssue false

Saharan cheetah Acinonyx jubatus hecki, a ghostly dweller on Niger's Termit massif

Published online by Cambridge University Press:  10 June 2015

Claudio Sillero-Zubiri*
Affiliation:
Wildlife Conservation Research Unit, Department of Zoology, University of Oxford, The Recanati-Kaplan Centre, Tubney House, Tubney, OX13 5QL, UK
Susana Rostro-García
Affiliation:
Wildlife Conservation Research Unit, Department of Zoology, University of Oxford, The Recanati-Kaplan Centre, Tubney House, Tubney, OX13 5QL, UK
Dylan Burruss
Affiliation:
Fisheries, Wildlife and Conservation Ecology, New Mexico State University, Las Cruces, USA
Alkabouss Matchano
Affiliation:
Saharan Conservation Fund, Niger
Abdoulaye Harouna
Affiliation:
Saharan Conservation Fund, Niger
Thomas Rabeil
Affiliation:
Saharan Conservation Fund, Niger
*
(Corresponding author) E-mail [email protected]
Rights & Permissions [Opens in a new window]

Abstract

The Saharan cheetah Acinonyx jubatus hecki, once broadly distributed across north-western Africa, now occurs in only 9% of its former range and is categorized as Critically Endangered on the IUCN Red List. The Saharan cheetah is rare and threatened but there is a lack of reliable data on its population status and distribution. We report sightings of cheetahs in the Termit & Tin Toumma National Nature and Cultural Reserve of Niger, recorded using three methods: camera-trap surveys, sign surveys and interviews with local people. We recorded three individuals in camera-traps, three direct sightings of lone individuals, 43 distinct cheetah tracks, and one cheetah scat, which suggest a resident population. Most respondents had negative attitudes towards carnivores, including the cheetah. Paradoxically, local nomads reported no conflict with the cheetah and perceived that the number of cheetahs was declining. Attitudes towards carnivores were correlated with respondents’ age and level of education. Efforts to reduce killing of carnivores and their prey are needed but it is equally important for conservation initiatives to focus on increasing local knowledge about wildlife through education, particularly targeted at the younger generation. Our findings highlight the benefits of using various techniques for recording the presence of a rare carnivore.

Type
Short Communication
Copyright
Copyright © Fauna & Flora International 2015 

Once broadly distributed across north-western Africa (Nowell & Jackson, Reference Nowell and Jackson1996), the Saharan or north-west African cheetah Acinonyx jubatus hecki is categorized as Critically Endangered on the IUCN Red List (Belbachir, Reference Belbachir2008) and occurs in only 9% of its former range (Fig. 1; IUCN SSC, 2012), with an estimated population of < 250 mature individuals (Belbachir, Reference Belbachir2008). The Saharan cheetah differs morphologically from the sub-Saharan cheetah, the former being somewhat smaller, with shorter and paler fur (Dragesco-Joffé, Reference Dragesco-Joffé1993; Hunter & Barrett, Reference Hunter and Barrett2011). Compared to cheetahs elsewhere, the skull of the Saharan subspecies is smaller (Saleh et al., Reference Saleh, Helmy and Giegengack2001) and the face has few or no spots, with the black tear stripes often faint or absent, and tail rings muted (Dragesco-Joffé, Reference Dragesco-Joffé1993). Overall levels of genetic differentiation together with mitochondrial DNA monophyly support the distinctiveness of the north–east African subspecies (Charruau et al., Reference Charruau, Fernandes, Orozco-terWengel, Peters, Hunter and Ziaie2011).

Fig. 1 Historical and current range of the Saharan cheetah Acinonyx jubatus hecki in north-western Africa (modified from IUCN SSC, 2012, and Belbachir, Reference Belbachir2008).

The Saharan cheetah persists only in Algeria, Benin, Burkina Faso and Niger (Belbachir, Reference Belbachir2008). It is known to be rare and threatened but there is a lack of reliable data on its population status and distribution (Caro, Reference Caro, Kingdon and Hoffmann2013). Surveys to confirm presence and numbers, based on camera trapping and scats, have been carried out only in Algeria (Busby et al., Reference Busby, Gottelli, Wacher, Marker, Belbachir and De Smet2009; F. Belbachir, pers. comm.), and similar surveys elsewhere are a priority. However, it is difficult to gather baseline information on the Saharan cheetah because of its low density and elusive nature. Camera traps have been used successfully for detecting rare and cryptic species, including wild felids (e.g. Balme et al., Reference Balme, Hunter and Slotow2009), but are used infrequently to study cheetahs because their large ranges make it difficult to find suitable sites to place cameras (e.g. southern Africa, Marnewick et al., Reference Marnewick, Funston and Karanth2008; Iran, Farhadinia et al., Reference Farhadinia, Akbari, Mousavi, Eslami, Azizi and Shokouhi2013; Algeria, F. Belbachir, pers. comm.). In northern Africa, cheetah densities are estimated to be 0.25–1.0 per 1,000 km2 (IUCN SSC, 2012), making detection difficult.

The Saharan cheetah has been recorded in the Sahelo–Saharan areas of north and central Niger (Belbachir, Reference Belbachir2008), including the Air mountains (Giazzi, Reference Giazzi1996). A strategic planning exercise identified Niger as potentially significant for cheetah conservation (IUCN SSC, 2012). Here we present results from camera-trap surveys, sign surveys, and interviews with local people in a new reserve in south-eastern Niger.

The surveys were conducted in the Termit & Tin Toumma National Nature and Cultural Reserve (97,000 km2; Fig. 2), which was established in March 2012. The landscape is dominated by sand dunes, with sparse grasses and shrubs in the Tin Toumma area, and patches of grass, shrubs and scattered trees dominated by Acacia raddiana in the Termit massif (Wacher et al., Reference Wacher, Newby, Monfort, Dixon and Houston2004). Ground cover in the massif area, where most of the surveys were conducted, was unvegetated dune fields, peneplains and washes, sand sheet, or rock. The Reserve is inhabited by five ethnic groups: the Toubou Teda, Toubou Daza, Tuareg, Arab and Peul, all primarily nomadic pastoralist communities located near wells throughout the area, where they raise camels, sheep and goats. The region is home to > 20 mammal species (Claro & Newby, Reference Claro and Newby2005) and is considered a stronghold for several threatened species, including the Critically Endangered addax Addax nasomaculatus (Rabeil et al., Reference Rabeil, Newby and Harouna2008).

Fig. 2 Detections of the Saharan cheetah in the Termit massif during 2006–2011 based on camera-trap surveys, direct sightings, and records of scat and tracks. The shaded rectangle on the inset indicates the location of the main map within Termit & Tin Toumma National Nature Reserve in south-eastern Niger.

The status of the cheetah in the Reserve was assessed using three methods: camera-trap surveys, sign surveys, and interviews with local people. We used 10 Reconyx cameras (PC800 and RC60; Reconyx Inc., Holmen, USA) mostly baited with sardines and/or commercial lures (S. Stanley Hawbaker & Sons, Fort Loudon, USA). Cameras were set at 111 locations in the Termit massif, distributed throughout each ground cover class, for c. 1 month each (mean number of nights deployed 29 ± SD 13.9). Each camera was placed opportunistically in one of 306 2 × 2 km grid cells, mounted 40 cm off the ground. Security concerns and associated logistical challenges made complete randomization of camera placement difficult, and therefore some cells in the grid were missed. Sign surveys, initially consisting of three transects bordering the northern block of the Termit massif and later covering the northern, centre and southern blocks, were conducted during 2006–2011. Off-road transects were surveyed in 4 × 4 vehicles travelling at 5−10 km h−1, with the observer positioned at the front of the vehicle to maximize track detection. Data were recorded with CyberTracker (CyberTracker Conservation, Cape Town, South Africa). Presence data were plotted using QGIS v. 1.8.0.

Interview surveys, administered during May–July 2010, focused on households in 38 settlements in the Tasker area (south-west of the massif) and comprised two questionnaires, one examining levels of livestock losses and husbandry methods used by local people, and another exploring their attitudes and perceptions towards carnivores and human–wildlife conflict. We met with local leaders to gain access to these communities and carry out the interviews. Full details of the interview methodology are in Sillero-Zubiri et al. (Reference Sillero-Zubiri, Burruss, Matchano and Robinson2013).

The 306 cells surveyed covered c. 1,220 km2. A trapping effort of 3,258 trap nights yielded two independent records of lone adult cheetahs, photographed at dawn (05.00–06.00) on 22 July and 19 August 2010. In a subsequent camera-trap survey by the Sahara Conservation Fund a third individual was recorded on 30 October 2011. The individual photo-captured on 19 August was identified as male (Plate 1); the sex of the other two could not be identified because of the poor quality of the images. It is possible that our decision to bait camera sites may have repelled cheetahs, which are averse to scavenging, thereby reducing the likelihood of detection (S. Durant, pers. comm.); this could partly explain why trap success was significantly lower in the Reserve than in Ahaggar in Algeria.

Plate 1 Male Saharan cheetah recorded by a camera trap on 19 August 2010 in the Termit & Tin Toumma National Nature Reserve, Niger (Fig. 1).

Although Krausman & Morales (Reference Krausman and Morales2005) assigned the cheetah of this region to the subspecies Acinonyx jubatus soemmerringii, reported for South Niger (Rabeil, Reference Rabeil2003; Claro et al., Reference Claro, Leriche, Van Syckle, Rabeil, Hergueta, Fournier and Alou2006; Caro, Reference Caro, Kingdon and Hoffmann2013), the photographed individuals displayed lighter tear stripes on the face, faint spots, a pale coloured coat and a skull morphology (Plate 1) resembling the Saharan cheetah. Similarly, Claro & Sissler (Reference Claro and Sissler2003) reported a free-ranging female cheetah in this region showing the characteristic pale tear streaks and coat of the Saharan cheetah photographed by Dragesco-Joffé (Reference Dragesco-Joffé1993). Our images are among the few photographs of the Saharan cheetah in Niger, or anywhere in the Sahara (photographs by Dragesco-Joffé, Reference Dragesco-Joffé1993, and Claro & Sissler, Reference Claro and Sissler2003, and camera-trap photographs from Algeria in 2009, F. Belbachir, pers. comm.). In addition to the cheetah, several potential prey species were recorded, including dorcas gazelle Gazella dorcas, bustard Chlamydotis sp., hare Lepus capensis, hedgehog Paraechinus sp., and camel Camelus dromedarius (Caro, Reference Caro, Kingdon and Hoffmann2013). Other potential prey occurring in the Reserve include scimitar-horned oryx Oryx dammah, dama gazelle Gazella dama, and small livestock.

In addition to the photographed cheetahs we recorded three direct sightings of lone cheetahs of unknown sex, on 11 September 2007 (11.04), 31 August 2009 (09.35) and 15 September 2010 (09.31). Sign surveys recorded 43 distinct cheetah tracks and one cheetah scat.

The low number of cheetah sightings and sign recorded in the Reserve during the study period reflects the difficulties of detecting these rare animals. However, the findings also highlight the benefits of combining multiple techniques for detecting rare carnivores. Based on our observations and previous records in the area (Claro & Sissler, Reference Claro and Sissler2003; Wacher et al., Reference Wacher, Newby, Monfort, Dixon and Houston2004), the individuals recorded probably belong to a resident population.

The cheetah population in Termit, estimated to comprise < 10–40 individuals (Belbachir, Reference Belbachir2008; Walker, Reference Walker2010), is unlikely to be viable (IUCN SSC, 2012). Nonetheless, Niger was identified as being potentially significant for cheetah conservation because it contains a sizeable area of the cheetah's possible range, and supports connectivity among areas with resident or possible populations (IUCN SSC, 2012). Furthermore, there are only five extant populations of A. jubatus hecki at most, and therefore information on the Termit population is critically important for the conservation of the species (S. Durant, pers. comm.; IUCN SSC, 2012).

Sixty percent of the local people interviewed (n = 107) stated that they perceived a decline of cheetahs in the region, which is unsurprising given that illegal hunting of wildlife occurs in Termit (Rabeil et al., Reference Rabeil, Newby and Harouna2008), and 36% of respondents proposed retaliatory killing of carnivores as a mitigation measure to reduce loss of livestock. Paradoxically, livestock predation by cheetahs was not reported by any respondents. Most respondents had negative attitudes towards carnivores, with 12% claiming that the negative perception of cheetahs was associated with their attacks on people, although we could not find any evidence of such attacks having taken place, nor have they been recorded elsewhere (Hunter & Barrett, Reference Hunter and Barrett2011). Respondents had a more positive perception of the cheetah than of other carnivores (e.g. golden jackal Canis aureus). The relative tolerance towards the cheetah may indicate some level of cultural importance for the species, which could provide a foundation for an educational campaign. Education and age were correlated with opinions about carnivores. Targeting education about wildlife at the younger generation (which had the most negative attitudes) could change attitudes and possibly increase levels of tolerance towards Saharan carnivores. Educational efforts must be accompanied by effective anti-poaching strategies that reduce hunting pressure on carnivores and their prey. The future of the vulnerable biodiversity of the Reserve will depend on the management actions taken, and our findings could help conservation stakeholders to refine current conservation strategies. The Reserve could play a major role in cheetah conservation in the region if restored and protected sufficiently. Failing to protect the remaining Saharan cheetah in the Reserve will result in the further decline, and possible extinction, of this Critically Endangered carnivore, an important and charismatic member of Niger's fauna. However, since this study was completed the study site has been largely off limits because of the lack of security in the region.

Acknowledgements

The Saharan Carnivores Project is a collaboration between the Wildlife Conservation Research Unit (University of Oxford), Sahara Conservation Fund, Saint Louis Zoo, and Marwell Wildlife, under the aegis of the IUCN SSC Cat, Canid and Hyaena Specialist Groups. This study was made possible by an agreement between Sahara Conservation Fund and Niger's Ministry of Environment and Direction de la Faune, de la Chasse et des Aires Protégées. We met with local leaders to discuss access to the communities for the attitudinal surveys. Tim Wacher provided useful comments. CSZ was funded by the Born Free Foundation.

Biographical sketches

Claudio Sillero-Zubiri works on carnivore conservation and human–wildlife conflict and is the Chair of the IUCN SSC Canid Specialist Group. Susana Rostro-García is a conservation biologist with an interest in wild felid conservation. Dylan Burruss studied small carnivores in Termit for his MSc. Alkabouss Matchano, Abdoulaye Harouna and Thomas Rabeil were closely involved in the establishment of the Termit & Tin Toumma Reserve, and study the wildlife there.

References

Balme, G.A., Hunter, L.T.B. & Slotow, R. (2009) Evaluating methods for counting cryptic carnivores. The Journal of Wildlife Management, 73, 433441.Google Scholar
Belbachir, F. (2008) Acinonyx jubatus ssp. hecki. IUCN Red List of Threatened Species v. 2014.3. Http://www.iucnredlist.org [accessed 4 November 2013].Google Scholar
Busby, G.B.J., Gottelli, D., Wacher, T., Marker, L., Belbachir, F., De Smet, K. et al. (2009) Genetic analysis of scat reveals leopard Panthera pardus and cheetah Acinonyx jubatus in southern Algeria. Oryx, 43, 412415.Google Scholar
Caro, T. (2013) GENUS Acinonyx Cheetah. In Mammals of Africa. Volume V. Carnivores, Pangolins, Equids and Rhinoceroses (eds Kingdon, J. & Hoffmann, M.), Bloomsbury Publishing, London, UK.Google Scholar
Charruau, P., Fernandes, C., Orozco-terWengel, P., Peters, J., Hunter, L., Ziaie, H. et al. (2011) Phylogeography, genetic structure and population divergence time of cheetahs in Africa and Asia: evidence for long-term geographic isolates. Molecular Ecology, 20, 706724.CrossRefGoogle ScholarPubMed
Claro, F., Leriche, H., Van Syckle, S., Rabeil, T., Hergueta, S., Fournier, A. & Alou, M. (2006) Survey of the cheetah in W National Park and Tamou fauna reserve, Niger. CAT News, 45, 47.Google Scholar
Claro, F. & Newby, J. (2005) The Massif du Termit: the last sanctuary for Sahelo-Saharan wildlife? Oryx, 39, 120123.Google Scholar
Claro, F. & Sissler, C. (2003) Saharan cheetahs in the Termit region of Niger. CAT News, 38, 2324.Google Scholar
Dragesco-Joffé, A. (1993) Le Guépard saharien, un Félin égaré en enfer. In La Vie Sauvage au Sahara. Delachaux et Niestlé, Lausanne, Switzerland.Google Scholar
Farhadinia, M.S., Akbari, H., Mousavi, S.-J., Eslami, M., Azizi, M., Shokouhi, J. et al. (2013) Exceptionally long movements of the Asiatic cheetah Acinonyx jubatus venaticus across multiple arid reserves in central Iran. Oryx, 47, 427430.Google Scholar
Giazzi, F. (1996) La Réserve Naturelle Nationale de l'Air et du Ténéré (Niger). MH/E, WWF et UICN, sous la direction de F. Giazzi, Gland, Switzerland.Google Scholar
Hunter, L. & Barrett, P. (2011) Carnivores of the World. Princeton University Press, Princeton, USA.Google Scholar
IUCN SSC (2012) Regional Conservation Strategy for the Cheetah and African Wild Dog in Western, Central and Northern Africa. IUCN, Gland, Switzerland.Google Scholar
Krausman, P.R. & Morales, S.M. (2005) Acinonyx jubatus . Mammalian Species, 771, 16.Google Scholar
Marnewick, K., Funston, P.J. & Karanth, K.U. (2008) Evaluating camera trapping as a method for estimating cheetah abundance in ranching areas. South African Journal of Wildlife Research, 38, 5965.Google Scholar
Nowell, K. & Jackson, P. (1996) Wild Cats. Status Survey and Conservation Action Plan. IUCN/SSC Cat Specialist Group, Gland, Switzerland and Cambridge, UK. Google Scholar
Rabeil, T. (2003) Distribution potentielle des grands mammifères dans le Parc du W au Niger. PhD thesis. Université Paris Diderot, Paris, France.Google Scholar
Rabeil, T., Newby, J. & Harouna, A. (2008) Conservation of Termit and Tin Toumma (Niger). Annual Report for 2007 of the Sahara Conservation Fund. Sahara Conservation Fund, Mountain Center, USA.Google Scholar
Saleh, M.A., Helmy, I. & Giegengack, R. (2001) The cheetah, Acinonyx jubatus (Schreber, 1776) in Egypt (Felidae, Acinonychinae). Mammalia, 65, 177194.Google Scholar
Sillero-Zubiri, C., Burruss, D., Matchano, A. & Robinson, O. (2013) Predation on Livestock and Pastoralists’ Attitudes Towards Wild Carnivores in Termit & Tin-Toumma, East Niger. Sahara Carnivores Project. Wildlife Conservation Research Unit, University of Oxford, UK. Http://www.saharaconservation.org/IMG/pdf/Carnivores_and_Pastoralism_in_Niger_Termit-Tin_Toumma_Reserve_Nov_2013.pdf [accessed 23 March 2015].Google Scholar
Wacher, T.J., Newby, J., Monfort, S.L., Dixon, A.M. & Houston, W. (2004) Sahelo–Saharan Interest Group (SSIG) Wildlife Surveys. Part 2. Central and South-Eastern Niger (February–March 2002). ZSL Conservation Report No.2. The Zoological Society of London, London, UK.Google Scholar
Walker, M. (2010) ‘Ghostly’ Saharan cheetah filmed in Niger, Africa. BBC Earth News. Http://news.bbc.co.uk/earth/hi/earth_news/newsid_9306000/9306399.stm [accessed 23 March 2015].Google Scholar
Figure 0

Fig. 1 Historical and current range of the Saharan cheetah Acinonyx jubatus hecki in north-western Africa (modified from IUCN SSC, 2012, and Belbachir, 2008).

Figure 1

Fig. 2 Detections of the Saharan cheetah in the Termit massif during 2006–2011 based on camera-trap surveys, direct sightings, and records of scat and tracks. The shaded rectangle on the inset indicates the location of the main map within Termit & Tin Toumma National Nature Reserve in south-eastern Niger.

Figure 2

Plate 1 Male Saharan cheetah recorded by a camera trap on 19 August 2010 in the Termit & Tin Toumma National Nature Reserve, Niger (Fig. 1).