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Acta Herpetologica 5(1): 13-17, 2010

Tarentola and other gekkonid records from Djebel Ouarkziz 
(SW Morocco)

Francisco Ceacero1,2, Enrique García-Muñoz3,5, Luis Pedrajas4, Ana Perera5, 
Miguel A. Carretero5

1 Departamento de Ciencia y Tecnología Agroforestal, Universidad de Castilla-La Mancha. Campus 
Universitario s/n, 02071 Albacete, Spain.
2 Sección de Recursos Cinegéticos, Instituto de Desarrollo Regional. Campus Universitario s/n, 02071 
Albacete, Spain
3 Departamento de Biología Animal, Biología Vegetal y Ecología, Universidad de Jaén. Campus de las 
Lagunillas s/n, 23071 Jaén, Spain.
4 Centro de Rescate de Anfibios y Reptiles. c/ Real 48, 23680 Alcalá la Real, Spain.
5 CIBIO, Centro de Investigação em Biodiversidade e Recursos Genéticos. Campus Agrário de Vairão, 
4485-661 Vairão, Portugal.

Submitted on: 2009, 31st August; revised on 2010, 8th February; accepted on 2010, 16th March.

Abstract. Tarentola mauritanica pallida was recorded for the first time far inland in 
the Djebel Ouarkziz and Oued Drâa area, in south-western Morocco. The taxonomic 
characters proposed to identify this subspecies, T. m. juliae, and T. boehmei are dis-
cussed in view of the specimens observed during this survey. Other observations of 
gekkonid lizards in this area are also reported.

Keywords. Tarentola mauritanica pallida, taxonomy, Morocco.

INTRODUCTION

South-western Morocco harbours a wide diversity of gekkonid lizards including 
Tarentola mauritanica (T. m. pallida and T. m. juliae), T. boehmei, T. annularis annularis, 
T. ephippiata hoggarensis, T. chazaliae, Ptyodactylus oudrii, Quedenfeldtia moerens, Steno-
dactylus petrii, S. sthenodactylus sthenodactylus, Saurodactylus brosseti, and Tropiocolotes 
algericus (Bons and Geniez, 1996; Geniez et al., 2004; Sindaco and Jeremčenko, 2008). 
Within this region, Djebel Ouarkziz and Drâa valley are two large geographic areas rel-
evant for the biogeography of some reptile species. Djebel Ouarkziz is a mountainous 
region northern to Drâa valley roughly oriented from WSW to ENE with great daily ther-
mal fluctuations, scarce precipitations, and low vegetation cover (Monod, 1958; El Ghar-
baoui, 1987). There, reptiles with both Macaronesian and Mediterranean affinities are 



14 F. Ceacero et alii

present. Even being a low altitude mountain chain (770 m a.s.l.) it constitutes a sizeable 
barrier to exchanges between northern and southern species (i.e., genus Uromastyx, Acan-
thodactylus, and Sphenops; Mateo et al., 1998; Fonseca et al., 2009). Drâa basin is a dry 
region occupied by hamada desert with Acacia tortilis raddiana and Argania spinosa trees 
and Fagonia sp. and Nitraria sp. scrubs in the basin (Guinea, 1948; Ozenda, 1991; personal 
observation).

A four days survey in the Djebel Ouarkziz and Drâa valley area in the triangle 
between the cities of Assa, Zag, and the Aouinet Torkoz oasis was conducted from 20 to 
23 May 2008 and the collected records of gekkonid lizards are here shown. All the speci-
mens were identified through 5th toe lamellae number and characteristics of dorsal tuber-
cles (Schleich et al., 1996; Geniez et al., 2004; Table 1). A T. boehmei sample was con-
firmed genetically using the 12s rRNA fragment following the same primers, methodology 
and conditions detailed in Harris et al. (2004a).

A gravid female (specimen #1) and a juvenile which corresponded morphologically 
to T. m. pallida were found in a ruined adobe house in the crossing of Drâa river basin 
and Assa-Zag road (locality 1; 28º31’N, 9º24’W, 214 m a.s.l.). An adult male was also 
found in Djebel Ouarkziz southern slope near the Assa-Zag road (specimen #2; locality 
2; 28º25’N, 9º25’W, 340 m a.s.l.). Additionally, new localities for this species were found 
in other regions. A gravid female of T. m. juliae was found at Kerdous pass, along the 
road from Tiznit to Tafraoute (specimen #3; locality 3; 29º33’N, 9º22’W; 1092 m a.s.l.) and 
one juvenile (specimen #4) and one gravid female (specimen #5) of the same subspecies 
were found in Agadir (locality 4; 30º25’N, 9º37’W; 5 m a.s.l.). T. boehmei was only found 
in Aouinet Torkoz oasis (specimens #6 and #7; locality 5; 28º28’N, 9º51’W; 285 m a.s.l.; 
genbank accession number GU593722). In addition to Tarentola, other geckos found in 
this area during field work were Tropiocolotes algericus (28º16’N, 9º20’W, 300 m a.s.l.) and 
S. s. sthenodactylus (28º35’N, 9º25’W, 299 m a.s.l.; 28º28’N, 9º24’W, 223 m a.s.l.; 28º18’N, 
9º21’W; 283 m a.s.l.; both sides of Djebel Ouarkziz).

Geniez et al. (2000) indicated that T. m. pallida has not been yet reported in this area 
but it was expected to occur there. Records from Drâa river basin and Djebel Ouarkz-
iz confirm this comment, and significantly increase the distribution of this subspecies to 
the east (Fig. 1). It is possible that the dry basin of the oued Drâa allow T. m. pallida to 

Table 1. Taxonomic characters of the observed specimens of genus Tarentola. The localities of the speci-
mens (see text) are shown in Fig. 1. Numbers in ‘Origin’ column refers to localities in text and Figure 1.

Origin ssp.
5th toe 

lamellae
Dorsal tubercles Colour

#1 Oued Drâa (1) T. m. pallida 17 Keeled without secondary rosette Opaque dark grey
#2 Djebel Ouarkziz (2) T. m. pallida 17 Keeled without secondary rosette Opaque dark grey
#3 Anti-Atlas (3) T. m. juliae 17 Keeled with (small) secondary rosette Opaque brownish grey
#4 Agadir (4) T. m. juliae 16 Keeled with secondary rosette Opaque beige
#5 Agadir (4) T. m. juliae 17 Keeled with secondary rosette Opaque beige
#6 Aouinet Torkoz (5) T. boehmei 16 Keeled without secondary rosette Traslucent rosy
#7 Aouinet Torkoz (5) T. boehmei 16 Keeled without secondary rosette Traslucent rosy



15Tarentola and other gekkonid records from Djebel Ouarkziz

Fig. 1. Distribution of Tarentola mauritanica ssp. (squared grey) and T. boehmei (uniform grey) in Moroc-
co. Distribution maps were extracted from IUCN (2009). Numbers correspond to the sampling localities 
indicated in the text. (▲) indicate proposed sympatric localities for both species. Discontinuous lines show 
the limits among the proposed subspecies of T. mauritanica (mauritanica in the north, juliae in the mid-
dle and pallida in the south; Joger, 1984; Geniez et al., 1999, 2004).

Fig. 2. Characteristics of dorsal tubercles of A) T. m. juliae from Agadir (specimen #5), B) T. m. juliae 
from Anti-Atlas (specimen #3), C) T. m. pallida from Djebel Ouarkziz (specimen #2), and D) T. bohemei 
from Aouinet Torkoz (specimen #7).



16 F. Ceacero et alii

expand inland in this northern range of its distribution (in this case more than 100 km), 
as previously proposed for Stenodactylus petrii (Herrmann and Herrmann, 2003).

In south-western Morocco, T. mauritanica ranges the Atlantic coast, while inland 
populations are scarce because it is substituted by T. boehmei (Bons and Geniez, 1996). 
Thus, both species (specifically the subspecies T. m. juliae) where proposed to be vicariant, 
although they may be sympatric in some places as Aoulouz, Tafraoute, Ouarzazate and Aît 
Bekkou (Joger, 1984; Bons and Geniez, 1996; Geniez et al., 1999). However, during this 
survey T. boehmei was only found in Aouinet Torkoz oasis, and thus, no strict sympatry 
was detected.

Both T. boehmei specimens found had 16 lamellae under 5th toe. Thus, the proposed 
characters of a higher number of lamellae in T. boehmei (more than 19 scales following 
Geniez et al., 2004; and 21 to 23 following Schleich et al., 1996) than in T. m. pallida (less 
than 19 scales following Geniez et al., 2004; 16 to 20 scales following Schleich et al., 1996) 
does not seem to have taxonomic value. T. mauritanica specimens were morphologically 
assigned to one of the proposed subspecies juliae or pallida. However, T. m. juliae speci-
men #3 (from Anti-Atlas) showed intermediate dorsal tubercles characteristics (Fig. 2) 
between specimen #5 (T. m. juliae from Agadir) and specimens #1 and #2 (T. m. pallida 
from Djebel Ouarkziz). These findings further confirm previous phylogenetic analyses 
showing that the mitochondrial lineages in Morocco are not in concordance with the cur-
rent subspecific arrangement (Harris et al. 2004 a, b). Moreover, none of the T. m. pallida 
specimens found showed the translucent aspect described by Geniez et al. (1999, 2004). 
Nevertheless, probably it was because they all were captured when active during daylight 
or before dawn. 

Finally, both T. algericus and S. s. sthenodactylus were previously known to occur in 
Djebel Ouarkziz area, and these records does not represent a significant increase in their 
distribution range, although records of S. s. sthenodactylus fulfil a distribution gap in the 
Assa region (Bons and Geniez, 1996). However, this area still remains poorly known and 
more fieldwork is needed.

ACKNOWLEDGEMENTS

Authors wish to thank S. Fahd, R. Sindaco and M.A.L. Zuffi, whose comments improved the 
final manuscript. A. Perera is supported by the Post-Doc grant SFRH/BPD/26546/2006 and lab costs 
were covered by project PTDC/BIA-BDE/67678/2006 (to MAC) both from Fundação para a Ciência 
e Tecnologia (FCT, Portugal).

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