Acta Herpetologica 13(1): 3-11, 2018

ISSN 1827-9635 (print) © Firenze University Press
ISSN 1827-9643 (online) www.fupress.com/ah

DOI: 10.13128/Acta_Herpetol-21327

Species diversity and distribution of lizards in Montenegro

Katarina Ljubisavljević1,2,*, Ljiljana Tomović3, Aleksandar Urošević1, Slađana Gvozdenović2, Vuk Iković2,
Vernes Zagora2, Nenad Labus4

1 Department of Evolutionary Biology, Institute for Biological Research “Siniša Stanković”, University of Belgrade, Bulevar Despota
Stefana 142, 11000 Belgrade, Serbia
2 Montenegrin Ecologists Society, Bulevar Sv. Petra Cetinjskog 73, 81000 Podgorica, Montenegro
3 Institute of Zoology, Faculty of Biology, University of Belgrade, Studentski trg 16, 11000 Belgrade, Serbia
4 Biology Department, Faculty of Science and Mathematics, University of Priština, Lole Ribara 29, 38220 Kosovska Mitrovica, Serbia
* Corresponding author. E-mail: katarina.ljubisavljevic@ibiss.bg.ac.rs

Submitted on: 2017, 25th September; revised on: 2018, 28th March; accepted on: 2018, 1st April
Editor: Aaron M. Bauer

Abstract. The southern part of Montenegro has been identified as an area with high diversity of herpetofauna. How-
ever, comprehensive studies of distribution and diversity patterns of reptiles on the country level are still missing.
Such studies are essential in designating areas of special conservation importance and nature protection planning in
a milieu of increased habitat loss and degradation due to rapid urbanization and tourism development in this small
Mediterranean country. To make progress on this problem, we analyzed distribution and diversity patterns of the liz-
ards in Montenegro using a large database consisting of literature data and our unpublished records. We found that
fifteen lizard species inhabit Montenegro, and two additional species may be present. The lizards were most diverse in
the Maritime biogeographic region of Montenegro, while low diversity was found predominantly along the state bor-
ders in the Mountain-valley region. The identified pattern of lizard diversity is at least partly influenced by sampling
bias. The eastern mountainous subregion had a distinct species composition compared to all other parts of the coun-
try. The East-Mediterranean chorotype was the most dominant, represented by seven species. The great diversity of
the lizard fauna of Montenegro can be attributed to its specific topographic position with great influence of Mediterra-
nean climate, heterogeneity of biomes, complex geological history and diverse physiogeographic features. High lizard
species richness in the Maritime region and a unique species composition in the eastern subregion of Montenegro
indicate that these areas are of high conservation interest.

Keywords. Balkan Peninsula, distribution pattern, Lacertilia, species richness.

INTRODUCTION

The number of studies of herpetofaunal distribu-
tion and diversity patterns in the Balkan countries has
increased over the last decade (Jablonski et al., 2012;
Cogălniceanu et al., 2013; Tomović et al., 2014; Steri-
jovski et al., 2014; Uhrin et al., 2016; Mizsei et al., 2017).
They have been driven not only by the creation of large
distributional databases resulting from intensive biodi-
versity surveys for conservation purposes (such as imple-

mentation of the Natura 2000 network, preparation of
national Red Lists and books of threatened species) and/
or research of particular taxa, but also by the recognition
that basic biogeographical studies have gained increased
significance in ecological, evolutionary and systematic
research (e.g., Jetz et al., 2011; Zachos and Habel, 2011).
Such studies are especially important in areas of high
conservation concern such as the Balkans, one of the
main European centers of endemism and speciation with-
in some herpetofaunal taxa (Džukić and Kalezić, 2004).

4 Katarina Ljubisavljević et alii

The southern part of Montenegro lies within the
Mediterranean belt, one of the globally recognized bio-
diversity hotspots (Myers et al., 2000). It has also been
identified as an area of high concentration of reptile
species (Crnobrnja-Isailović and Džukić, 1995; Džukić
and Kalezić, 2004; Sillero et al., 2014). This has been
further confirmed through studies on reptile distribu-
tion, intraspecific differentiation and speciation events in
this area (Böhme et al., 2007; Ljubisavljević et al., 2007;
Polović and Ljubisavljević, 2010; Polović and Čađenović,
2014; Jablonski et al., 2016). However, despite the evident
importance of herpetofaunal diversity of Montenegro,
there have been no comprehensive and detailed studies
of distribution and diversity patterns of reptile species for
the country as a whole.

The need for such studies is increasing due to
newly described or discovered lizards in Montenegro
(Ljubisavljević et al., 2007; Vergilov et al., 2016), recent
nomenclatural (Sillero et al., 2014) and taxonomic chang-
es (Jablonski et al., 2016; Marzahn et al., 2016) and the
necessity of updating the national list of protected species
and preparation of the Red Book of threatened species,
bearing in mind the growing negative influence of habi-
tat loss and degradation in recent years (Bataković et al.,
2014).

In order to make progress and respond to these
needs, we here present all available distribution data for
lizards in Montenegro and analyze their patterns of diver-
sity. In doing so, we provide the first zoogeographical
analysis of the most numerous reptile group in this coun-
try. In this way, our study presents a starting point for the
consideration of the distribution and diversity of all rep-
tiles in the territory of Montenegro.

MATERIAL AND METHODS

Study group

Lizards (Squamata: Lacertilia) comprise over 6000 species
worldwide, with over 80 species in Europe. Thirty-six of these
(belonging to six families) occur on the Balkan Peninsula and
adjacent islands (excluding Crete) (Speybroeck et al., 2016). The
lizards of the Balkans are quite diverse in terms of morphology
and lifestyle. They include small to large taxa, normal-legged
(true lizards), tiny-legged (e.g., Ablepharus kitaibelii) and legless
forms (slow worms), diurnal to nocturnal species (geckos), and
those with conspicuous or rather cryptic behavior (e.g., most
skinks and slow worms). There are ground-dwelling (e.g., Lac-
erta agilis and Zootoca vivipara), saxicoulous (e.g., Dalmatolac-
erta oxycephala and Dinarolacerta spp.) to semi-arboreal lizards
(e.g., green lizards) with oviparous (e.g., wall and green lizards)
and viviparous reproductive modes (e.g., Z. vivipara).

Study area

Montenegro is located in the west-central part of the Bal-
kan Peninsula, bounded by the Adriatic Sea to the south and
Dinaric Mountains to the north. The total land area of Mon-
tenegro is 13,812 km2. Marković (1970) divided the territory
of Montenegro into two main regions (Maritime and Moun-
tain-valley) and six subregions (Fig. 1). The Maritime region
is divided into Mediterranean and sub-Mediterranean subre-
gions. The Mediterranean subregion of Montenegro is narrow
coastal area (2–10 km wide), separated from the hinterland by
the steep Dinaric Mountains (Orjen, Lovćen, Sutorman and
Rumija). It is characterized by a typical Mediterranean climate
with hot dry summers and mild wet winters (Matvejev, 1961).
The sub-Mediterranean part of Montenegro includes valleys of
the Zeta River and Skadar Lake, hilly areas in the western and
central parts of the country and is bordered by high coastal
mountains to the south. The climate in this subregion is modi-
fied Mediterranean with somewhat cooler and moister winters
and long, dry and hot summers. The Mountain-valley region is
divided into central, eastern, northern and western subregions
according to geographic position. The Mountain-valley region is
dominated by medium to high mountains intersected by deep
canyons of the Tara and Piva Rivers in the northern subregion,
the Morača River in the central and the valley of the Lim River
in the eastern subregion. The western subregion is a largely high

Fig. 1. Geographical regions and subregions of Montenegro
(according to Stešević and Caković, 2013 and Vuksanović et al.,
2016). Maritime region (in light grey) with Mediterranean (M) and
sub-Mediterranean (SM) subregions. Mountain-valley region (in
dark grey) with western (W), central (C), eastern (E) and northern
(N) subregions.

5Lizards of Montenegro

dry karst area with scarce surface water bodies. The temperate
continental climate in the Mountain-valley region, characterized
by warm to hot summers and very cold winters, is often modi-
fied under the influence of high altitudes (mountain climate of
the alpine type with short wet summers and long, cold snowy
winters) or Mediterranean influence that spreads along the river
canyons, gorges and valleys far inland (modified continental cli-
mate with milder winters) (Stevanović and Stevanović, 1995).

Methods

The dataset of locations in Montenegro where lizards were
recorded consists of 1284 entries. The records were sorted by
the year of observation (unpublished records), or the year of
publication (literature records), and characterized as old or
recent according to whether they were published/observed
before or after 1990. This year was chosen in accordance with
other similar studies of the Balkan herpetofauna (Cogălniceanu
et al., 2013; Mizsei et al., 2017), and because more intense and
systematic surveys of herpetofauna in certain areas of the coun-
try started after 1990.

The majority of our records were collected during field
surveys in the last decade as results of independent projects or
sub-projects on lizards (see Acknowledgements). A number of
unpublished records came from the field databases of Dr. Miloš
Kalezić, Dr. Georg Džukić and late prof. Dr. Gojko Pasuljević.
All species were identified according to standard herpetological
literature by visual inspection of diagnostic characters (Arnold
and Ovenden, 2002). Regarding taxonomy and current nomen-
clature, we followed Sillero et al. (2014) and Speybroeck et al.
(2016). Accordingly, Anguis fragilis and A. graeca were treated
as a species complex, because the distinction between these
two taxa and their precise distribution in Montenegro require
further research (Sillero et al., 2014; Jablonski et al., 2016). The
distinct lineages of Lacerta viridis-bilineata complex which,
according to the newest study (Marzahn et al., 2016), occur in
the Western Balkans including Montenegro but have not been
taxonomically evaluated, were treated as Lacerta viridis com-
plex following Marzahn et al. (2016) and Mizsei et al. (2017).
The distributions of two species with doubtful old records
(Tarentola mauritanica and Podarcis tauricus), the presence of
which has not been confirmed during recent decades, are pre-
sented in Table 1 and Supplementary material, but excluded
from further biogeographic analyses. The geographic distribu-
tion of every lizard species in Montenegro was presented on
the country map overlain by a 10 × 10 km UTM (Universal
Transverse Mercator) grid (see Figs. S3-S7). Doubtful find-
ings were marked with a question mark (?). All georeferences
are based on the WGS84 datum. The database includes the fol-
lowing locality information: site name, coordinates in decimal
degrees, 10 × 10 km UTM square and data source type (see
Table S1). A general distribution map of lizards in Montene-
gro (see Fig. S2 and supplementary data file) was constructed
using the free DIVA-GIS 7.5.0 software (Hijmans et al., 2012),
based on relationship between species records and the UTM 10
x 10 km grid using the grid cell code as a common attribute
(Cogălniceanu et al., 2013).

Similarities among biogeographic subregions of Monte-
negro were evaluated using the Bray-Curtis dissimilarity index
(Bray and Curtis, 1957). Chorotypes were determined according
to Vigna Taglianti et al. (1999). For the analyses and designation
of centres of lizard diversity in Montenegro, we used an applica-
tion created in Visual Basic 6.1 in the program WinWord 2003
(Niketić, 1999), using the method of Walter and Straka (1970),
at National Grid UTM Reference for Montenegro 10 × 10 km.

RESULTS

The dynamics of publications on and data collection
for lizards in Montenegro from the end of the 19th cen-
tury to 2017 are presented in Fig. 2. An increase in field
research and publication effort is evident from the 1990s
onwards. There were many more records dated after 1990
than before 1990 (Table 1). The majority of the published
and unpublished data came from the last seven years,
when field survey activities have intensified. The increase
in published data during the nineties of the last century
may be attributed to the systematic research on the her-
petofauna, particularly lizards, of the Skadar Lake region.
Unpublished records from the 1970s–1980s came from
the unpublished notes of the late Prof. Dr. Pasuljević.

Fifteen lizard species from four families were con-
firmed to inhabit Montenegro (Table 2). The most diverse
group were lacertid lizards (11 species). About 54 % of the
UTM 10 × 10 km grid cells that cover the surveyed ter-
ritory contained only recent records of lizards, 34% con-
tained both old and recent records, whereas only 12 %
of them contained only records from surveys performed
prior to 1990 (Fig. S1). Roughly 63% of the total national
UTM grid cells contained records of at least one lizard

Fig. 2. Number of lizard records in Montenegro by year of collec-
tion (unpublished data) or publication (published data).

6 Katarina Ljubisavljević et alii

species, of which 22% were located in areas not covered
by previously published surveys. Consequently, 37% of the
UTM grid cells were without records (Fig. S2).

Only potentially introduced species or those with
doubtful records (Tarentola mauritanica, Podarcis tauri-
cus, P. siculus) had more old than recent records (Table

1). Nearly all species, with the exception of Hemidac-
tylus turcicus, had more published than unpublished
records. The species with the highest number of records
was Podarcis muralis (240), followed by Dalmatolacerta
oxycephala (139), Podarcis melisellensis (137) and Pseudo-
pus apodus (134). Ablepharus kitaibelii (1), Dinarolacerta

Table 1. The list of lizard species in Montenegro with number of records. Old and recent records correspond to the publication/collection
dates before and after 1990. (*) species with doubtful old records, the presence of which has not been confirmed in recent times.

Species Total records Published records Unpublished records Old records Recent records

Hemidactylus turcicus 45 20 25 12 33
Tarentola mauritanica* 1 1 0 1 0
Algyroides nigropunctatus 44 30 14 4 40
Dalmatolacerta oxycephala 139 99 40 39 100
Dinarolacerta montenegrina 14 13 1 0 14
Dinarolacerta mosorensis 123 119 4 37 86
Lacerta agilis 54 36 18 7 47
Lacerta viridis complex 90 58 32 9 81
Lacerta trilineata 112 66 46 18 94
Podarcis melisellensis 137 72 65 24 113
Podarcis muralis 240 166 74 34 206
Podarcis tauricus* 2 2 0 2 0
Podarcis siculus 8 8 0 5 3
Zootoca vivipara 22 19 3 7 15
Ablepharus kitaibelii 1 1 0 0 1
Anguis fragilis complex 118 70 48 22 96
Pseudopus apodus 134 77 57 14 120
Total 1284 857 427 235 1049

Table 2. List of confirmed lizard species in Montenegro with endemicity status for the Balkans, marginality and range fragmentation on the
territory of Montenegro, extent of their occurrence in subregions, and UTM squares and chorotype classification.

Family Species
Marginal

zone
Balkan

endemic
Fragmented

range
Subregion

N of
UTMs

Chorotype

Gekkonidae Hemidactylus turcicus M,SM 14 Mediteranean
Lacertidae Algyroides nigropunctatus + M,SM,C 22 E-Mediterranean

Dalmatolacerta oxycephala + + M,SM,C,N,W 40 E-Mediterranean
Dinarolacerta montenegrina + + E 4 E-Meditrranean

Dinarolacerta mosorensis + + + M,SM,C,N,W 21 E-Mediterranean
Lacerta agilis + + C,E,N,W 21 Euro-Siberian

Lacerta viridis complex M,SM,C,E,N,W 39 S-European
Lacerta trilineata + M,SM 31 E-Mediterranean

Podarcis melisellensis + M,SM,W 38 E-Mediterranean
Podarcis muralis M,SM,C,E,N,W 70 S-European
Podarcis siculus + ? M 1 S-European
Zootoca vivipara + + E 9 Euro-Siberian

Scincidae Ablepharus kitaibelii + ? E 1 E-Mediterranean
Anguidae Anguis fragilis complex M,SM,C,E,N,W 45 Euro-Siberian

Pseudopus apodus M,SM 38 Turano-Mediterranean

7Lizards of Montenegro

montenegrina (14) and Zootoca vivipara (22) had the low-
est number of records for the confirmed and native spe-
cies (Table 1).

Almost half of the confirmed species (47%) reaches
the edge of their distribution in Montenegro, while 40% of
them are endemic to the Balkan Peninsula (Table 2). Most
of species that inhabited medium to high-altitude areas of
Montenegro (Dinarolacerta mosorensis, Lacerta agilis and
Z. vivipara) had fragmented ranges (Table 2, Figs. S4 and
S5). Recent discovery (A. kitaibelii) and/or low number
of confirmed records (P. siculus) precluded evaluation of
range fragmentation in these species (Table 2).

Podarcis muralis was the most widely distributed liz-
ard in Montenegro, inhabiting the territory covered by
39% of the national UTM grid cells, followed by P. meli-
sellensis, P. apodus, L. viridis complex, D. oxycephala and
A. fragilis complex which occurred in 21% to 25% of
UTM grid cells (Figs. S4-S7). Podarcis siculus, A. kitaibelii
and D. montenegrina were the rarest species, confined to
fewer than 3% of the UTM cells covering the Montene-
grin territory (Figs. S4, S6 and S7).

The highest numbers of species (eight to nine) were
recorded in 10 UTM squares located along the Adriatic
coast, in the Skadar Lake region, the Zeta River plain and
around the capital of Montenegro (Podgorica). However,
a great number of UTM squares (30) contained only one
lizard species, while nearly one third of UTM squares
that cover the territory of Montenegro were without any
records. Most of the squares with no lizard species or low
lizard diversity were located in the north-eastern border
area and western part of the country (Figs. 3, S1 and S2).

In line with these results, species diversity was great-
er in the Maritime than in the Mountain-valley region.
Mediterranean and sub-Mediterranean subregions were
inhabited by 11 and 10 species, respectively, whereas cen-
tral, eastern and western subregions had seven species
each (Table 2). The lowest number of species (six) was
found in the northern, high mountain subregion. Three
taxa (L. viridis complex, P. muralis and A. fragilis com-
plex) with both wide geographic and altitudinal ranges
were distributed in all subregions.

According to our cluster analysis Mediterranean and
Sub-Mediterranean subregions were the most similar to
one another (Fig. 4). They formed a distinct cluster due
to identical composition of 10 lizard species, with only
one additional species (P. siculus) found in the Mediter-
ranean subregion. Northern, central and western parts of
the Mountain-valley region formed another cluster, dif-
fering mutually by no more than one species. The eastern
subregion was the most distinct due to the presence of
three species (A. kitaibelii, D. montenegrina and Z. vivipa-
ra) that were not found in other subregions.

The lizards of Montenegro were classified into five
chorotypes (Table 2). The most common chorotype was
East-Mediterranean, represented by seven species. The
Euro-Siberian and South-European chorotypes were rep-

Fig. 4. Cluster diagram of Bray-Curtis similarity index of lizard fau-
na for biogeographic subregions in Montenegro.

Fig. 3. Diversity of lizard species in Montenegro in the 10 × 10 km
UTM grid. Colours and sizes of squares present numbers of lizard
species per UTM cell (left-hand side of the legend), and colours and
sizes of the rectangles present numbers of UTM squares with corre-
sponding numbers of lizard species (right-hand side of the legend).

8 Katarina Ljubisavljević et alii

resented with three species each. The rarest chorotypes
were Mediterranean and Turano-Mediterranean, repre-
sented with one species each.

DISCUSSION

With 15 species confirmed, Montenegro is amongst
the countries with the highest diversity of lizards in the
Balkans (e.g., Petrov, 2007; Krofel et al., 2009; Jablon-
ski et al., 2012; Cogălniceanu et al., 2013; Sillero et al.,
2014; Tomović et al., 2014; Uhrin et al., 2016; Mizsei et
al., 2017). Furthermore, 10 recorded species are regional
endemics, having marginal ranges in Montenegro or a
fragmented range in it (Table 2), contributing to a high
potential for further evolutionary diversification of the
lizard fauna (Džukić and Kalezić, 2004).

A comparative analysis of the diversity of lacertid
lizards among the Balkan countries showed a clear dis-
tinction between the western and eastern countries, with
Montenegro grouping together with Bosnia and Herze-
govina, Croatia and Slovenia within the western Balkan
cluster (see Urošević et al., 2015). This pattern remained
the same when we included all lizards (results not
shown). The lizard fauna of Montenegro is most similar
to those of Bosnia and Herzegovina and Croatia, mostly
owing to the presence of the western Balkan endemic
lacertids Dalmatolacerta oxycephala and Dinarolacerta
mosorensis in these three countries. Actually, the only dif-
ference in lizard fauna between Montenegro and Bosnia
and Herzegovina is the presence of the endemic Dinarol-
acerta montenegrina in Montenegro. This points out the
important impact of landscape features of the Dinaric
Mountains in shaping biodiversity of the western Balkans
(e.g., Redžić et al., 2011; Ivković and Plant, 2015).

A great diversity of lizard fauna inside the small-
est Balkan country can be attributed to its specific geo-
graphic position with great influence of Mediterranean
climate, heterogeneity of biomes, complex geological his-
tory and diverse physiogeographic features ranging from
high mountains in the north, through deep river canyons
and valleys to the broad plain in the south (Matvejev,
1961; Matvejev and Puncer, 1989). Macroevolutionary
events, such as speciation within the genus Dinarolacerta
(Ljubisavljević et al, 2007), or division of the “mainland
clade” of Dalmatolacerta oxycephala (Podnar et al., 2014)
took place in the Montenegrin mountains. Furthermore,
heterogeneous mountain topography and proximity to
the Mediterranean were important factors in shaping
genetic diversity of two species complexes of lizards, the
L. viridis complex and the A. fragilis complex (Böhme
et al., 2007; Jablonski et al, 2016; Marzahn et al., 2016).

Marzahn et al. (2016) revealed the existence of two dis-
tinct lineages of L. viridis complex in Montenegro, while
Jablonski et al. (2016) identified contact zones between
two lineages of Slow worms (A. fragilis complex) in
southernmost part of the country.

Although the presence of five chorotypes points out
the variability of zoogeographical links, the predomi-
nance of Mediterranean chorotypes clearly indicates a
dominant influence of the Mediterranean. Higher lizard
diversity in areas under the influence of Mediterranean
climate is not surprising and is evidenced in other studies
of reptile diversity of the Balkan countries (e.g., Jablonski
et al., 2012; Urošević et al., 2015; Mizsei et al., 2017).

A great diversity of lizards, and herpetofauna in
general, in the Skadar Lake region and coastal zone
(Crnobrnja-Isailović and Džukić, 1995; Džukić and
Kalezić, 2004; Polović and Ljubisavljević, 2010; Polović
and Čađenović, 2014; this study) indicates that these are-
as are of particular conservation interest, especially bear-
ing in mind the trend of rapid urbanization and develop-
ment of touristic infrastructure in recent years. Although
a wide range of EU policies and legislation which address
specific problems evidenced in coastal environments were
adopted in Montenegro, their implementation has been
slow and represents a significant challenge for future con-
servation initiatives (Knežević et al., 2015). Furthermore,
the presence of some endemic species (D. montenegrina)
and species with scarce records at the periphery of their
distribution (A. kitaibelii, Z. vivipara) in the eastern
mountainous subregion indicate that this area should be
also considered during conservation planning.

Observed patterns of lizard diversity in Montenegro
could be influenced by the elevational gradient, which is
correlated with temperature and mediated by precipita-
tion (McCain, 2010; Mizsei et al., 2017), but also by the
so-called “Linnean shortfall” (the knowledge gap of the
number of existing species) and “Wallacean shortfall”
(incomplete knowledge about the geographical distri-
bution of species, which is usually related to variation
in survey effort) (Lomolino, 2004; Hortal et al., 2015).
The relatively recent discovery of D. montenegrina
(Ljubisavljević et al., 2007) and the possible existence of
still unidentified or undescribed taxa, e.g., within L. virid-
is complex (Böhme et al., 2007; Marzahn et al., 2016), A.
fragilis complex (Jablonski et al., 2016) or D. oxycephala
mainland clade (Podnar et al., 2014), may indicate that
lizard diversity is subject to the Linenan shortfall. Large
area without lizard distributional data in the Mountain-
valley region suggests that this pattern may be also affect-
ed by the Wallacean shortfall. For example, UTM squares
that cover the areas of Durmitor Mt., Bjelasica Mt. and
Krnovo mountain plateau have the highest number of

9Lizards of Montenegro

species in the Mountain-valley region and, at the same
time, are hotspots of sampling effort. These mountains
have been surveyed frequently during the course of dif-
ferent herpetological studies (Džukić, 1991; Tomović et
al., 2004; Polović and Čađenović, 2013).

Nevertheless, considerably higher sampling effort
during the recent period has contributed to reduce gaps
in the knowledge of the distribution of lizards in Mon-
tenegro. New records extended national ranges for many
species. The ranges of L. agilis, and the L. viridis and A.
fragilis complexes were extended to the east and west,
while the ranges of P. melisellensis and P. muralis were
extended to the central and western part of the country.
New data also helped to fill in some distribution gaps for
H. turcicus, Algyroides nigropunctatus and D. oxycephala.

Among the confirmed species, only P. siculus, repre-
sented by the stenoendemic subspecies P. s. cattaroi could
have anthropochorous origin (Ljubisavljević et al., 2005;
Podnar et al., 2005). The Moorish gecko (T. mauritanica),
a species with a doubtful record in Montenegro (Bruno,
1988), is also easily transported by humans and consid-
ered to be introduced to the Adriatic coast and Greece
(Krofel et al., 2009; Speybroeck et al., 2016).

Our results showed that distribution gaps still remain
for most species, especially in the north-eastern and
north-western parts of Montenegro. Survey efforts should
be focused on lizards with high conservation concern
such as Dinarolacerta spp. (Ljubisavljević et al., 2017).
Distribution gaps in areas with suitable habitats for at
least some of the wide-ranging species (e.g., L. viridis
complex, P. muralis, A. fragilis complex) suggest that a
scattered distribution pattern is rather a result of a lack
of systematic field surveys than a consequence of specific
ecological demands. Perhaps the best example of this is
the recent discovery of A. kitaibelii, a species known from
neighboring countries, in eastern Montenegro (Vergilov
et al., 2016).

Other species, such as Mediodactylus kotschyi and
Podarcis tauricus, known from border regions of north-
western Albania (Haxhiu, 1998; Mizsei et al., 2017), are
also likely to be discovered in Montenegro in upcoming
years, due to the presence of suitable habitats in south-
eastern Montenegro and lack of barriers to dispersal of
these species. Furthermore, northern, western and north-
eastern areas of Montenegro should be of high priority
for future systematic reptile field research.

ACKNOWLEDGEMENTS

Research was funded by Ministry of Education, Sci-
ences and Technological Development of Serbia (grant

No. 173043) and by the Rufford Small Grants Foundation
(grant nos. 14714-1, 19600-2, 19309-2). We would like to
acknowledge the constructive reviews provided by Shai
Meiri and anonymous reviewers that greatly improved
interpretation of our data. We would like to thank Dr.
Marjan Niketić and Dr. Gordana Tomović (Belgrade) for
help with distribution maps and biodiversity analyses. We
are grateful to Dr. Miloš Kalezić for sharing distribution
data with us. Field data of late professor Gojko Pasuljević
were also included in this paper. Also, many thanks to
Milan Fatić, Nenad Preradović and Dejan Bogdanović for
help in the fieldwork.

SUPPLEMENTARY MATERIALS

Supplementary material associated with this article
can be found at <http://www.unipv.it/webshi/appendix>
manuscript number 21327.

REFERENCES

Arnold, N., Ovenden, D. (2002): A Field Guide to the
Reptiles and Amphibians of Britain and Europe. 2nd
Edition. Harper Collins, London.

Bataković, M., Ćirović, R., Roganović, D., Vešović Dubak,
N., Janković, M., Vugdelić,M., Vulikić, B., Jovović, J.
(2014): The fifth national report to the United Nations
Convention on Biological Diversity. Ministry of Sus-
tainable Development and Tourism of Montenegro,
Podgorica. http://www.mrt.gov.me/ResourceManager/
FileDownload.aspx?rId=174998&rType=2.

Böhme, M., Fritz, U., Kotenko, T., Džukić, G.,
Ljubisavljević, K., Tzankov, N., Berendonk, T. (2007):
Phylogeography and cryptic variation within the
Lacerta viridis complex (Lacertidae, Reptilia). Zool.
Scripta 36: 119-131.

Bray, J.R, Curtis, J.T. (1957): An ordination of upland for-
est communities of southern Wisconsin. Ecol. Mon-
ogr. 27: 325-349.

Bruno, S. (1988): The herpetofauna from the islands of
Cres, Krk and Ada. Bull. Ecol. 19: 265-281.

Cogălniceanu, D., Rozylowicz, L., Székely, P., Samoilă, C.,
Stănescu, F., Tudor, M., Székely, D., Iosif, R. (2013):
Diversity and distribution of reptiles in Romania.
ZooKeys 341: 49-76.

Crnobrnja-Isailović, J., Džukić, G (1995): First report
about conservation status of herpetofauna in the Ska-
dar Lake Region (Montenegro): current situation and
perspectives. In: Scientia Herpetologica, pp. 373-380.
Llorente, G.A., Montori, A., Santos, X., Carretero,

10 Katarina Ljubisavljević et alii

M.A. Eds, Asociación Herpetológica Española, Barce-
lona.

Džukić, G. (1991): Vodozemci i gmizavci. Građa za faunu
vodozemaca i gmizavaca Durmitora (Amphibia, Rep-
tilia). In: Fauna Durmitora 4, pp. 9-78. Nonveiller, G.
Ed, Crnogorska akademija nauka i umjetnosti, Tito-
grad.

Džukić, G., Kalezić, M. (2004): The biodiversity of
amphibians and reptiles in the Balkan Peninsula. In:
Balkan Biodiversity: Pattern and Process in the Euro-
pean Hotspot, pp. 1-26. Griffiths, H., Krystufek, B.,
Reed, J.M. Eds, Springer, Dordrecht.

Haxhiu, I. (1998): The Reptilia of Albania: species com-
position, distribution, habitats. Bonn. Zool. Beitr. 48:
35-57.

Hijmans, R.J., Guarino, L., Bussink, C., Mathur, P., Cruz,
M., Barrentes, I., Rojas, E. (2012): DIVA-GIS Version
7.5.0. A geographic information system for the analy-
sis of biodiversity data. Available at: http://www.diva-
gis.org.

Hortal, J., de Bello, F., Diniz-Filho, J.A.F., Lewinsohn, T.M
L., Lobo, J.M., Ladle, R.J. (2015): Seven shortfalls that
beset largescale knowledge on biodiversity. Ann. Rev.
Ecol. Evol. Syst. 46: 523-549.

Ivković, M., Plant, A. (2015): Aquatic insects in the
Dinarides: identifying hotspots of endemism and spe-
cies richness shaped by geological and hydrological
history using Empididae (Diptera). Insect Conserv.
Diver. 8: 302-312.

Jablonski, D., Jandzik, D., Gvoždik, V. (2012): New
records and zoogeographic classification of amphib-
ians and reptiles from Bosnia and Herzegovina.
North-West J. Zool. 8: 324-337.

Jablonski, D., Jandzik, D., Mikulíček, P., Džukić, G.,
Ljubisavljević, K., Tzankov, N., Jelić, D., Thanou, E.,
Moravec, J., Gvoždík, V. (2016): Contrasting evolu-
tionary histories of the legless lizards slow worms
(Anguis) shaped by the topography of the Balkan Pen-
insula. BMC Evol. Biol. 16: 99.

Jetz, W., McPherson, J.M., Guralnick, R.P. (2011): Inte-
grating biodiversity distribution knowledge: toward a
global map of life. Trends. Ecol. Evol. 27: 151-159.

Knežević, J., Mlakar, A., Berlengi, G., Marković, M.,
Marković, M. (2015): National strategy for integrat-
ed coastal zone management. Ministry of Sustain-
able Development and Tourism of Montenegro, Pod-
gorica. (http://www.oceanactionhub.org/file/1898/
download?token=ogIAejuw)

Krofel, M., Cafuta, V., Planinc, G., Sopotnik, M.,
Šalamun, A., Tome, S., Vamberger, M., Žagar, A.
(2009): Razširjenost plazilcev v Sloveniji: pregled
podatkov, zbranih do leta 2009. Nat. Slov. 11: 61-99.

Ljubisavljević, K., Tome, S., Džukić, G., Kalezić, M.L.
(2005): Morphological differentiation of isolated pop-
ulation of the Italian Wall Lizard (Podarcis sicula) of
the southeastern Adriatic coast. Biologia 60: 189-195.

Ljubisavljević, K., Arribas, O., Džukić, G., Carranza, S.
(2007): Genetic and morphological differentiation
of Mosor Rock Lizards, Dinarolacerta mosorensis
(Kolombatović, 1886), with the description of a new
species from the Prokletije Mountain Massif (Monte-
negro) (Squamata: Lacertidae). Zootaxa 1613: 1-22.

Ljubisavljević, K., Polović, L., Iković, V., Vuksanović, S.,
Vukov, T. (2017): Habitat use of endemic Balkan Rock
Lizards (Dinarolacerta spp.). Salamandra 53: 279-284.

Lomolino, M.V. (2004): Conservation Biogeography.
In: Frontiers of Biogeography: new directions in the
geography of nature, pp. 293-296. Lomolino, M.V.,
Heaney, L.R., Eds, Sinauer Associates, Sunderland,
Massachusetts.

Marzahn, E., Mayer, W., Joger, U., Ilgaz, Ç., Jablonski, D.,
Kindler, C., Kumlutaş, Y., Nistri, A., Schneeweiß, N.,
Vamberger, M., Žagar, A., Fritz, U. (2016): Phyloge-
ography of the Lacerta viridis complex: mitochondrial
and nuclear markers provide taxonomic insights. J.
Zool. Syst. Evol. Res. 54: 85-105.

Matvejev, S. (1961): Biogeography of Yugoslavia 9. Bio-
logical Institute, Belgrade.

Matvejev, S., Puncer, I. (1989): Map of Biomes-landscapes
of Yugoslavia. Natural History Museum, Belgrade.

Marković, M. (1970): Geografske oblasti Socijalističke
Federativne Republike Jugoslavije. Z avod za
udžbenike i nastavna sredstva Srbije, Beograd.

McCain, C.M. (2010): Global analysis of reptile elevation-
al diversity. Glob. Ecol. Biogeogr. 19: 541-553.

Mizsei, E., Jablonski, D., Végvári, Z., Lengyel, S., Szabol-
cs, M. (2017): Distribution and diversity of reptiles in
Albania: a novel database from a Mediterranean hot-
spot. Amphibia-Reptilia 38: 157-173.

Myers, N., Mittermeier, R.A., Mittermeier, C.G., da Fon-
seca, G.A.B., Kent, J. (2000): Biodiversity hotspots for
conservation priorities. Nature 403: 853-858.

Niketić, M. (1999): Softverske aplikacije za procenu ste-
pena ugroženosti taksona. In: Crvena knjiga flore
Srbije I, pp. 404-405. Stevanović, V., Ed, Ministarstvo
za životnu sredinu Republike Srbije, Biološki fakultet
Univerziteta u Beogradu i Zavod za zaštitu prirode
Republike Srbije, Beograd.

Petrov, V. (2007): Amphibians and reptiles of Bulgaria:
fauna, vertical distribution, zoogeography, and conser-
vation. In: Biogeography and Ecology of Bulgaria, pp.
85-107. Fet, V., Popov, A., Eds, Springer-Verlag, Berlin.

Podnar, M., Mayer, W., Tvrtković, N. (2005): Phyloge-
ography of the Italian wall lizard, Podarcis sicula, as

11Lizards of Montenegro

revealed by mitochondrial DNA sequences. Mol. Ecol.
14: 575-588.

Podnar, M., Bruvo Mađarić, B., Mayer, W. (2014): Non-
concordant phylogeographical patterns of three widely
codistributed endemic Western Balkans lacertid liz-
ards (Reptilia, Lacertidae) shaped by specific habitat
requirements and different responses to Pleistocene cli-
matic oscillations. J. Zool. Syst. Evol. Res. 52: 119-129.

Polović, L., Ljubisavljević, K. (2010): Herpetofaunal rich-
ness of the Skadar Lake region, Montenegro: a review
and update. Scripta Sci. Nat. 1: 113-121.

Polović, L., Čađenović, N. (2013): The Herpetofauna of
Krnovo (Montenegro). Nat. Montenegr. 12: 109-115.

Polović, L., Čađenović, N. (2014): The Herpetofauna
of the Great Ulcinj Beach area including Ada Island
(Montenegro). Turk. J. Zool. 38: 104-107.

Redžić, S., Bulić, Z., Hadžiablahović, S. (2011): High
mountain vegetation of Dinarides (W. Balkan). Glas.
Repub. Zavoda Zašt. Prir. Prir. Muz. u Podgorici,
31-32: 7-46.

Sillero, N., Campos, J., Bonardi, A., Corti, C., Creemers,
R., Crochet, P-A., Crnobrnja-Isailović, J., Denoël, M.,
Ficetola, G.F., Gonçalves, J., Kuzmin, S., Lymberakis,
P., de Pous, P., Rodríguez, A., Sindaco, R., Speybroe-
ck, J., Toxopeus, B., Vieites, D.R., Vences, M. (2014):
Updated distribution and biogeography of amphibians
and reptiles. Amphibia-Reptilia 35: 1-31.

Speybroeck, J., Beukema, W., Bok, B., Voort Van Der, J.,
Velikov, I. (2016): Field Guide to the Amphibians and
Reptiles of Britain and Europe. Bloomsbury, London/
New York.

Sterijovski, B., Tomović, Lj., Ajtić, R. (2014): Contribution
to the knowledge of the reptile fauna and diversity in
FYR of Macedonia. North-West. J. Zool. 10: 83-92.

Stešević, D., Caković, D. (2013): Catalogue of vascular
flora of Montenegro I. Department of Natural Sci-
ences, Montenegrin Academy of Sciences and Arts,
Podgorica.

Stevanović, V., Stevanović, B. (1995): Osnovni klimatski,
geološki i pedološki činioci biodiverziteta kopnenih
ekosistema Jugoslavije. In: Biodiverzitet Jugoslavije
sa pregledom vrsta od međunarodnog značaja, pp.
75-95. Stevanović, V., Vasić, V., Eds, Biološki fakultet
i Ecolibri, Beograd.

Tomović, Lj., Ajtić, R., Crnobrnja-Isailović, J. (2004):
Contribution to distribution and conservation of
batrachofauna and herpetofauna on Bjelasica Moun-
tain in Montenegro. In: The Biodiversity of the Bio-
gradska Gora National Park I, pp. 140-148. Pešić, V.,
Ed, Department of Biology, University of Montenegro
and Centre for Biodiversity of Montenegro, Podgorica.

Tomović, Lj., Ajtić, R., Ljubisavljević, K., Urošević, A.,
Jović, D., Krizmanić, I., Labus, N., Đorđević, S.,
Kalezić, M.L., Vukov, T., Džukić, G. (2014): Reptiles
in Serbia - distribution and diversity patterns. Bull.
Nat. Hist. Mus. Belgrade 7: 129-158.

Uhrin, M., Havaš, P., Minařík, M., Kodejš, K., Bugoš, I.,
Danko, S., Husák, T., Koleska, D., Jablonski, D. (2016):
Distribution updates to amphibian and reptile fauna
for the Republic of Macedonia. Herpetol. Notes. 9:
201-220.

Urošević, A., Ljubisavljević, K., Tomović, Lj., Krizmanić,
I., Ajtić, R., Simović, A., Labus, N., Jović, D.,
Golubović, A., Anđelković, M., Džukić, G. (2015):
Contribution to the distribution and diversity of lac-
ertid lizards in Serbia. Ecol. Montenegr. 2: 197-227.

Vergilov, V., Hristov, G., Lukanov, S., Lambevska, A.,
Tzankov, N. (2016): First record of Ablepharus kitaibe-
lii (Bibron & Bory de Saint-Vincent, 1833) in Monte-
negro. Bihar. Biol. 10: 65-66.

Vigna Taglianti, A., Audisio, P., Biondi, M., Bologna, M.,
Carpaneto, G., De Biase, A., Fattorini, S., Piattella, E.,
Sindaco, R., Venchi, A., Zapparoli, M. (1999): A pro-
posal for a chorotype classification of the Near East
fauna, in the framework of the western Palearctic
region. Biogeographia 20: 31-59.

Vuksanović, S., Tomović, G., Niketić, M., Stevanović, V.
(2016): Balkan endemic vascular plants of Monte-
negro - critical inventory with chorological and life-
form analyses. Willdenowia 46: 387-397.

Walter, H., Straka, H. (1970): Arealkunde. Floristich-his-
toriche Geobotanik. In: Einfürung in die Phytologie
III/2, pp. 1-478. Walter, H., Ed, Eugen Ulmer, Stutt-
gart.

Zachos, F.E., Habel, J.C. (2011): Biodiversity Hotspots -
Distribution and Protection of Conservation Priority
Areas. Springer-Verlag, Berlin-Heidelberg.

Acta Herpetologica
Vol. 13, n. 1 - June 2018
Firenze University Press
Species diversity and distribution of lizards in Montenegro
Katarina Ljubisavljević1,2,*, Ljiljana Tomović3, Aleksandar Urošević1, Slađana Gvozdenović2, Vuk Iković2, Vernes Zagora2, and Nenad Labus4
The first demographic data and body size of the southern banded newt, Ommatotriton vittatus (Caudata: Salamandridae)
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Mattia Falaschi1,2,*, Marco Mangiacotti3, Roberto Sacchi3, Stefano Scali2, Edoardo Razzetti4
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