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The basic anatomy of the lacertid hemipenis (intromittent organ) and methods for its investigation are described. In many members of the Lacertidae, the hemipenis has a structure quite unlike that of other squamate reptiles: the distal lobes of the retracted organ are complexly folded and there is a well-defined supporting structure of dense connective tissue, the armature. This incorporates blood sinuses and has an intramuscular portion embedded in the m. retractor penis magnus and two club-shaped bodies, the clavulae, that support the lobes in the erect organ. Unarmatured hemipenes occur in some lacertids and, like those of other squamates, possess sac-like lobes in the retracted state, but they are singular in having the lobes invested by the m. retractor penis magnus. It is argued that many of these apparently primitive hemipenes are in fact secondary derivatives of the armatured type. There is considerable inter-specific variation in hemipenial structure which is described systematically. In some cases this involves differences in size, asymmetry and simplification, which may arise as physical isolating mechanisms and is useful in distinguishing otherwise very similar species, particularly in the genus Mesalina (p. 1253). Other shared derived hemipenial features provide useful information about relationships between species and higher taxa and a summary of the hypotheses that they support is given (p. 1254).

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The structure of copulatory organs is used very widely in systematics, both for differentiating species and for working out relationships. Differences between taxa may arise from a variety of sources, including non-homology, differences in other parts of the animal, direct selection on copulatory organs, development of physical isolating mechanisms and pleiotropic events. Physical isolating mechanisms seem likely to account for the abrupt differences, involving size, asymmetry and simplifications, that are useful in distinguishing very similar lacertid species. Although these differences usually seem to arise at the end of a speciation event they can simultaneously be the initiating mechanism in a second one. Copulatory organs appear to have high inherent stability, probably resulting from frequent location in strongly homoeostatic environments, single function, insensitivity to niche shift and inertia due to the need to conform to the genitalia of the opposite sex. This stability may be overridden at times by direct selection on the organs themselves or pleiotropic events. Such changes tend to be retained because efficiency in copulation depends not on any absolute genital architecture but on close conformity of the organs. It is the combination of relative stability and tangible input of varied change, which tends to be retained, that so often makes these structures good indicators of relationship.

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Algeria is a case study of biodiversity ignorance. To date, there are neither complete inventories for any taxa nor atlas across the country! Yet, Algeria is of great importance for global biodiversity. The coastal area of Algeria is part of the global biodiversity hostpot which is the Mediterranean perimeter and has several regional red spots of biodiversity. Moreover, the Saharan part encompasses a diversity of endemic organisms adapted to the strong conditions of drought. The Algerian authorities are deploying an ambitious project for conservation aiming to reach 50% of the country`s surface as protected areas! However, the location of these protected areas and their management don’t obey to a scientific evidence based, but are rather based on experts opinion. The main aim of this thesis is the study of the biodiversity ignorance distribution in Algeria by focusing on the `Linnean, Wallacean, and Darwinian Shortfalls` and to contribute to reduce them. The first chapter aims at reducing the Linnean Shortfall by proposing 1) a first checklist of reptiles and amphibians of Algeria which is the result of an accurate review of scientific publications on these taxa in North Africa. 2) a first pre-assessment of the conservation status of reptiles and amphibians of Algeria for the production of the first national red list. The second part of this manuscript deals with the ignorance of the geographical distribution of species. The purpose of this part is to map the ignorance which is defined as the difference between the expected specific richness diversity and the observed specific richness. The predicted species richness was modelled with two approaches: 1 ecological niche modelling with the maximum entropy method (MaxEnt) to predict the suitable habitats for each species and then add the different binary layers of species presence to calculate the specific richness. 2) Minimum convex polygon method was used to create range maps of each species and were auditioned to obtain predicted species richness. Both approaches have shown the same trend at a national scale: the concentration of the richest areas along the Saharan Atlas and the High Plateaus which are the transition zone between the Sahara and the Mediterranean part of Algeria. The opposition of the Saharan with a low species richness and the northern part with a higher species richness. Finally, the Saharan massifs of the Hoggar and Tassili form a very distinct zone with a much greater wealth compared to the rest of the Sahara. In terms of gaps, in the northern part, Kabylie, El Kala National Park and the Oran region are fairly well surveyed. In the Sahara, only a few points are clearly well prospected as Biskra, Bechar and some areas of the Hoggar and Tassili. The third part deals with the distribution of genetic llineages in the Maghreb. The aim of this section is to locate the phylogeographic breaks between the divergent eastern and western populations of the Maghreb and to try to understand the mechanisms that led to this pattern of genetic diversity. To answer these questions, I carried out a comparative phylogeography on 11 species of reptiles and amphibians with continuous and wide distribution in the Maghreb. Two suture zones have been identified: one zone on the border of Algeria and Morocco, the other in Kabylia west of the Soummam valley. The divergences between the eastern clades and the western clades occurred between the pre-Messinian periods up to the pliopleistocene boundary and were maintained in climatic refugia in the East and West of the Maghreb.

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Cette note est destinée à faire le point sur le peuplement herpétologique du Maroc. Elle comprend: — Une liste des formes effectivement présentes au Maroc, avec les affinités biogéographiques des espèces, et éventuellement les travaux récents où ces formes sont étudiées. — Des commentaires sur les espèces africaines douteuses en Europe et européennes douteuses en Afrique. — Une liste des espèces à rechercher au Maroc. — Une discussion sommaire sur la systématique de certaines espèces marocaines.

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La présente étude vient apporter les premières données faunistiques et écologiques sur les amphibiens et reptiles en Kabylie de la Soummam, région dont, à notre connaissance, aucune étude n’a été consacrée à ce sujet auparavant. Le travail de terrain s’est étalé du début avril à fin juin 2006, en suivant un protocole d’échantillonnage par stations au niveau des principales zones humides de la région (cours d’eau permanents et mares temporaires) ainsi que de quelques milieux terrestres. Un total de 6 espèces d’amphibiens et 17 espèces de reptiles a été identifié dans la région. Les données recueillies sur le peuplement herpétologique et le milieu ont fait l’objet d’une discussion autour des aspects faunistiques, biogéographiques et écologiques de l’herpétofaune de la zone étudiée et dégager quelques pistes de recherche à développer dans l’avenir.

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The list of the amphibians and reptiles of Western Sahara includes 46 species (4 amphibians and 42 reptiles), while 13 further species unknown in this area could conceivably be discovered there. Among the important facts, we exclude Tarentola boehmei from the fauna of Western Sahara, and report on the effect of the Jbel Ouarkziz which acts as a biogeographical boundary, separating the herpetofaunal elements from Morocco (north of the Jbel Ouarkziz) and from Western Sahara. The herpetofauna of Western Sahara is composed as follows: 10 species can be considered as being of Mediterranean affinities, 2 as North Saharan, 19 as purely Saharan, 7 as being of Sahelian affinities, 4 are tropical relicts and 4 are limited to the oceanic fringe of the Sahara and can be considered as `continental Macaronesian endemics`. This confirms that the herpetofauna of Western Sahara is mainly of Saharan origin but that this area is, in spite of its apparently uniform landscape, a biogeographical cross-roads for Amphibians and Reptiles. This can be related to the wide latitudinal amplitude of Western Sahara and by the climate contrast between the oceanic fringe, comparatively humid and temperate, and the remaining of the country, subject to a dry Saharan climate with strongly contrasted temperature.

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Se aportan los resultados herpetológicos de una expedición científica realizada en abril-mayo de 2012 al sur de Niger, una remota zona que incluye la Reserva Natural de Termit & Tin Toumma. Se observaron 27 especies de reptiles y tres de anfibios. Debido al elevado des- conocimiento herpetológico de la región, muchas de las nuevas citas aumentan o cubren gran- des vacios en la distribución de las especies halladas.

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In this study we review the species of lizards in the genus Mesalina (Lacertidae) and present a new key for their identification. We also obtained five photos of each species from the British Museum of Natural History that illustrate the dorsal, lateral (right and left), and ventral views of the head and the femoral pores of each species. The papers with the original descriptions of each species were reviewed and used in preparation of the key. Some remarks about the habitat, natural history, updated distribution map and previous taxonomic changes are explained.

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Aim We explored the phylogenetic relationships of species of Mesalina, using one nuclear and two mitochondrial loci. This genus of lacertid lizards is widely distributed in North Africa and the Middle East and our goal was to develop a scenario capable of explaining the current distribution and evolutionary patterns within the genus in the context of the wider historical biogeography of the region. Location North Africa and the Middle East. Methods The assembled dataset consisted of 193 Mesalina individuals, representing 12 species distributed across the geographical range of the genus. Bayesian and maximum likelihood methods were used to support phylogenetic inferences on two mitochondrial (cytochrome b and 16S ribosomal RNA) and one nuclear (beta-fibrinogen intron 7) markers. Palaeogeographical and palaeoclimatic data were used to support the inferred phylogeographical patterns. Results Mesalina lizards exhibit high genetic diversity and complex phylogenetic patterns, leading to an unsatisfactory systematic hypothesis of one paraphyletic and three polyphyletic traditional species. The estimated divergence times place the origin of the genus in the early Miocene (c. 22 Ma) and the divergence of most currently recognized species in the middle to late Miocene. The inferred ancestral distribution suggests that the genus and most of its species originated somewhere in Arabia or the Middle East, with the exception of the Mesalina olivieri complex, which may be of African origin. Main conclusions Phylogenetic reconstruction based on the three loci studied suggests a higher than expected cryptic diversity of Mesalina in North Africa and the Middle East. We suggest that the tectonic movements of the Arabian plate, coupled with the climatic changes occurring since the Miocene, may be responsible for the phylogeographical patterns of North African and Middle Eastern Mesalina.

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Aim To map and assess the richness patterns of reptiles (and included groups: amphisbaenians, crocodiles, lizards, snakes and turtles) in Africa, quantify the overlap in species richness of reptiles (and included groups) with the other terrestrial vertebrate classes, investigate the environmental correlates underlying these patterns, and evaluate the role of range size on richness patterns. Location Africa. Methods We assembled a data set of distributions of all African reptile species. We tested the spatial congruence of reptile richness with that of amphibians, birds and mammals. We further tested the relative importance of temperature, precipitation, elevation range and net primary productivity for species richness over two spatial scales (ecoregions and 1° grids). We arranged reptile and vertebrate groups into range-size quartiles in order to evaluate the role of range size in producing richness patterns. Results Reptile, amphibian, bird and mammal richness are largely congruent (r = 0.79–0.86) and respond similarly to environmental variables (mainly productivity and precipitation). Ecoregion size accounts for more variation in the richness of reptiles than in that of other groups. Lizard distributions are distinct with several areas of high species richness where other vertebrate groups (including snakes) are species-poor, especially in arid ecoregions. Habitat heterogeneity is the best predictor of narrow-ranging species, but remains relatively important in explaining lizard richness even for species with large range sizes. Main conclusions Reptile richness varies with similar environmental variables as the other vertebrates in Africa, reflecting the disproportionate influence of snakes on reptile richness, a result of their large ranges. Richness gradients of narrow-ranged vertebrates differ from those of widespread taxa, which may demonstrate different centres of endemism for reptile subclades in Africa. Lizard richness varies mostly with habitat heterogeneity independent of range size, which suggests that the difference in response of lizards is due to their ecological characteristics. These results, over two spatial scales and multiple range-size quartiles, allow us to reliably interpret the influence of environmental variables on patterns of reptile richness and congruency.

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Taxonomic changes and new findings concerning the subfamily Eremiainae in Africa are summarized to update SZCZERBAK`s (1975) catalogue of the African Sand Lizards. Furthermore, a key to the species and subspecies of the genus Pedioplanis is provided.

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Aim Body size is instrumental in influencing animal physiology, morphology, ecology and evolution, as well as extinction risk. I examine several hypotheses regarding the influence of body size on lizard evolution and extinction risk, assessing whether body size influences, or is influenced by, species richness, herbivory, island dwelling and extinction risk. Location World-wide. Methods I used literature data and measurements of museum and live specimens to estimate lizard body size distributions. Results I obtained body size data for 99% of the world`s lizard species. The body size–frequency distribution is highly modal and right skewed and similar distributions characterize most lizard families and lizard assemblages across biogeographical realms. There is a strong negative correlation between mean body size within families and species richness. Herbivorous lizards are larger than omnivorous and carnivorous ones, and aquatic lizards are larger than non-aquatic species. Diurnal activity is associated with small body size. Insular lizards tend towards both extremes of the size spectrum. Extinction risk increases with body size of species for which risk has been assessed. Main conclusions Small size seems to promote fast diversification of disparate body plans. The absence of mammalian predators allows insular lizards to attain larger body sizes by means of release from predation and allows them to evolve into the top predator niche. Island living also promotes a high frequency of herbivory, which is also associated with large size. Aquatic and nocturnal lizards probably evolve large size because of thermal constraints. The association between large size and high extinction risk, however, probably reflects a bias in the species in which risk has been studied.

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The authors present an actualized and commented list of the amphibia and reptilia species noted in Morocco. The changes witch happened during the 16years after the last checklist established by BoNS(1972) are discussed. These are new additions (species recently discovered in Morocco and new taxa for Science, sorne of witch resulting from systematic modifications of other species or subspecies) and changes of names (new combinations) or status. Problems concerning the exact delimitation of several species are discussed, insisting particularly on the most conflictual groups (e.g. Chalcides, Aoenthodactylus). Thus we think that the number of species in the present checklist is probably surestimated. Taking in account these problems, we must consider this inventory as provisional, till clearing up the several questions still in suspense.

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This is the first comprehensive review of the reptiles of Mauritania. It includes distributional information and comments. Mauritania harbors 86 species of reptiles belonging to 21 families. Among these families, Colubridae and Lacertidae are the most diverse, with 14 and 13 species respectively. Other families, such as Agamidae, Gekkonidae, Scincidae or Viperidae are also well represented. Among the 80 continental species, 47.5% are Saharan, 33.8% Afrotropical, 16.2% Sahelian and 2.5% Mediterranean. The marine turtles form another important group, with six species. Eight species are excluded from the country list because of old identification errors, there is not enough evidence of their presence or due to changes in political borders. Among the species expected to occur in Mauritania, at least nine may occur in Saharan environments, 13 in the Sahel savannah and two may have been introduced.

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Mesalina is a genus of small xeric lizards currently comprising 19 species distributed from West Africa throughout the Saharo-Sindian deserts to the Indo-Iranian plateau. Previous phylogenetic studies highlighted the presence of cryptic diversity within the genus and described new Mesalina species from its eastern lineages. In this study, we investigated the taxonomy and systematics within the Mesalina olivieri species complex, focusing on the Atlantic Sahara (from Morocco to Mauritania). The species complex is currently represented by three recognised species, all of them present in this region: M. olivieri, M. pasteuri and M. simoni. Using an integrative taxonomy approach based on morphological (pholidotic, coloration and pattern) and molecular (one mtDNA and four nuDNA markers) datasets, we provide robust evidences for the existence of additional taxa within the M. olivieri complex is provided, including an undescribed species in Mauritania. Mesalina sp. nov. . All M. olivieri that cluster together with M. simoni were proposed to be included as subspecies of the latter (M. simoni ssp. nov.). The clade including Mesalina sp. nov. and M. simoni diverged from M. olivieri and M. pasteuri around 9.5 Mya whereas these two latter species separated 1 or 2 Mya later in the end of the Miocene. The combined analyses supported a new classification of the Mesalina olivieri species complex into four extant species. The new species is sympatric with M. pasteuri in Mauritania but it is phylogenetically and morphologically divergent from it. Species distribution modelling suggests that the new taxon occurs exclusively in the rocky areas of the Adrar Atar plateau and neighbouring regions. The relatively wide but fragmented distribution of Mesalina sp. nov. suggests that its conservation status is Least Concern (LC).

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Numerous molecular studies emphasized how past climatic oscillations in the Sahara-Sahel have left strong imprints on current biodiversity patterns and identified the Atlantic coast and the Northwest African Mountains as refugia and speciation hotspots. Yet, the biodiversity inventory in the region is still far from complete. We use an integrative taxonomy framework to revise the systematics of the Mesalina olivieri species complex; integrating molecular, morphological, and environmental data, we evaluated levels of genetic and phenotypic differentiation among species/lineages and revised the species distribution limits of the M. olivieri complex, refining the distribution of Mesalina simoni, and Mesalina pasteuri. Our study confirmed one previously unidentified speciation event, leading to the description of Mesalina adrarensis sp. nov. Together with this new species, we also describe the south-western Moroccan populations of M. olivieri as Mesalina simoni saharae ssp. nov. Mesalina adrarensis sp. nov. is sympatric with M. pasteuri and parapatric with M. simoni saharae ssp. nov. in Mauritania and southern Morocco. Based on our revised taxonomy, M. simoni now includes most populations of the M. olivieri complex in Morocco, M. olivieri being restricted in Morocco to the east and southeast of the country. We also build on these results to provide further insight on the biogeography of North Africa. Our results point to a diversification of the complex during the late Miocene, that led to the formation of the four species M. simoni, M. olivieri, M. pasteuri, and M. adrarensis sp. nov. After these four speciation events, high intraspecific diversification processes occurred since the beginning of the Plio-Pleistocene transition, in parallel with the beginning of the humid and arid cycles. Through our phylogenetic analysis, we highlight the existence of high levels of undescribed intraspecific diversity in M. olivieri and M. pasteuri that will need to be addressed in future studies. Moreover, we uncover instances of cytonuclear discordances, stressing the need of considering both mitochondrial and nuclear DNA for integrative taxonomic studies to explore biodiversity.

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Algeria is situated at the crossroads between Europe and Africa. The northern part of the country is listed as an area of high biodiversity. Currently, the ecosystems (rivers, lakes, deserts, forests etc.) and the species are under more pressure than ever. The impact of humans is significant and many factors constitute a strong threat to this fauna, especially reptiles, which are the most vulnerable because of their low mobility. Thus, pollution, the drying up of wetlands and their conversion to agriculture have clearly affected the existence of many species. The herpetofauna of Algeria is one of the most diversified in the Mediterranean Basin, consisting of 104 species of which 16.98% are endemic. We suppose that the present list of reptilian fauna provided in this paper is not exhaustive and it is expected to include more species given the lack of research on reptiles in Algeria and its large area. Our dataset contains information on reptile occurrences in Algeria. The dataset is based on original research by the staff of the Laboratory of Environmental Sciences and Agroecology of Chadli Bendjedid University in Algeria. The conservation status of all recorded species is given.

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This study provides the first atlas of the distribution of amphibians and reptiles in the Diawling National Park (DNP), Mauritania. Unpublished fieldwork observations collected between 2010 and 2017 were combined with published records and museum data in a geographical information system to produce maps with the distribution of individual species and species richness. The taxo-nomic list includes 32 species, six amphibians and 26 reptiles, grouped in 17 families. Ten species are new records for the area. Species form distinct groups according to their distribution patterns and preliminary habitat selection trends: 1) species distributed in inland dunes, some extending their range to coastal dunes; 2) species distributed in inland dunes and floodplains; and 3) species associated with habitats that are permanently or seasonally flooded or that inhabit riparian forests. Three areas accumulating most of the species found are located in sand habitats of DNP and pe-ripheral zones. Specific counts of Crocodylus suchus suggest strong seasonal fluctuations in popu-lation size inside DNP, which are likely a consequence of the human-mediated dynamics of water availability in the area.

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This study provides the first atlas of the distribution of reptiles in the Parc National du Banc d’Arguin, Mauritania. The area is a UNESCO World Heritage Site and a Nature Reserve. Unpublished fieldwork observations collected between 2008 and 2011 were combined with published records and museum data in a Geographical Information System to produce maps with the distribution of individual species and species richness. The taxonomic list of repti- les includes 21 species grouped in eight families. Three species (Stenodactylus mauritanicus, Mesalina pasteuri and Psammophis sibilans) were detected for the first time in the area. Reptiles form distinct groups according to their dis- tribution patterns and preliminary habitat selection trends: 1) species selecting bare areas present throughout the park; 2) species selecting rocky habitats present mostly in the northern areas; and 3) species selecting sandy habitats present mostly in the southern areas. A total of eight areas were identified as of high species richness (N > 8 species), usually presenting species typical of rocky or dune habitats and also species present in open bare areas.

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Elements of the herpetofauna are in the author`s opinion of great importance for the zoogeographical division of the Palaearctic region. It is suggested that this region be divided into the following four subregions: 1/ arctic, 2/ boreal Euro-Siberian, 3/ bo- real Himalayan-Manchurian and 4/ Mediterranean-Central-Asiatic.

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The present paper of N. N. SZCZERBAK was originally published in Russian as `Katalog afrikanskih Jascurok` by the Academy of Sciences, Institute of Zoology, Museum of Zoology, USSR, Kiev (83 pp., 30 maps) in 1975. Lists of synonyms, bibliography, maps and table of contents - all being parts of the original paper - have not been included in this translation which was carried out with the consent of the author by R. GÜNTHER (Berlin) and H. GRILLITSCH (Vienna). The English summary was taken over as provided in the original version. As a SHORT NOTE in this issue of HERPETOZOA subsequent to the translation comments and updated addenda by W. MAYER are provided indicated by [aa* bb* etc.] in the text.