Arxius de Miscel·lània Zoològica. Volum 22 (2024) Pàgines: 129-142

GBIF: Data paper

Swimming in the Sahara: a new locality record and range extension of Natrix maura (Linnaeus, 1758) (Squamata, Colubridae) from central Algeria

Bouam, I., Chedad, A., Sadine, S. E.

DOI: https://doi.org/10.32800/amz.2024.22.0129

Descarregar

PDF

Paraules clau

Herpetofauna, Serp d'aigua, Bilineata, Nord de l'Àfrica, Dèficit de Wallace

Cita

Bouam, I., Chedad, A., Sadine, S. E., 2024. Swimming in the Sahara: a new locality record and range extension of Natrix maura (Linnaeus, 1758) (Squamata, Colubridae) from central Algeria. Arxius de Miscel·lània Zoològica, 22: 129-142, DOI: https://doi.org/10.32800/amz.2024.22.0129

Data de recepció:

02/08/2024

Data d'acceptació:

23/10/2024

Data de publicació:

18/11/2024

Compartir

Visites

541

Descàrregues

319

Documento sin título

Abstract

Swimming in the Sahara: A new locality record and range extension of Natrix maura (Linnaeus, 1758) (Squamata, Colubridae), from central Algeria

Natrix maura, commonly known as the viperine snake, is a widespread and common semi-aquatic species in the western Mediterranean region. This study reports a new locality record of N. maura from central Algeria, significantly extending the species’ known range. Additionally, we provide an updated distribution map of N. maura in Algeria, compiled from a comprehensive dataset of occurrence records. Our findings emphasize the need for extensive herpetofaunal surveys in the country’s underexplored regions.

Dataset published through GBIF (DOI: 10.15470/fe3689)

Key words: Herpetofauna, Viperine snake, Bilineata, North Africa, Wallacean shortfall

Resumen

Nadar en el Sáhara: una nueva localización y ampliación de los límites territoriales de Natrix maura (Linnaeus, 1758) (Squamata, Colubridae), en el centro de Argelia

Natrix maura, conocida con el nombre común de culebra viperina, es una especie semiacuática muy extendida y común en la región del Mediterráneo occidental. Este estudio informa de una nueva localización de N. maura en el centro de Argelia, lo que amplía significativamente los límites territoriales de la especie. Además, aportamos un mapa de distribución actualizado de N. maura en Argelia, realizado a partir de un amplio conjunto de registros. Los resultados ponen énfasis en la necesidad de realizar más estudios sobre la herpetofauna de las regiones poco exploradas del país.

Datos publicados en GBIF (DOI: 10.15470/fe3689)

Palabras clave: Herpetofauna, Culebra viperina, Bilineata, Norte de África, Déficit de Wallace

Resum

Nedar al Sàhara: una nova localització i ampliació dels límits territorials de Natrix maura (Linnaeus, 1758) (Squamata, Colubridae), al centre d’Algèria

Natrix maura, coneguda amb el nom comú de serp d’aigua, és una espècie semiaquàtica molt estesa i comuna a la regió de la Mediterrània occidental. Aquest estudi informa d’una nova localització de N. maura al centre d’Algèria, cosa que amplia de manera significativa els límits territorials de l’espècie. A més, aportem un mapa de distribució actualitzat de N. maura a Algèria, elaborat a partir d’un conjunt ampli de registres. Els resultats posen èmfasi en la necessitat de dur a terme més estudis sobre l’herpetofauna de les regions poc explorades del país.

Dades publicades a GBIF (DOI: 10.15470/fe3689)

Paraules clau: Herpetofauna, Serp d’aigua, Bilineata, Nord de l’Àfrica, Dèficit de Wallace

Introduction

Algeria ranks among the most species-rich countries in the Mediterranean Basin and North Africa in terms of terrestrial reptiles, with 101 documented species (Rouag et al., 2024). However, knowledge of the distribution of many reptile taxa remains incomplete due to a scarcity of comprehensive herpetofaunal inventories across many parts of the country (Beddek, 2017; Beddek et al., 2018). Much of the available distributional data relies on historical sources, primarily museum specimens and 19th and early 20th-century literature (e.g., Gervais, 1836; Guichenot, 1850; Strauch, 1862; Lallemant, 1867; Boulenger, 1891; Olivier, 1894; Doumergue, 1901), which often suffer from spatial inaccuracies. This knowledge gap, referred to as the ‘Wallacean shortfall’, is particularly pronounced in the Algerian Sahara, due in part to the inaccessibility of remote regions, resulting in many reptilian taxa having poorly defined and documented range maps (Bouam et al., 2022; Chedad et al., 2024). Although the past decade has witnessed a resurgence of scientific interest in Algeria’s reptile fauna, resulting in the discovery of previously unreported taxa and significant range extensions for known species across diverse taxonomic groups, including Testudinidae (Boulaouad et al., 2023), Gekkonidae (Mouane et al., 2021), Scincidae (Rouag et al., 2016), Agamidae (Saoudi et al., 2017; El Bouhissi et al., 2022), Lamprophiidae (Bakhouche and Escoriza, 2017; Bakhouche et al., 2019; Böhme et al., 2019), and Viperidae (Bouam et al., 2019).

Natrix Laurenti, 1768 is a Palearctic genus of colubrid snakes, currently comprising five recognized species (Uetz et al., 2023). Among these, the semiaquatic Natrix maura (Linnaeus, 1758) exhibits a West Mediterranean chorotype. It is widespread across the Maghreb and Western Europe, extending from the Iberian Peninsula to northwestern Italy, including France and southwestern Switzerland (Mateo Miras et al., 2009). N. maura occurs at elevations ranging from sea level up to 2600 m asl and is commonly encountered in various freshwater habitats, but also tolerates waters with relatively high salt concentrations (Fuentes and Escoriza, 2015; Geniez, 2015). It predominantly preys on fish and amphibians (Rugiero et al., 2000; Santos et al., 2008). This species is a small to medium-sized snake, typically measuring 40-80 cm in total length, though some individuals reach up to 95 cm (Geniez, 2015; Trape, 2023). Notably, this colubrid species exhibits remarkable Batesian mimicry, both morphologically and behaviourally, of European vipers of the genus Vipera (Santos et al., 2018), hence its common name, the viperine snake.

In this paper, we present a new locality record for N. maura in Algeria, significantly expanding its known geographic distribution. Additionally, to gain a more comprehensive understanding of N. maura distribution within the country, we compiled occurrence data from various sources and provide an updated distribution map for Algeria.

Material and methods

Study site

Field observations were conducted at Sebkhet El Melah wetland (30° 28' 06" N, 2° 55' 35" E; 370 m a.s.l.; fig. 1A), El Menia Province (formerly El Goléa), central Algeria. This shallow, saline lake covers about 8 km² and is bordered by sand dunes and rocky hills. It receives water from surrounding palm grove drainage, El Menia city domestic wastewater, and rainfall (Hacěne et al., 2004; Alioua et al., 2016). Designated as a Ramsar Site (https://rsis.ramsar.org/ris/1429), Sebkhet El Melah is a critical habitat for Saharan biodiversity, particularly waterbirds (Bouzid et al., 2009, 2019, 2023; Chedad et al., 2021). Based on data from the WorldClim database with a resolution of ~1 km² (Fick and Hijmans, 2017), the site falls within the inferior Saharan bioclimatic zone, characterized by temperate winters and a mean annual precipitation of 30 mm.

Fig. 1. A, landscape view of Sebkhet El Melah, El Menia Province, central Algeria. B, adult Natrix maura specimen with typical coloration. C, adult N. maura exhibiting the bilineata pattern. D, adult N. maura with the bilineata pattern feeding on Coptodon zillii. (All Natrix maura specimens were observed and photographed at Sebkhet El Melah by A. Chedad).
Fig. 1. A, vista del paisaje de Sebkhet El Melah, provincia de El Menia, Argelia central. B, ejemplar adulto de Natrix maura con coloración típica. C, ejemplar adulto de N. maura con la estructura bilineata. D, ejemplar adulto de N. maura con la estructura bilineata, alimentándose de Coptodon zillii. (Todos los ejemplares de Natrix maura fueron observados y fotografiados en Sebkhet El Melah por A. Chedad).

Data collection

To comprehensively update N. maura distribution in Algeria, we conducted a thorough literature review and searched online museum and institutional collections for occurrence records. Additionally, occurrence data were obtained from the Global Biodiversity Information Facility (GBIF, 2024) and iNaturalist (https://inaturalist.org). Following Chowdhury et al. (2024), data were also sourced from Facebook (https://facebook.com), specifically from the group named “world of wildlife in Algeria (https://www.facebook.com/groups/1641684429224291/). The species identification of data obtained from both iNaturalist and Facebook was double-checked and confirmed by the authors. To ensure data accuracy, all records included precise locality description and/or GPS coordinates with a minimum precision of two decimal degrees, while excluding records with coordinates referring to the centroids of large geographic areas. Duplicate records from the same locality were merged into single entries. The final dataset comprised 139 unique presence locations visualized using ArcGIS v. 10.8 (annex 1; dataset published through GBIF: DOI: 10.15470/fe3689).

Annex 1. Province, coordinates, and source of available records of Natrix maura in Algeria. NHMUK, Natural History Museum, London, UK; MVZ, Museum of Vertebrate Zoology, University of California, Berkeley; MCZ, Museum of Comparative Zoology, Harvard University, Cambridge; MNHN, Muséum National d’Histoire Naturelle, Paris; ZFMK, Zoologisches Forschungsmuseum Alexander Koenig [Zoological Research Museum Alexander Koenig], Bonn; CAS, California Academy of Sciences, San Francisco; CM, Carnegie Museum of Natural History, Pittsburgh. Acronyms follow Sabaj (2020).
Anexo 1. Provincia, coordenadas y fuente de los registros disponibles de Natrix maura en Argelia. NHMUK, Museo de Historia Natural, Londres, Reino Unido; MVZ, Museo de Zoología de Vertebrados, Universidad de California, Berkeley; MCZ, Museo de Zoología Comparada, Universidad de Harvard, Cambridge; MNHN, Museo Nacional de Historia Natural, París; ZFMK, Museo de Investigación Zoológica Alexander Koenig, Bonn; CAS, Academia de Ciencias de California, San Francisco; CM, Museo Carnegie de Historia Natural, Pittsburgh. Las siglas se basan en Sabaj (2020).

Results and discussion

While conducting a waterbird survey on 10/05/2016 at Sebkhet El Melah wetland, A. Chedad observed and photographed three Natrix maura individuals (fig. 1B, 1C, 1D). Subsequent observations by the same author in following years confirmed the continued presence of the species at this locality. This record represents a substantial range extension of approximately 370 km southeastward from the nearest documented occurrence in Arbaouat, El Bayadh Province (fig. 2). Notably, previous herpetofaunal surveys conducted in the Sahara of central Algeria failed to report the species (Hartert, 1913; Chabanaud, 1920; Angel, 1923; Johann, 1981). Given the prevalence of hyper-aridity and scarcity of aquatic habitats in the surrounding plains, we hypothesize that this new record might represent an isolated population, likely sustained by the presence of a hydric microclimate and prey availability within the wetland.

Fig. 2. Distribution map of Natrix maura in Algeria. (Species photograph by I. Bouam).
Fig. 2. Mapa de distribución de Natrix maura en Algeria. (Ejemplar fotografiado por I. Bouam).

Among the observed specimens, one displayed the typical brownish ground colouration with alternating dark blotches on the dorsal and lateral sides (fig. 1B). In contrast, the remaining individuals exhibited the bilineata pattern, characterized by a darker ground colour and two distinct golden dorso-lateral bands (fig. 1C, 1D). Our findings are consistent with previous observations, as the bilineata morph frequently co-occur with other N. maura individuals (Geniez, 2015). Historically, Algerian specimens with the bilineata pattern were regarded as the 'variety' aurolineatus and have been reported from various locations in Algeria, including Algiers, Annaba (Gervais, 1836), Constantine, Skikda (Werner, 1895), Mascara (Doumergue, 1901), and El Bayadh (Werner, 1914). However, analysis of mitochondrial markers revealed no genetic differentiation between the bilineata morph and other N. maura individuals. The bilineata pattern appears to be habitat-dependent rather than geographically structured, with a higher prevalence in open environments (Santos et al., 2018).

Our updated distribution map (fig. 2) shows a widespread presence of N. maura in Algeria, extending northward along the Saharan Atlas and encompassing virtually all northern provinces. The distribution also reaches as far south as the Saharan provinces of Béni Abbes (Gauthier, 1967), Touggourt (Olivier, 1894; Werner, 1895), and El Menia. This extensive range aligns with historical accounts suggesting N. maura as a common snake species in Algeria (Guichenot, 1850; Boulenger, 1891; Olivier, 1894; Werner, 1895; Doumergue, 1901; Werner, 1914). This ubiquity is partially attributed to its eurytopic nature, which allows it to tolerate a wide range of habitats and ecological conditions (Escoriza and Ben Hassine, 2017).

The new data presented in this paper, along with recent reports of previously undocumented reptile species from central Algeria (Sadine et al., 2021; Bouam et al., 2022; Chedad et al., 2024), highlight significant knowledge gaps in reptile distribution within this region. These findings underscore the need for systematic herpetofaunal surveys to achieve a comprehensive understanding of the reptilian fauna of central Algeria.

References

Alioua, Y., Bissati, S., Kherbouche, O., Bosmans, R., 2016. Spiders of Sebkhet El Melah (Northern Sahara, Algeria): Review and new records. Serket, 15(1): 33-40.
Angel, F., 1923. Reptiles du Sahara, rapportés par la mission du colonel Hovart. Description d’un Ophidien nouveau du genre Rhamphiophis. Bulletin du Muséum National d’Histoire Naturelle, 29: 205-208.
Bakhouche, B., Escoriza, D., 2017. Genus Malpolon: new distribution area in Algeria. The Herpetological Bulletin, 140: 35-36.
Bakhouche, B., Escoriza, D., Sánchez-Vialas, A., Khalil, D., Calvo-Revuelta, M., 2019. Malpolon insignitus (Geoffroy de Saint-Hilaire, 1809) in the Hoggar Mountains (Southeast Algeria). African Herp News, 71: 29-35.
Beddek, M., 2017. Déficit de connaissances de la biodiversité et biologie de la conservation: le cas de l’herpétofaune d’Algérie. PhD thesis, University of Montpellier, France.
Beddek, M., Zenboudji-Beddek, S., Geniez, P., Fathalla, R., Sourouille, P., Arnal, V., Dellaoui, B., Koudache, F., Telailia, S., Peyre, O., Crochet, P. -A., 2018. Comparative phylogeography of amphibians and reptiles in Algeria suggests common causes for the east-west phylogeographic breaks in the Maghreb. Plos One, 13(8): e0201218. DOI: 10.1371/journal.pone.0201218
Böhme, W., Trape, J. -F., Geniez, P., 2019. Psammophis afroccidentalis Trape, Böhme & Mediannikov, 2019 (Serpentes: Lamprophiidae: Psammophiinae) new for Algeria. Bulletin de la Société Herpétologique de France, 172: 56-59.
Bouam, I., Benmokhtar, E., Guechi, R., 2019. A fortuitous encounter with the vulnerable Vipera latastei: a new locality record from Algeria and distributional range extension. Herpetology Notes, 12: 809-812.
Bouam, I., Khelfaoui, F., Saoudi, M., 2022. Inferring probable distributional gaps and climate change impacts on the medically important viper Echis leucogaster in the western Sahara-Sahel: An ecological niche modeling approach. Biodiversitas, 23(10): 5175-5183. DOI: 10.13057/biodiv/d231025
Boulaouad, B. A., Bakhouche, B., Benhafid, F., Escoriza, D., 2023. African Spurred Tortoise Centrochelys sulcata: range extension to Algeria. Herpetological Bulletin, 164: 44-45. DOI: 10.33256/hb164.4445
Boulenger, G. A., 1891. Catalogue of the reptiles and batrachians of Barbary (Morocco, Algeria, Tunisia), based chiefly upon the notes and collections made in 1880-1884 by M. Fernand Lataste. Transactions of the Zoological Society of London, 13: 93-164.
Bouzid, A., Yousfi, J., Boulkhssaïm, M., Samraoui, B., 2009. Première nidification réussie du Flamant rose Phoenicopterus roseus dans le Sahara algérien. Alauda, 77(2): 139-143.
Bouzid, A., Boucheker, A., Samraoui, F., Samraoui, B., 2019. Breeding of the gull-billed tern in the Sahara and an update on its distribution in Algeria. Zoology and Ecology, 29(1): 52-58. DOI: 10.35513/21658005.2019.1.10
Bouzid, A., Samraoui, F., Samraoui, B., 2023. A survey of the distribution of the water rail Rallus aquaticus in Algeria and its first recorded breeding in the Algerian Sahara. African Journal of Ecology, 61(2): 485-489. DOI: 10.1111/aje.13119
Chabanaud, P., 1920. Reptiles recueillis en Algérie par M. C. Dumont en 1918 et 1919. Bulletin du Muséum National d’Histoire Naturelle, 26: 461-462.
Chedad, A., Bouzid, A., Bendjoudi, D., Guezoul, O., 2021. New observations of four waterbird species in Algerian Sahara. African Journal of Ecology, 60(3): 516-522. DOI: 10.1111/aje.12934
Chedad, A., Bouam, I., El Bouhissi, M., Dahmani, W., Ait Hammou, M., Mebarki, M. T., Mezzi, M., Sadine, S. E., 2024. Moorish Viper, Daboia mauritanica (Gray, 1849) (Squamata, Viperidae), in Algeria: new provincial records, range extension, and an update on its distribution. Check List, 20(2): 536-543. DOI: 10.15560/20.2.536
Chowdhury, S., Ahmed, S., Alam, S., Callaghan, C. T., Das, P., Di Marco, M., Di Minin, E., Jarić, I., Labi, M. M., Rokonuzzaman, Md., Roll, U., Sbragaglia, V., Siddika, A., Bonn, A., 2024. A protocol for harvesting biodiversity data from Facebook. Conservation Biology, e14257. DOI: 10.1111/cobi.14257
Doumergue, F., 1901. Essai sur la Faune Erpétologique de l'Oranie. Imprimerie typographie et lithographie L. Fouque, Oran.
Duméril, A.-M.-C., Bibron, G., Duméril, A., 1854. Erpétologie générale ou histoire naturelle complète des reptiles. Tome VII, 1ère partie. Librairie Encyclopédique de Roret, Paris.
El Bouhissi, M., Seddiki, F., Chedad, A., 2022. Trapelus boehmei Wagner, Melville, Wilms & Schmitz, 2011 (Squamata: Agamidae): New locality in the Southwest of Algeria. Algerian Journal of Biosciences, 3(2): 85-90. DOI: 10.57056/ajb.v3i2.63
Escoriza, D., Ben Hassine, J., 2017. Niche separation among north-west African semi-aquatic reptiles. Hydrobiologia, 797: 47-56. DOI: 10.1007/s10750-017-3157-8
Fick, S. E., Hijmans, R. J., 2017. WorldClim 2: new 1‐km spatial resolution climate surfaces for global land areas. International Journal of Climatology, 37(12): 4302-4315. DOI: 10.1002/joc.5086
Fuentes, M. A., Escoriza, D., 2015. Natrix maura (viperine snake) marine foraging. Herpetological Bulletin, 134: 31-32.
Gauthier, R., 1967. La faune herpétologique du Sahara N.O. Algérien. Additions et mises à jour. Bulletin du Museum National d'Histoire Naturelle, 2e Série, 39: 819-828.
Geniez, P., 2015. Serpents d’Europe, d’Afrique du Nord et du Moyen-Orient. Delachaux et Niestlé, Paris.
Gervais, P., 1836. Énumération de quelques espèces de Reptiles provenant de Barbarie. Annales des Sciences Naturelles, Seconde Série, 6: 308-313.
Guichenot, A., 1850. Exploration scientifique de l'Algérie pendant les années 1840, 1841, 1842. Histoire Naturelle des Reptiles et des Poissons. Imprimerie Nationale, Paris.
Hacěne, H., Rafa, F., Chebhouni, N., Boutaiba, S., Bhatnagar, T., Baratti, J. C., Ollivier, B., 2004. Biodiversity of prokaryotic microflora in El Golea salt lake, Algerian Sahara. Journal of Arid Environments, 58(3): 273-284. DOI: 10.1016/j.jaridenv.2003.08.006
Hartert, E., 1913. Expedition to the Central Western Sahara. V. Reptiles and Batrachians. Novitates Zoologicae, 20: 76-84.
Johann, H., 1981. Herpetologische Eindrücke auf einer Reise durch die Sahara. Herpetofauna, 3(13): 17-21.
Lallemant, C., 1867. Erpétologie de l'Algérie ou catalogue syntopique et analytique des reptiles et amphibies de la colonie. F. Savy, Paris.
Mateo Miras, J. A., Cheylan, M., Nouira, S., Joger, U., Sá-Sousa, P., Pérez-Mellado, V., Schmidt, B., Meyer, A., Sindaco, R., Romano, A., Martínez-Solano, I., 2009. Natrix maura. The IUCN Red List of Threatened Species 2009: e. T61538A12510365. https://dx.doi.org/10.2305/IUCN.UK.2009.RLTS.T61538A12510365.en
Mouane, A., Bourougaa, D., Hamdi, M., Boudjerada, K., Harrouchi, A., Ghennoum, I., Sekour, M., Chenchouni, H., 2021. The Rough Bent-toed Gecko Cyrtopodion scabrum (Heyden, 1827) (Squamata: Gekkonidae): first records in Algeria and NW Africa with morphometric and meristic description of population. African Journal of Ecology, 59(1): 312-319. DOI: 10.1111/aje.12797
Olivier, E., 1894. Herpétologie Algérienne ou catalogue raisonné des reptiles et des batraciens observés jusqu’à ce jour en Algérie. Mémoires de la Société Zoologique de France, 7: 98-131.
Rouag, R., Dahel, R., Rahmouni, S., Benkacimi, S., Ziane, N., 2016. First records of the Rainbow Mabuya Trachylepis quinquetaeniata (Lichtenstein, 1823) (Squamata: Scincidae) in Algeria. Herpetology Notes, 9: 167-169.
Rouag, R., Ziane, N., De Sousa, M., 2024. A tentative list of reptilian fauna of Algeria and their conservation status. Biodiversity Data Journal, 12: e120471. DOI: 10.3897/BDJ.12.e120471
Rugiero, L., Capula, M., Persichetti, D., Luiselli, L., Angelici, F. M., 2000. Life-history and diet of two populations of Natrix maura (Reptilia, Colubridae) from contrasted habitats in Sardinia. Miscel·lània Zoològica, 23(1): 41-51.
Sadine, S. E., Bounab, C., El Bouhissi, M., 2021. A new locality of an invasive Gecko, Cyrtopodion scabrum (Heyden, 1827) in Algeria (Squamata: Gekkonidae). Algerian Journal of Biosciences, 2(1): 16-18. DOI: 10.57056/ajb.v2i1.35
Saoudi, M., Necer, A., Bensaci, M., Bouam, I., 2017. Distribution extension of Agama impalearis (Boettger, 1874) (Reptilia: Agamidae), with a new record from Batna province, north-eastern Algeria. Herpetology Notes, 10: 261-262.
Santos, X., Azor, J. S., Cortés, S., Rodríguez, E., Larios, J., Pleguezuelos, J. M., 2018. Ecological significance of dorsal polymorphism in a Batesian mimic snake. Current Zoology, 64(6): 745-753. DOI: 10.1093/cz/zox058
Santos, X., González-Solis, J., Llorente, G. A., 2008. Variation in the diet of the viperine snake Natrix maura in relation to prey availability. Ecography, 23(2): 185-192. DOI: 10.1111/j.1600-0587.2000.tb00274.x
Strauch, A., 1862. Essai d’une erpétologie de l’Algérie. Mémoires de l’Académie Impériale des Sciences de St.-Pétersbourg, VIIe Série 4(7): 1-85.
Trape, J.-F., 2023. Guide des serpents d’Afrique occidentale, centrale et d’Afrique du Nord. IRD Éditions, Marseille.
Uetz, P., Freed, P., Aguilar, R., Reyes, F., Kudera, J., Hošek, J., 2023. The Reptile Database.  <http://www.reptile-database.org> [visited: 20 July 2024].
Werner, F., 1895. Zweiter Beitrag zur Herpetologie von Ost-Algerien. Verhandlungen der Kaiserlich-Königlichen Zoologisch-Botanischen Gesellschaft in Wien, 44: 75-87.
Werner, F., 1914. Ergebnisse einer von Prof. F. Werner im Sommer 1910 mit Unterstützung aus dem Legate Wedl ausgeführten zoologischen Forschungsreise nach Algerien. II. Vertebrata. Sitzungsberichte der Kaiserlichen Akademie der Wissenschaften, Mathematisch-Naturwissenschaftliche Klasse, 123: 331-361.

Contingut ressenyat a: