The large psammodromus, Psammodromus algirus, is one of the most widespread Mediterranean lacertid lizards; unfortunately, its ecology in North Africa remains understudied. In this study, we present detailed data on trophic ecology, daily activity patterns during the breeding season, and the maximum activity period of this lizard in a semi-arid environment at Belezma National Park (Batna, northeast Algeria). Feeding data were collected using stomach flushing, and daily activity patterns were analyzed by surveying standardized transects. Analysis of the contents of 21 stomachs revealed 238 prey items of 74 different taxa classified into five classes, 18 orders, 50 families, and 71 different genera. The diet was highly diverse and primarily consisted of arthropods. Insects were the predominant food comprising 85% of all prey, followed by arachnids (13%). Regarding temporal variation in diet, prey-species richness did not vary noticeably between months; however, the number of individuals within prey categories did. The size of prey consumed varied over a very broad spectrum and followed a logarithmic distribution, but did not vary between months. Concerning daily activity, lizards exhibited a bimodal activity pattern. Overall, compared to littoral and European populations studied in other works, diet differed slightly and daily activity was remarkably reduced in the morning and postponed in the afternoon.
<p><strong>Background:</strong> Despite its ecological importance, the study of Algerian alder forests has been largely neglected, even though they represent the largest ones of their kind in North Africa. Moreover, few measures have been taken towards the protection of these ecosystems.</p><p><strong>Questions: </strong>How many species are present in the Algerian alder forests? What is the effect of soil properties on species richness and diversity of inventoried plants? Is its spatial patterns a result of soil variables variation?</p><p><strong>Studied species: </strong>Polypodiopsida, Gymnospermae, and Angiospermae.</p><p><strong>Study site and dates:</strong> El-Kala Biosphere Reserve (KBR), El-Tarf province, northeastern Algeria, from January 2016 to February 2017.</p><p><strong>Methods:</strong> Twenty-eight localities were sampled using the relevé method. Soil samples were taken from three points at each site. The relationship between species richness and soil factors was statistically evaluated using multiple linear regression and multivariate statistical analysis.</p><p><strong>Results:</strong> The inventory showed a total of 352 species that belong to 236 genera and 89 families. According to NMDS results, black alder forests were classified into two groups (marshy and the hilly, and the fluvial forests), in relation to plant species richness. No linear relationships between species richness and soil parameters were observed, except for OM (<em>P</em> = 0.013).</p><p><strong>Conclusion:</strong> The present study allowed us to perform an inventory of plant species present in alder forests and to understand its distribution among different habitat types, as well as those factors that affect its zonation. For this ecosystem, our study revealed that vegetation diversity is related to the variation of soil variables.</p>
Abstract. 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: 5175-5183. Knowledge of biodiversity distribution and how climate change may affect species across the Sahara-Sahel is scarce despite it harboring both high biodiversity and a high rate of endemism. As ectotherms, snakes are particularly vulnerable to climate change and susceptible to range shifts and demographic changes driven by climate change. Ecological niche models are a common method for predicting the probability of the occurrence of species and future range shifts induced by climate change. This study examines the probable gaps in the distribution of the white-bellied saw-scaled viper, Echis leucogaster, and the potential influence of climate change on its future geographic range in the western Sahara-Sahel. The currently predicted environmentally suitable areas fitted well with the known geographical range of the species showed relative congruence with the Sahara-Sahel ecoregion delineations and identified areas without known occurrences. In the future, the environmental conditions for the occurrence of E. leucogaster are predicted to increase, as the environmentally suitable areas will potentially experience an increase in their proportion. Future projections also showed that the potentially suitable areas might undergo moderate southward shifts during the late twenty-first century. The results of the present study significantly expand our knowledge on the potential distribution of E. leucogaster and provide valuable insights to guide future sampling efforts and conservation planning for the species.
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