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2021 ◽  
Vol 30 (2) ◽  
pp. 367-375
Author(s):  
Halil Ibrahimi ◽  

The caddisfly fauna of North Africa and Morocco is still poorly known, with only a few historical and recent investigations, carried out sporadically. In this paper we describe a new species, Tinodes atlasensis Ibrahimi, Mabrouki & Taybi, sp. nov. from the Atlas Mountains in Morocco. The new species is closest to Tinodes baenai Gonzales & Otero, 1984, known from the Iberian Peninsula and mainly differs by the shape of segment IX, coxopodites, harpago and the process of basal plate. Tinodes atlasensis Ibrahimi, Mabrouki & Taybi, sp. nov. is the seventh known species of the genus Tinodes Curtis, 1834 from Morocco. Future caddisfly investigations in this North African country will most certainly increase the number of the known species and reveal other new ones.


2021 ◽  
Vol 66 (2) ◽  
pp. 114-121
Author(s):  
Angel Romo

A taxonomic revision of the Alchemilla in the High Atlas Mountains has been carried out. This genus is represented in Morocco by Alchemilla atlantica, A. gourzai, A. litardieri, A. mairei and by a new taxon A. boratynskii, sp. nov., described here from the High Atlas Mountains range. Data on their chorology, ecology and phenology, as well as an identification key, are provided. The conservation status of this newly described narrow endemic and the other four taxa, also endemics previously known from the Moroccan Atlas Mountains, is provided. Alchemilla hirtipes should be excluded from the flora of Morocco.


Author(s):  
Hanane Es-sebyty ◽  
Bouchra Abbi ◽  
Elena Ferretti ◽  
Mohammed Igouzal

The construction field uses up over one-third of the global energy consumption and contribute to 40% of CO2 emissions according to the International Energy Agency (IEA) and the 2020 annual reporter of United Nation, Goal 11 (Make cities inclusive, safe, resilient and sustainable) which discusses sustainable, safe and efficient buildings. Therefore, Morocco has a commitment to this program by publishing the law 47-09 of energy efficiency. This work aims to study the energy efficiency of two types of building, a conventional and a natural building. Conventional building is constructed using concrete, while the natural one uses sand clay and straws. As for the technique of making the natural building, it perpetually follows the same approach accustomed in rural zones of Atlas Mountains in Morocco. In this research we also simulate, temperature and humidity variation inside these buildings using TRNSYS software. Sketch Up software was employed to design these houses. The weather database is used for a typical meteorological year (TMY). In the case of natural building, many building configurations were simulated: roof insulation, floor insulation, different types of glazing and sun protection. What's more, the thermal comfort is revealed to be more conspicuous in the case of natural building.


2021 ◽  
Vol 14 (23) ◽  
Author(s):  
Nadia Rhoujjati ◽  
Lahoucine Hanich ◽  
Lhoussaine Bouchaou ◽  
Nicolas Patris ◽  
Angoran Baudelaire N’da ◽  
...  

Earth ◽  
2021 ◽  
Vol 2 (4) ◽  
pp. 746-763
Author(s):  
Modeste Meliho ◽  
Abdellatif Khattabi ◽  
Asmae Nouira ◽  
Collins Ashianga Orlando

Terraced farming play several roles, from improving ecosystem services to enhancing associated population livelihoods. In this study, we were interested in evaluating the roles of mountain terraces in controlling floods and erosion risks, in particular in the Ourika watershed, located in the High Atlas mountains of Morocco. Rainfall simulation tests were conducted to measure infiltration, runoff and initial abstraction, while the Cesium-137 isotope technique was used to quantify soil loss. The results highlighted high infiltration for dense forests (78.00 ± 2.65 mm/h) and low for rangelands (27.12 ± 2.82 mm/h). For terraces, infiltration was found to be about 70.36 ± 0.56 mm/h, confirming the role of terraces in promoting infiltration. The runoff coefficient obtained was lowest for dense forests, followed by cultivated terraces, and highest for rangelands (62.71 ± 3.51). Thus, outside dense forests, infiltration and runoff were significantly very high and low, respectively, for agricultural terraces compared to other land use. The assessment of soil erosion rates showed a significant soil loss for rangelands compared to the agricultural terraces, further underlining the role of terraces in soil conservation. Terraces in the Ourika watershed, by increasing water infiltration, reduce the rate of surface runoff, and consequently, flood risks and soil degradation.


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