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Drought Variability in Agadir's Region (Southern Morocco) – Recent and Future Trends

Amouch Said, Akhssas Ahmed

Ecological Engineering & Environmental Technology

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2023

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Vol. 24, iss. 2

241--250

EN

The area of Agadir, which is situated on Morocco's southern Atlantic coast, is characterized by an arid climate, and has been strongly impacted by climate change. The purpose of this research is to assess observed and modeled drought variability in time, on the basis of rainfall time series for the periods 1973–2020, and 2022–2099 by use of SPI, short for Standardized Precipitation Index. Findings from the SPI analysis show that the years from 1981 to 1986 were the driest as per the instrumental record. Future SPI projections indicate that the area under study will face several prolonged drought and wet periods between 2022 and 2099. The longest drought will take place from 2090 to 2093. Analysis of the relationship between rainfall in Agadir and North Atlantic Oscillation (NAO), is also studied especially for the winter months. The results of the study will provide a basis for drought surveillance and hydrometeorological studies, in addition to initiating the desired managment of environment in this area.

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Physicochemical Characterization of the Leachate of the Tamelast Landfill Site, Grand Agadir (Morocco)

Asouam Saadia, Arabi Mourad, Faik Farid, El Morjani Zine El Abidine, Abioui Mohamed, Diaz Luis F., Kostyuchenko Yuriy

Ecological Engineering & Environmental Technology

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2021

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Vol. 22, iss. 5

65--72

EN

During the last decade, the Grand Agadir has faced a huge production of solid waste, similarly to all other Moroccan cities. Indeed, these solid wastes are composed of the organic matter fraction in 77%. This solid waste is buried in the landfill of Tamelast, which, with its undersized leachate storage ponds, is the source of many environmental problems. Thus, the development of a landfill site meeting environmental standards has become an urgent need. This study aims to highlight the current state of waste management in Grand Agadir, while assessing the polluting load of leachate produced at the Tamelast landfill. This was achieved by taking samples of young leachate at the outlet of the purge, followed by medium and old leachate from the storage tanks (Pond N°2 & N°3). In addition to the olfactory nuisances still persistent at the landfill area, the results of the physicochemical characterization showed that the leachates produced, if not treated effectively, would generate great environmental and health risks to the surrounding environments, by their high organic and mineral load. The electrical conductivity reflecting the mineral load, reaches a maximum value of 130 mS/cm and a minimum value of 16 mS/cm. The maximum measured values of BOD5 and COD were, 43251 mgO2/L and 90240 mgO2/L, respectively, indicating high biodegradable and non-biodegradable organic pollutant load. Total dry solids ranges between 231 mg/l and 9696 mg/l, which exceeds the allowable discharge limits for liquid pollutant. The analysis of heavy metals has shown strong values in terms of Iron, Silver, Nickel, and Manganese, which, similarly, exceed the limits of the standards for liquid pollutants released into natural fields.

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Stratigraphy of the Albian-Cenomanian boundary interval in the Agadir Basin, Morocco: ammonites, microcrinoids, planktonic foraminifera

Gale Andrew Scott, Kennedy William James, Petrizzo Maria Rose

Acta Geologica Polonica

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2021

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Vol. 71, no. 4

453--480

EN

The uppermost Albian and lowermost Cenomanian succession at Abouda Plage, north of Agadir, in the Agadir Basin, western Morocco, is described in detail, and ammonites, microcrinoids and planktonic foraminifera are recorded and illustrated. The lower part of the Aït Lamine Formation yields ammonites indicative of the Pervinquieria (Subschloenbachia) rostrata and P. (S.) perinflata ammonite zones, and the Thalmanninella appenninica planktonic foraminiferan Zone. The base of the Cenomanian is identified at 42.2 m above the base of the Aït Lamine Formation, based on the lowest occurrence of the planktonic foraminiferan Thalmanninella globotruncanoides Sigal, 1948. Lower Cenomanian ammonites of the Graysonites adkinsi Zone enter 3 m higher in the succession. Microcrinoid zones AlR11 and AlR12 are identified in the Upper Albian, and the base of the CeR1 Zone coincides with the lowest occurrence of Cenomanian ammonites. The ammonite and microcrinoid occurrences and detailed distributions are very similar to those found in north central Texas, which, in the Cenomanian, was 5,300 km to the west. The new records suggest that the G. adkinsi Zone is equivalent to the uppermost (Lower Cenomanian) part of the Pleurohoplites briacensis Zone of the Global Stratotype Section for the base of the Cenomanian stage. An hiatus, of global extent, immediately underlies the base of the G. adkinsi Zone and is represented in the Agadir Basin by an erosion surface containing bored and encrusted hiatus concretions.

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Monitoring of Physicochemical and Microbiological Quality of Taghazout Seawater (Southwest of Morocco): Impact of the New Tourist Resort "Taghazout Bay"

Lamine Imane, Alla Aicha Ait, Bourouache Mohamed, Moukrim Abdellatif

Journal of Ecological Engineering

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2019

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Vol. 20, nr 7

79--89

EN

The marine environment plays a major socio-economic role in the Agadir region (south-west Morocco). This area, which hosts important fishery resources, is currently not spared from the pollutants produced in the course of agricultural, domestic, industrial and tourist development. The aim of this study is to assess the impact of the Taghazout bay tourist resort on the bacteriological and physicochemical quality of the coastal waters of Taghazout. The seawater samples were collected between March 2016 and March 2018 at three sampling sites (S1, S2 and S3) in order to monitor the concentrations of fecal coliforms (FC), fecal streptococci (FS) and total germs (TG). The results of physicochemical parameters show seasonal fluctuations influenced by climatic factors. The spatio-temporal monitoring of the bacteriological parameters shows that the average total germ count is 127.05 CFU/100 ml, 39.61 CFU/100 ml for fecal coliforms and 15.21 CFU/100 ml for fecal streptococci. The values of FC80, FC95 and FS90 do not exceed the guide values of the Moroccan standards. This classifies the Taghazout beach in category A (good quality of bathing water). The monitoring analysis recorded by the Pearson correlation test between the environmental parameters and the level of fecal bacteria showed that there was a significant positive correlation between the FC concentrations and rainfall; the FS concentrations showed significant positive correlations with all the environmental parameters while the TG concentrations indicate no correlation with them. The fecal contamination parameters should be routinely monitored for improving the environmental conditions of coastal cities. This must be the case for the Taghazout coastline where a regular monitoring program must be established to evaluate the impact of the new tourist resort “Taghazout bay” on the environmental quality of this ecosystem.