Evolution of the physicochemical characteristics of water of the lake tank Mansour Eddahbi and its impact on the trophic state (Morocco)

Résumé Le lac de réservoir Mansour Eddahbi, situé au sud-est du Maroc Ouarzazate, constitué la source de l'eau des irrigations et l'eau potable dans la région du Drâa. Comme dans tous les barrages du Maroc, ce lac est subie avec le phénomène de l'eutrophisation, qui détériore la qualité de cette eau. Les objectifs de cette étude sont distingués la fluctuation des paramètres de l'eau, par l'analyse d'une base de données 8 ans, dans une zone caractérisée par un climat semi-aride et la détermination de l'effet des conditions climatiques sévères sur la qualité et l'trophique état de l'eau du barrage Mansour Eddahbi. Les résultats obtenu montrent que la température de l'eau élevée et la concentration de phosphore total sont deux facteurs soutient la prolifération algale, qui reflète l'état trophique du réservoir du lac. Mots-clés : eutrophisation, Mansour Eddahbi, quali d'ea

Application of TXRF in monitoring trace metals in particulate matter and cloud water

Trace metals in ambient particulate matter and cloud are considered key elements of atmospheric processes as they affect air quality, environmental ecosystems, and cloud formation. However, they are often available at trace concentrations in these media such that their analysis requires high-precision and sensitive techniques. In this study, different analytical methods were applied to quantify trace metals in particulate matter (PM) samples collected on quartz and polycarbonate filters as well as cloud water, using the Total reflection X-Ray Fluorescence (TXRF) technique. These methods considered the measurement of filter samples directly without and with chemical pretreatment. Direct measurements involved the analysis of PM samples collected on polycarbonate filters and cloud water samples after they are brought onto TXRF carrier substrates. The chemical treatment method involved the assessment of different acid digestion procedures on PM sampled on quartz filters. The solutions applied were reverse aqua regia, nitric acid, and a combination of nitric acid and hydrogen peroxide. The effect of cold-plasma treatment of samples on polycarbonate filters before TXRF measurements was also investigated. Digestion with the reverse aqua regia solution provided lower blanks and higher recovery in comparison to other tested procedures. The detection limits of the elements ranged from 0.3 to 44 ng cm−2. Ca, K, Zn, and Fe showed the highest detection limits of 44, 35, 6, and 1 ng cm−2, while As and Se had the lowest of 0.3 and 0.8 ng cm−2, respectively. The method showed higher recovery for most trace metals when applied to commercially available reference materials and field samples. TXRF measurements showed good agreement with results obtained from ion chromatography measurements for elements such as Ca and K. Cold-plasma treatment did not significantly lead to an increase in the detected concentration, and the results were element specific. Baking of the quartz filters prior to sampling showed a reduction of more than 20 % of the filter blanks for elements such as V, Sr, Mn, Zn, and Sb. The methods were applied successfully on ambient particulate matter and cloud water samples collected from the Atlas Mohammed V station in Morocco and the Cape Verde Atmospheric Observatory. The obtained concentrations were within the range reported using different techniques from similar remote and background regions elsewhere, especially for elements of anthropogenic origins such as V, Pb, and Zn with concentrations of up to 10, 19, and 28 ng m−3, respectively. Enrichment factor analysis indicated that crustal matter dominated the abundance of most of the elements, while anthropogenic activities also contributed to the abundance of elements such as Sb, Se, and Pb. The results confirm that TXRF is a useful complementary sensitive technique for trace metal analysis of particulate matter in the microgram range as well as in cloud water droplets