1. bookVolume 21 (2021): Edizione 1 (March 2021)
Dettagli della rivista
Prima pubblicazione
17 Mar 2011
Frequenza di pubblicazione
4 volte all'anno
Accesso libero

Inventory: The pesticides application and its risk assessment in the irrigated perimeter of Tadla-Morocco

Pubblicato online: 03 Jul 2021
Volume & Edizione: Volume 21 (2021) - Edizione 1 (March 2021)
Pagine: 15 - 27
Dettagli della rivista
Prima pubblicazione
17 Mar 2011
Frequenza di pubblicazione
4 volte all'anno

Abdellaoui K., Acheuk F., Miladi M., Boughattas I., Omri G., 2018, Phytochemistry, biochemical and insecticidal activities of Ruta Chalepensis essential oils on Tribolium Confusum, Agric. For. (Podgorica) 64(3): 31–45.10.17707/AgricultForest.64.3.03 Search in Google Scholar

Agnaou M, Nadir M., Ait Alla A., Bazzi Lh., El Alami Z., Moukrim A., 2017, Organochlorine pesticides level evaluation in a Morocco Southern wetland: Massa Estuary, J. Mater. Environ. Sci. (JMES) 5(2): 581–586. Search in Google Scholar

Agnaou M, Nadir M., Ait Alla A., Bazzi Lh., El Alami Z., Moukrim A., 2018, The occurrence and spatial distribution of pesticides in sea water of the Agadir Bay (South of Morocco), J. Mater. Environ. Sci. (JMES) 9(10): 3001–3008. Search in Google Scholar

[AMPP] Association Marocaine de Protection des Plantes (Moroccan Association for the Protection of Plants), 2020, Index Phytosanitaire Maroc (Morocco Plant Health Index) (Accessed 16 February 2020). Retrieved from https://www.agrimaroc.ma/index-phytosanitaire-maroc/ Search in Google Scholar

Barakat A., El Baghdadi M., Rais J., Aghezzaf B., Slassi M., 2016, Assessment of spatial and seasonal water quality variation of Oum Er Rbia River (Morocco) using multivariate statistical techniques, Int. Soil Water Conserv. Res. 4(4): 284–292.10.1016/j.iswcr.2016.11.002 Search in Google Scholar

Boukatta B., El Bouazzaoui A., Guemoune R., Houari N., Achour S., Sbai H., 2014, An epidemiological study of adult acute poisoning in Fez: Morocco, J. Clin. Toxicol. 4(6): #219.10.4172/2161-0495.1000219 Search in Google Scholar

Bouterfas M., Fadlaoui S., Chafik Z., El Halouani H, Melhaoui M., Chafi A., 2020, Evaluation of farmers’ phytosanitary practices in the Plain of Triffa (Eastern Morocco), identification and evaluation of sanitary and environmental risks, Mor. J. Chem. 8(2): 345–358. Search in Google Scholar

Canteiro M., Olea S., Escolero O., Zambrano L., 2019, Relationships between urban aquifers and preserved areas south of Mexico City, Groundw. Sustain. Dev. 8: 373–380.10.1016/j.gsd.2018.12.007 Search in Google Scholar

Choi J.Y., Yang D.B., Hong G.H., Kim K., Shin K.-H., 2016, Ecological and human health risk from polychlorinated biphenyls and organochlorine pesticides in Bivalves of Cheonsu Bay, Korea, Environ. Eng. Res. 21(4): 373–383.10.4491/eer.2016.010 Search in Google Scholar

Cruzeiro C., Rocha E., Pardal M.A., Rocha M.J., 2016, Seasonal-spatial survey of pesticides in the most significant estuary of the Iberian Peninsula – the Tagus River estuary, J. Clean. Prod. 126: 419–427.10.1016/j.jclepro.2016.03.005 Search in Google Scholar

Deadman M.L, 2017, Sources of pesticide residues in food: Toxicity, exposure, and risk associated with use at the farm level, [in:] Khan M.S., Rahman M.S. (eds), Pesticide residue in foods: Sources, management, and control, Springer, Cham: 7–35.10.1007/978-3-319-52683-6_2 Search in Google Scholar

Detsouli A, Amiar L., Nabih Z., Kharbouch D., Windy M., Rhalem N., Soulaymani A., Mokhtari A., Soulaymani-Bencheikh R., 2017, Epidemiology of acute pesticide poisoning in Morocco: a 7-year retrospective study (2008-2014), J. Mater. Environ. Sci. (JMES) 8(12): 4234–4239.10.26872/jmes.2017.8.12.445 Search in Google Scholar

Didi S., Housni F.E., del Toro H.B., Najine A., 2019, Mapping of soil salinity using the Landsat 8 image and direct field measurements: A case study of the Tadla Plain, Morocco, J. Indian Soc. Remote Sens. 47(7): 1235–1243.10.1007/s12524-019-00979-7 Search in Google Scholar

Eddaya T., Boughdad A., Becker L., Chaimbault P., Zaïd A., 2015, Utilisation et risques des pesticides en protection sanitaire de la mentheverte dans le Centre-Suddu Maroc (Use and risks of pesticides in sanitary protection of spearmint in south-central Morocco), J. Mater. Environ. Sci. (JMES) 6(3): 656–665 (in French). Search in Google Scholar

El Azzouzi E.H., El Bouzaidi H., Nouri K., El Azzouzi M., Fekhaoui M., 2014, study the impact of pesticides using pressure indicator and toxicity watershed Merja Zerga (Morocco), Adv. Environ. Biol. 8(17): 31–35. Search in Google Scholar

El Bouzaidi H., Hafiane F.Z., Fekhaoui M., 2020, Inventory of pesticides and their impact on the environment by calculating the frequency of treatment indicator in the Gharb plain (Morocco), Mediterr. J. Chem. (MJC) 10(4): 406–417.10.13171/mjc10402005041137fzh Search in Google Scholar

El Houssain B., Fadlaoui A., Allali K., Arrach R., 2019, Contract farming in the Morocco Cereal Sector: Contract clauses, ambiguity, and opportunism, Int. J. Agric. Econ. 4(5): 245–253.10.11648/j.ijae.20190405.17 Search in Google Scholar

El Mouatassime S., Boukdir A., Karaoui I., Skataric G., Nacka M., Khaledi Darvishan A., Sestras P., Spalevic V., 2019, Modelling of soil erosion processes and runoff for sustainable watershed management: Case study Oued El Abid watershed, Morocco, Agric. For. (Podgorica) 65(4): 241–250.10.17707/AgricultForest.65.4.22 Search in Google Scholar

El Yousfi K., Greche H., Misbahi H., Cheikh R.B, 2020, Phytochemical evaluation and vasodilatory activity of O. Elongatum, C. Salviifolius and C. Laurifolius, Mor. J. Chem. 8(1): 226–234. Search in Google Scholar

Hafiane F.Z., Tahri L., Nouayti N., El Jarmouni M., Arifi K., El Amrani Idrissi A., Fekhaoui M., 2020, Assessment of spatial and seasonal nitrate variation of groundwater in the irrigated perimeter (Tadla Plain-Morocco), Agric. For. (Podgorica) 66(1): 203–314.10.17707/AgricultForest.66.1.19 Search in Google Scholar

Hassoun H., Lamhasni T., Foudeil S., Lyazidi S.A., Haddad M., Choukrad M., Patrolecco L., Polesello S., Valsecchi S.M, 2017, implementation of total fluorescence fingerprinting as a rapid and low cost approach for monitoring pesticide remains in soils and waters in Morocco, [in:] Danh N.T. (ed.), Morocco. Environmental, social and economic issues of the 21st century, Nova Sci. Pulish., New York: 121–164. Search in Google Scholar

Iken I., Hoummani H., Derkaoui A., Boukatta I., Oulfakir S., Bardai A., Harandou M., Khatouf M., Kanjaa N., Achour S., 2018, The poisoning by the chloralose: Experience of the university hospital Hassan II of Fez between 2011 and 2014, Toxicol. Anal. et Clin. 30(2): 114–119.10.1016/j.toxac.2017.12.003 Search in Google Scholar

Jouzel J.-N., Prete G., 2014, Devenir victime des pesticides. Le recours au droit et ses effets sur la mobilisation des agriculteurs Phyto-victimes (Becoming a victim of pesticides. Legal action and its effects on the mobilisation of affected farmworkers), Sociol. Trav. 56: 435–453 (in French).10.4000/sdt.2235 Search in Google Scholar

Kim S.-K., 2020, Trophic transfer of organochlorine pesticides through food-chain in coastal marine ecosystem, Environ. Eng. Res. 25(1): 43–51.10.4491/eer.2019.003 Search in Google Scholar

Koroša A., Auersperger P., Mali N., 2016, determination of micro-organic contaminants in groundwater (Maribor, Slovenia), Sci. Total Environ. 571: 1419–1431.10.1016/j.scitotenv.2016.06.10327395079 Search in Google Scholar

Kpan Kpan G.K., Yao L.B., Diemeleou C.A., N’guettia R.K., Traore S.K., Dembele A., 2019, Pratiques phytosanitaires en agriculture périurbaine et contamination des denrées par les pesticides: Cas des maraîchers de Port-Bouët, Abidjan (Phytosanitary practices in peri-urban agriculture and food contamination by pesticides: The case of market gardeners in Port-Bouët, Abidjan), J. Anim. Plant Sci. 41(1): 6847–6863 (in French).10.35759/JAnmPlSci.v41-1.11 Search in Google Scholar

Krakowiak A., Zajdel R., Kobza-Sindlewska K., Krakowiak M., Piekarska-Wijatkowska A., 2019, Pesticide poisonings in 2004-2014 in Łódź, Poland – an nalysis of selected clinical and sociodemographic parameters, Med. Pr. 70(6): 655–667.10.13075/mp.5893.0090531769435 Search in Google Scholar

Lee T.-G., Lee C.-G., Hong S.-G., Kim J.-H., Park S.-J., 2019, Water and soil properties in organic and conventional paddies throughout the rice cultivation cycle in South Korea, Environ. Eng. Res. 24(1): 45–53.10.4491/eer.2017.219 Search in Google Scholar

Velkoska-Markovska L., Petanovska-Ilievska B., Markov-ski A., 2019, determination of some pesticide residues in apple juice by high-performance liquid chromatography, J. Agric. Food Environ. Sci. (JAFES) 73(3): 30–37.10.1556/1326.2017.00330 Search in Google Scholar

Liu Y., Fan X., Zhang T., He W., Song F., 2020, Effects of the long-term application of atrazine on soil enzyme activity and bacterial community structure in farmlands in China, Environ. Pollut. 262: #114264.10.1016/j.envpol.2020.11426432142977 Search in Google Scholar

Maatala N., Fadloui A., Lebailly P., 2019, Evaluation of the impact of partnership program on the technical and economic efficiency of irrigation water use for Moroccan citrus farms, Int. J. Agric. Econ. 4(2): 70–79.10.11648/j.ijae.20190402.14 Search in Google Scholar

Maftouh I., Moussaif A., Elmzibri M., Elabbadi N., Mesfioui A., 2017, Assessment of the Main Active Molecules among the most used pesticides in the Gharb Region in Morocco, Int. J. Agric. Innov. Res. (IJAIR) 6(2): 359–362. Search in Google Scholar

Marutescu L., Chifiriuc M.C., 2017, Molecular mechanisms of pesticides toxicity, [in:] Grumezescu A.M. (ed), New pesticides and soil sensors, Academic Press, San Diego: 393–435.10.1016/B978-0-12-804299-1.00012-6 Search in Google Scholar

Mehmeti A., Musa F., Demaj J., Kamberi M., Rusinovci I., Kastrati R., 2016, The effect of herbicides on the chemical content of wheat grain, Agric. For. (Podgorica) 62(3): 117–123.10.17707/AgricultForest.62.3.10 Search in Google Scholar

Ngakiama G.N., Mbela G.K., Pole C.S., Kyela C.M., Komanda J.A., 2019, Analyse des connaissances, attitudes et pratiques des maraîchers de la Ville de Kinshasa en rapport avec l’utilisation des pesticides et l’impact sur la santé humaine et sur l’environnement (Analysis of the knowledge, attitudes and practices of market gardeners in the City of Kinshasa in relation to the use of pesticides and the impact on human health and the environment), Int. J. Innovat. Appl. Stud. (IJIAS) 26(2): 345-356 (in French). Search in Google Scholar

Oumenskou H., El Baghdadi M., Barakat A., Aquit M., Ennaji W., Karroum L.A., Aadraoui M., 2018, Assessment of the heavy metal contamination using GIS-based approach and pollution indices in agricultural soils from Beni Amir irrigated perimeter, Tadla plain, Morocco, Arab. J. Geosci. 11(22): #692.10.1007/s12517-018-4021-5 Search in Google Scholar

Rahhal B.M., Abu Rmileh J., Kalouti N., Murrar S., 2017, Assessment of respiratory health indicators among agricultural workers exposed to pesticides: A cross sectional study from Palestine, Mor. J. Chem. 5(2): 266–271. Search in Google Scholar

Randhavane S.B., 2019, Comparing geometric parameters of a hydrodynamic cavitation process treating pesticide effluent, Environ. Eng. Res. 24(2): 318–323.10.4491/eer.2018.227 Search in Google Scholar

Rastija V., Agić D., Brlas K., Masand V., 2017, Application a new PyMOL plugin in quantitative structure-toxicity relationship study of pesticides, WSEAS Trans. Biol. Biomed. 14: 105–111. Search in Google Scholar

Reiler E., Jørs E., Bælum J., Huici O., Alvarez Caero M.M., Cedergreen N., 2015, The influence of tomato processing on residues of organochlorine and organophosphate insecticides and their associated dietary risk, Sci. Total Environ. 527-528: 262–269.10.1016/j.scitotenv.2015.04.08125965039 Search in Google Scholar

Rhalem N., Khattabi A., Achour S., Soulaymani A., Bencheikh R.S., 2009, Facteurs prédictifs de gravité de l’intoxication aux pesticides. Expérience du Centre Antipoison Du Maroc (Risk factors for acute pesticide poisoning. Poison Control Centre of Morocco experience), Ann. Toxicol. Anal. 21: 79–84 (in French, English summary).10.1051/ata/2009039 Search in Google Scholar

Rojano-Delgado A.M., Cruz-Hipolito H., De Prado R., Luque de Castro M.D., Rodríguez Franco A., 2012, Limited uptake, translocation and enhanced metabolic degradation contribute to glyphosate tolerance in Mucuna pruriens var. utilis plants, Phytochemistry 73: 34–41.10.1016/j.phytochem.2011.09.00722015254 Search in Google Scholar

Samadi-Maybodi A., Rahmati A., 2019, Dual metal zeolitic imidazolate frameworks as an organometallic polymer for effective adsorption of chlorpyrifos in aqueous solution, Environ. Eng. Res. 25(6): 847–853.10.4491/eer.2019.325 Search in Google Scholar

Singare P.U., 2016, distribution and risk assessment of suspected endocrine-disrupting pesticides in creek water of Mumbai, India, Mar. Pollut. Bull. 102(1): 72–83.10.1016/j.marpolbul.2015.11.05526652143 Search in Google Scholar

Sraďri M.T., 2017, New challenges for the Moroccan agricultural sector to cope with local and global changes, [in:] Danh N.T. (ed.), Morocco. Environmental, social and economic issues of the 21st century, Nova Sci. Pulish., New York: 165–188. Search in Google Scholar

Tadeo J.L, Sanchez-Brunete C., González L.,2008, Pesticides: Classification and properties, [in:] Tadeo J.L. (ed.), Analysis of pesticides in food and environmental samples, CRC Press, Boca Raton: 1–34.10.1201/9781420007756 Search in Google Scholar

Walton E.L., 2016, Pralidoxime and pesticide poisoning: A question of severity? Biomed. J. 39 (6): 373–75.10.1016/j.bj.2016.12.001613851728043415 Search in Google Scholar

[WHO] World Health Organization, 2020, International Program on Chemical Safety. Poisoning Prevention and Management. Harmonized data collection (Accessed 16 February 2020). Retrieved from http://www.who.int/ipcs/poisons/en/ Search in Google Scholar

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