Environmental Impact Assessment of Jbel Tirremi Fluorite Deposit Project in Taourirt Region, Morocco

Cherai, Mohammed; Talbi, Fouad; Essifi, Kamal; Lazaar, Ayoub

doi:10.12912/27197050/152958

Artykuł - szczegóły

Tytuł artykułu

Environmental Impact Assessment of Jbel Tirremi Fluorite Deposit Project in Taourirt Region, Morocco

Autorzy

Cherai Mohammed , Talbi Fouad , Essifi Kamal , Lazaar Ayoub

Treść / Zawartość

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DOI

10.12912/27197050/152958

Warianty tytułu

Języki publikacji

Abstrakty

Exploration of mineral resources had been part of the major means to promote economic development in Morocco, but the devastating effect of mining on the environment is inevitable. Based on the factors analysis of the environmental disasters caused by the mining activities, the Jbel Tirremi mine, located in the North-Eastern part of Morocco, North Africa is one of the Open Pit which resulting in an impact on the environmental system. This paper systematically analyzes the influences of Open Pit mining on the land resource, air quality, sound, water resources, ground, species, Socio-economic, ecological system, geological and ecological environment, especially analyzes the effects on the environmental system.

Słowa kluczowe

open pit environmental impact environmental system Jbel Tirremi mine Morocco

Wydawca

Lubelski Oddział Polskiego Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology
WNGB Wydawnictwo Naukowe

Czasopismo

Ecological Engineering & Environmental Technology

Rocznik

2022

Tom

Vol. 23, iss. 6

Strony

140--146

Opis fizyczny

Bibliogr. 24 poz., rys., tab.

Twórcy

autor

Cherai Mohammed

cheraibg@gmail.com

Laboratoire de Géosciences, Géo-environnement et Prospection Minière et Hydrique, Faculté des Sciences, 60000 Oujda, BP 717, Marocco

https://orcid.org/0000-0003-3129-8754

autor

Talbi Fouad

Laboratoire de Géosciences, Géo-environnement et Prospection Minière et Hydrique, Faculté des Sciences, 60000 Oujda, BP 717, Marocco

https://orcid.org/0000-0002-0648-5454

autor

Essifi Kamal

Physical Chemistry of Natural Substances and Process Team, Laboratry of Applied Chemistry and Environment (LCAE-CPSUNAP), Faculty of Sciences, Mohammed First University, Oujda, Morocco

https://orcid.org/0000-0002-6924-3292

autor

Lazaar Ayoub

Laboratory of Applied Geosciences (LGA), Department of Geology, Faculty of Sciences, Mohammed First University, Oujda, Morocco

https://orcid.org/0000-0002-7741-037X

Bibliografia

1. Antunes S.C., Castro B.B., Pereira R., Goncalves F. 2008. Contribution for tier 1 of the ecological risk assessment of Cunha Baixa uranium mine (Central Portugal): II. Soil ecotoxicological screening. Sci Total Environ, 390, 387–395.
2. Blodgett S., Kuipers J.R. 2002. Technical Report on underground hard-rock mining: subsidence and hydrologic environmental impacts. Center for Science in Public Participation, 36–38.
3. Bouabdellah M., Castorina F., Bodnar RJ., Banks D., Jébrak M., Prochaska W., Lowry D., Klügel A., Hoernle K. 2014. Petroleum migration, fluid mixing, and halokinesis as the main ore-forming processes at the peridiapiric Jbel Tirremi fluorite-barite hydrothermal deposit, northeastern Morocco. Economic Geology, 109(5), 1223-1256.
4. Bozkurt S., Moreno L., Neretnieks I. 2008. Longterm processes in waste deposits. Sci Total Environ, 250, 101–112.
5. Casiot C., Ujevic M., Munoz M., Seidel J.L., ElbazPoulichet F. 2007. Antimony and arsenic mobility in a creek draining an antimony mine abandoned 85 years ago (upper Orb basin, France). Appl Geochem, 22, 788–798.
6. Chalupnik S., Wysocka M. 2008. Radium removal from mine waters in underground treatment installations. J Environ Radioact (in press).
7. Driussi C., Jansz J. 2006. Pollution minimization practices in the Australian mining and mineral processing industries. J Clean Prod, 14, 673–681.
8. Dudka S., Adriano D.C. 1997. Environmental impacts of metal ore mining and processing: a review. J Environ Qual, 26, 590–602.
9. Fernandez-Galvez J., Barahona E., Iriarte A., Mingorance M.D. 2007. A simple methodology for the evaluation of groundwater pollution risks. Sci Total Environ, 378, 67–70.
10. Folchi R. 2003. Environmental Impact Statement for Mining with Explosives: A Quantitative Method, I.S.E.E. Paper presented at the 29th Annual Conference on Explosives and Blasting Technique. Northville, Tennessee, USA.
11. Giret P. 1985. Histoire paléogéographique, pétrologique et structural du district à fluorine de Taourirt (Maroc Oriental): Unpublished Ph.D. thesis, France, University of Orléans, 191. (in French)
12. Gobling S. 2001. Entropy Production as a Measure for Resource Use Applied to Metallurgical Processes. Paper presented at The Science and Culture of Industrial Ecology (ISIE Conference).
13. Hansen Y., Broadhurst J.L., Petrie J.G. 2008. Modelling leachate generation and mobility from copper sulfide tailings–An integrated approach to Impact assessment. Miner Eng, 21, 288– 301.
14. Haupt C., Mistry M., Wilde J. 2001. Development of Measures to Minimize Adverse Ecological Effects Generated by Abandoned Mines in Developing Countries. Institut Fu¨ R Bergbaukunde I. der Rheinisch-Westfa¨lischen Technischen Hochschule Aachen, 51–54.
15.Jordanov S.H., Maletic M., Dimitrov A., Slavkov D., Paunovic P. 2007. Wastewaters from copper ores mining/flotation in ‘Bucbim’ mine: characterization and remediation. Desalination, 213, 65–71.
16.Jimeno L.C., Jimeno L.E., Carcedo F.J.A. 1995. Drilling and blasting of rocks. Geo-mining Technological Institute of Spain, 345–351.
17. Moussa K. 1999. Les minéralisations de fluorine du district de Taourirt : cadre géologique et étude des incluions fluides (Maroc Nord Oriental) : Thèse de 3ème cycle, Tunisie, Université de Tunis. (in French)
18. Pain D.J., Sanchez A., Meharg A.A. 1998. The Donana ecological disaster: Contamination of a world heritage estuarine marsh ecosystem with acidified pyrite mine waste. Sci Total Environ, 222, 45–54.
19. Pereira R., Antunes S.C., Marques S.M., Goncalves F. 2008. Contribution for tier 1 of the ecological risk assessment of Cunha Baixa uranium mine (Central Portugal): I Soil chemical characterization. Sci Total Environ, 390, 377–386.
20. Sare I.R., Mardel J.I., Hill A.J. 2001. Wear-resistant metallic and elastomeric materials in the mining and mineral processing industries – an overview. Wear, 250, 1–10.
21. Shikazono N., Zakir H.M., Sudo Y. 2008. Zinc contamination in river water and sediments at Taisyu Zn–Pb mine area, Tsushima Island, Japan. J Geochem Explor, 98, 80–88.
22. Sengupta M. 1993. Environmental Impacts of Mining: Monitoring, Restoration, and Control, CRC Press, 3–20.
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24. White L. 1991. Environmental Engineering – an Evolving Discipline of Increasing Importance to Mining. Min Eng, 43, 1309.

Uwagi

Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-01d4a9a0-57f6-480e-bade-fdcf71ebb048