Right to Environment in the Islamic sources
محورهای موضوعی : Research paper
1 - Department of Humanities and Law, Ardabil Branch, Islamic Azad University, Ardabil, Iran
کلید واژه: Trust, environment, jurisprudence, right, lossless, the right to collective right,
چکیده مقاله :
Environmental issue is one of the most important issues in the world as well as in the country. Observing the principles of environmental ethics and its ability for being amenable by people’s religious sensitivity can help protect the environment and control it. The present study is an analytical-descriptive based investigation in which by reviewing and scrutinizing the available resource in Imamie’s jurisprudence, Environmental law has been extracted and inferred. The purpose of this research is the Imamie jurisprudence''s viewpoint to identify the right to the environment and the effect of religious sensitivity on environmental ethics. The necessary knowledge of it is the basis of many rulings and fatwa and the rules inferred from the reasons. This is a nudist talk that hasn’t been seriously discussed in Imamieh jurisprudence so far. What is being looked at here, is a new step towards placing the environment in the form of the right of third-generation rights which is a public benefit and right. To prove this right, the sources and purposes of this right in the Imamie’s jurisprudence should be studied. This is a legal right and not a moral one. Findings of the research is: The teachings of Imamie’s jurisprudence are capable of considering the environment as a right; it is the realization of a collective and legal responsibility and not moral one. For the purpose of maintaining this collective benefit for all generations, the talk is about lawfulness, unlawfulness, and punishment of environmental perpetrators.
Abrishamchi A, Afshar A, Afzali MR, Jamshid B (2014) Wastewater Engineering. 4th ed. University Publication Center, 956.
Alitaleshi MS, Azimzadeh HR, Ghaneeian MT, Namayandeh SM (2015) Performance evaluation of reverse osmosis systems for water treatment required of hemodialysis in Yazd educational hospitals. Journal of research in environmental health. 1(2):95-03.
Bahmanpour H, Habashi R, Hosseini SM, (2017) Investigating the Efficiency of Lightweight Expanded Clay Aggregate (LECA) in Wastewater Treatment of Dairy Industry, Anthropogenic Pollution Journal, 1(1): 9-17.
Baumlisberger M., Youssar L., Schilhabel M.B., Jonas D (2015) Influence of a nonhospital medical care facility on antimicrobial resistance in wastewater. PLoS One, 3 (10), 122.
Bengtsson-Palme J, Boulund F, Fick J, Kristiansson E, and Larsson DGJ (2014) Shotgun metagenomics reveals a wide array of antibiotic resistance genes and mobile elements in a polluted lake in India. Front. Microbiol. 5, 648.
Dehghani M, Doleh M, Hashemi H, Shamsaddini N (2013) The Quality of Raw and Treated Water of Desalination Plants by Reverse Osmosis in Qeshm. Journal of Health & Development. 2(1):33-43.
Falkenberg LJ, Styan CA. (2015) The use of simulated whole effluents in toxicity assessments: A review of case studies from reverse osmosis desalination plants. Desalination. 368:3-9.
Hester ET, Doyle MW (2011) Human impacts to river temperature and their effects on biological processes: a quantitative synthesis. Journal of the American Water Resources Association. 47(3):571-87.
Kazemnejad F, Safaee H, Pasha MB, Kazemnejad E (2010) study the pollution sources of Sardabrood river. Journal of Natural Resources Science and Technology. 5(2):101-10.
Madden N, Lewis A, Davis M (2013) Thermal effluent from the power sector: an analysis of once-through cooling system impacts on surface water temperature. Environmental Research Letters. 8(3):1-8.
Mishra OP, Singh M, Shukla R (2014) Evaluate Effectiveness of Ro System for Thermal Power Plant -A Case Study of RAYRU Filtration Plant. Advance in electronic and electric engineering. 4(5):469-74.
Movasagh Ahmadi H, Fataei E (2015) The Feasibility of Using the Aerobic-Anaerobic Bioreactor (Microbiological Processes) Sludge of Municipal Wastewater Treatment Plant of Tabriz for Agricultural Purpose, JOURNAL OF Pure and Applied Microbiology, 9(3): 2105-2113.
Nassri S, Sadeghi T, Vaezi F, Naddafi K (2012) Quality of Ardabil wastewater treatment plant effluent for reuse in agriculture. Journal of Health and Hygiene; 3(3):28-37 (In Persian).
Prieto D, Swinnen N, Blanco L, Hermosilla D, Cauwenberg P, Blanco Á (2016) Drivers and economic aspects for the implementation of advanced wastewater treatment and water reuse in a PVC plant. Water Resources and Industry. 14:26-30.
Qadir M, Wichelns D, Raschid-Sally L, McCornick PG, Drechsel P, Bahri A (2010) The challenges of wastewater irrigation in developing countries. Agricultural Water Management. 97(4):561-68.
Rajamohan R, Venugopalan VP, Debasis M, Usha N (2014) Efficiency of reverse osmosis in removal of total organic carbon and trihalomethane from drinking water. Research Journal of Chemistry and Environment.18 (12):1-6.
Singh A, Agrawal M (2012). Effects of waste water irrigation on physical and biochemical characteristics of soil and metal partitioning in beta vulgaris L. Agricultural Research, 1(4): 379–391.
Singh, P.K., Deshbhratar, P.B. and Ramteke, D.S. (2012). Effects of sewage wastewater irrigation on soil properties, crop yield and environment.
Sundaray SK, Nayak BB, Bhatta D (2009). Environmental studies on river water quality with reference to suitability for agricultural purposes: Mahanadi river estuarine system, India–a case study. Environmental Monitoring and Assessment; 155(1-4):227-43.
WHO (1989) Health guidelines for the use of wastewater in agriculture and aquaculture. World Health Technical Report Series, Geneva.
