Environmental Nanoremediation under Changing Climate

El-Ramady, Hassan; Alshaal, Tarek; El-Henawy, Ahmed; Abdalla, Neama; Taha, Hussein; Elmahrouk, Mohamed; Shalaby, Tarek; Elsakhawy, Tamer Abdallah; Omara, Alaa El-Dein; elmarsafawy, Samia; Elhawat, Nevien; Shehata, Said; Selmar, Dirk; Domokos-Szabolcsy, Eva

doi:10.21608/jenvbs.2017.1550.1009

	Environmental Nanoremediation under Changing Climate
Environment, Biodiversity and Soil Security
Article 9, Volume 1, Issue 2017, June 2017, Page 109-128 PDF (1.45 MB)
Document Type: Review
DOI: 10.21608/jenvbs.2017.1550.1009
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Authors
Hassan El-Ramady ¹; Tarek Alshaal¹; Ahmed El-Henawy ²; Neama Abdalla³; Hussein Taha⁴; Mohamed Elmahrouk⁵; Tarek Shalaby⁶; Tamer Abdallah Elsakhawy ⁷; Alaa El-Dein Omara ⁸; Samia elmarsafawy⁹; Nevien Elhawat¹⁰; Said Shehata¹¹; Dirk Selmar¹²; Eva Domokos-Szabolcsy¹³
¹Soil and Water Dept., Kafrelsheikh Uni.
²Soil and water Dept., Kafrelsheikh Uni.
³Plant Biotechnology Department, Genetic Engineering Division, National Research Center, 33-El-Behouth St., 12622 Dokki, Giza, Egypt
⁴Plant Biotechnology Department, Genetic Engineering Division, National Research Center, Dokki, Giza, Egypt
⁵Horticulture Dept., Faculty of Agriculture, Kafrelsheikh Uni., Kafr El-Sheikh, Egypt
⁶Horticulture Dept., Faculty of Agriculture, Kafrelsheikh Uni., Kafr El-Sheikh, Egypt and College of Agricultural and Food Sciences, King Faisal University, Al-Hassa 31982, Saudi Arabia
⁷Microbiology department, Soil, Water and Environment Research Institute, Agricultural Research Center.
⁸Agricultural Microbiology, Soil, Water and Environment Research Institute, Giza, Egypt
⁹Soil, Water, and Environment Institute, ARC, Giza
¹⁰Biological and Environmental Sciences Dept., Home Economics Faculty, Al-Azhar Uni, Egypt
¹¹Vegetable crop dept., faculty of agriculture, Cairo Uni.
¹²Applied Plant Science Dept., Institute for Plant Biology, TU Braunschweig, Braunschweig, Germany
¹³Plant Biotechnology Dept., Debrecen Uni., Böszörményi Útca. 138, 4032 Debrecen, Hungary
Abstract
Many global problems threaten our life on the Planet including climate changes, environmental pollution, food and soil security, energy crisis, etc. This environmental pollution has not only mainly serious risks and stress involving the human health and the entire ecosystem safety but also the quantity and quality of crop productivity worldwide. Due to the great gap between the global food production and the global consumption, there is a crucial need to cultivate these contaminated lands sooner or later. Therefore, the removing of pollutants from soils and waters should be performed in frame of sustainable remediation and sustainable energy production. Depending on many factors (source and kind of pollutants, land use and the economics of water and soil resources, etc) many strategies should be addressed for the sustainable and integrated management of polluted lands. Nanoremediation is a promising strategy in controlling pollution and management. Three major applications of nanoremediation could be characterized including detection of pollution using nanosensors, prevention of pollution, purification and remediation of contamination. Further studies also concerning the impact of changing climate on the nanoremediation process in the agroecosystems should be considered. Thus, this review will focus on the evaluation of environmental nanoremediation and its strategy in polluted lands under climate changes. Using of nanotechnology in pollution control as well as the environmental pollution and its sustainable management also will be highlighted.
Keywords
Environmental Nanoremediation; Climate Change; pollution; Crop production; Environmental stress


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