Monitoring of pesticides water pollution-The Egyptian River Nile

Background Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides poses a hazardous risk to both human and environmental compartments. Therefore, a large scale monitoring study was carried on pesti...

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Published in	Journal of environmental health science and engineering Vol. 14; no. 1; p. 15
Main Authors	Dahshan, Hesham, Megahed, Ayman Mohamed, Abd-Elall, Amr Mohamed Mohamed, Abd-El-Kader, Mahdy Abdel-Goad, Nabawy, Ehab, Elbana, Mariam Hassan
Format	Journal Article
Language	English
Published	London BioMed Central 07.10.2016 BioMed Central Ltd
Subjects	Earth and Environmental Science Environment Environmental aspects Environmental Economics Environmental engineering Environmental Engineering/Biotechnology Environmental Health Environmental Law/Policy/Ecojustice Environmental monitoring Methods Pesticides Quality of Life Research Research Article Waste Management/Waste Technology Egypt River Nile Organophosphorus pesticides Monitoring Organochlorine pesticides Human hazardous risk
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Abstract	Background Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides poses a hazardous risk to both human and environmental compartments. Therefore, a large scale monitoring study was carried on pesticides pollution in three geographical main regions along the River Nil water stream, Egypt. Methods Organochlorine and organophosphorus pesticides were extracted by liquid-liquid extraction and analyzed by GC-ECD. Results Organochlorine pesticides mean concentrations along the River Nile water samples were 0.403, 1.081, 1.209, 3.22, and 1.192 μg L −1 for endrin, dieldrin, p, p’-DDD, p, p’-DDT, and p, p’-DDE, respectively. Dieldrin, p, p’-DDT, and p, p’-DDE were above the standard guidelines of the World Health Organization. Detected organophosphorus pesticides were Triazophos (2.601 μg L −1 ), Quinalphos (1.91 μg L −1 ), fenitrothion (1.222 μg L −1 ), Ethoprophos (1.076 μg L −1 ), chlorpyrifos (0.578 μg L −1 ), ethion (0.263 μg L −1 ), Fenamiphos (0.111 μg L −1 ), and pirimiphos-methyl (0.04 μg L −1 ). Toxicity characterization of organophosphorus pesticides according to water quality guidelines indicated the hazardous risk of detected chemicals to the public and to the different environmental compartments. The spatial distribution patterns of detected pesticides reflected the reverse relationship between regional temperature and organochlorine pesticides distribution. However, organophosphorus was distributed according to the local inputs of pollutant compounds. Conclusions Toxicological and water quality standards data revealed the hazardous risk of detected pesticides in the Egyptian River Nile water to human and aquatic life. Thus, our monitoring data will provide viewpoints by which stricter legislation and regulatory controls can be admitted to avoid River Nile pesticide water pollution.
AbstractList	Background Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides poses a hazardous risk to both human and environmental compartments. Therefore, a large scale monitoring study was carried on pesticides pollution in three geographical main regions along the River Nil water stream, Egypt. Methods Organochlorine and organophosphorus pesticides were extracted by liquid-liquid extraction and analyzed by GC-ECD. Results Organochlorine pesticides mean concentrations along the River Nile water samples were 0.403, 1.081, 1.209, 3.22, and 1.192 μg L −1 for endrin, dieldrin, p, p’-DDD, p, p’-DDT, and p, p’-DDE, respectively. Dieldrin, p, p’-DDT, and p, p’-DDE were above the standard guidelines of the World Health Organization. Detected organophosphorus pesticides were Triazophos (2.601 μg L −1 ), Quinalphos (1.91 μg L −1 ), fenitrothion (1.222 μg L −1 ), Ethoprophos (1.076 μg L −1 ), chlorpyrifos (0.578 μg L −1 ), ethion (0.263 μg L −1 ), Fenamiphos (0.111 μg L −1 ), and pirimiphos-methyl (0.04 μg L −1 ). Toxicity characterization of organophosphorus pesticides according to water quality guidelines indicated the hazardous risk of detected chemicals to the public and to the different environmental compartments. The spatial distribution patterns of detected pesticides reflected the reverse relationship between regional temperature and organochlorine pesticides distribution. However, organophosphorus was distributed according to the local inputs of pollutant compounds. Conclusions Toxicological and water quality standards data revealed the hazardous risk of detected pesticides in the Egyptian River Nile water to human and aquatic life. Thus, our monitoring data will provide viewpoints by which stricter legislation and regulatory controls can be admitted to avoid River Nile pesticide water pollution. Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides poses a hazardous risk to both human and environmental compartments. Therefore, a large scale monitoring study was carried on pesticides pollution in three geographical main regions along the River Nil water stream, Egypt. Organochlorine and organophosphorus pesticides were extracted by liquid-liquid extraction and analyzed by GC-ECD. Organochlorine pesticides mean concentrations along the River Nile water samples were 0.403, 1.081, 1.209, 3.22, and 1.192 [mu]g L.sup.-1 for endrin, dieldrin, p, p'-DDD, p, p'-DDT, and p, p'-DDE, respectively. Dieldrin, p, p'-DDT, and p, p'-DDE were above the standard guidelines of the World Health Organization. Detected organophosphorus pesticides were Triazophos (2.601 [mu]g L.sup.-1), Quinalphos (1.91 [mu]g L.sup.-1), fenitrothion (1.222 [mu]g L.sup.-1), Ethoprophos (1.076 [mu]g L.sup.-1), chlorpyrifos (0.578 [mu]g L.sup.-1), ethion (0.263 [mu]g L.sup.-1), Fenamiphos (0.111 [mu]g L.sup.-1), and pirimiphos-methyl (0.04 [mu]g L.sup.-1). Toxicity characterization of organophosphorus pesticides according to water quality guidelines indicated the hazardous risk of detected chemicals to the public and to the different environmental compartments. The spatial distribution patterns of detected pesticides reflected the reverse relationship between regional temperature and organochlorine pesticides distribution. However, organophosphorus was distributed according to the local inputs of pollutant compounds. Toxicological and water quality standards data revealed the hazardous risk of detected pesticides in the Egyptian River Nile water to human and aquatic life. Thus, our monitoring data will provide viewpoints by which stricter legislation and regulatory controls can be admitted to avoid River Nile pesticide water pollution. Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides poses a hazardous risk to both human and environmental compartments. Therefore, a large scale monitoring study was carried on pesticides pollution in three geographical main regions along the River Nil water stream, Egypt. Organochlorine and organophosphorus pesticides were extracted by liquid-liquid extraction and analyzed by GC-ECD. Organochlorine pesticides mean concentrations along the River Nile water samples were 0.403, 1.081, 1.209, 3.22, and 1.192 μg L for endrin, dieldrin, p, p'-DDD, p, p'-DDT, and p, p'-DDE, respectively. Dieldrin, p, p'-DDT, and p, p'-DDE were above the standard guidelines of the World Health Organization. Detected organophosphorus pesticides were Triazophos (2.601 μg L ), Quinalphos (1.91 μg L ), fenitrothion (1.222 μg L ), Ethoprophos (1.076 μg L ), chlorpyrifos (0.578 μg L ), ethion (0.263 μg L ), Fenamiphos (0.111 μg L ), and pirimiphos-methyl (0.04 μg L ). Toxicity characterization of organophosphorus pesticides according to water quality guidelines indicated the hazardous risk of detected chemicals to the public and to the different environmental compartments. The spatial distribution patterns of detected pesticides reflected the reverse relationship between regional temperature and organochlorine pesticides distribution. However, organophosphorus was distributed according to the local inputs of pollutant compounds. Toxicological and water quality standards data revealed the hazardous risk of detected pesticides in the Egyptian River Nile water to human and aquatic life. Thus, our monitoring data will provide viewpoints by which stricter legislation and regulatory controls can be admitted to avoid River Nile pesticide water pollution. Background Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides poses a hazardous risk to both human and environmental compartments. Therefore, a large scale monitoring study was carried on pesticides pollution in three geographical main regions along the River Nil water stream, Egypt. Methods Organochlorine and organophosphorus pesticides were extracted by liquid-liquid extraction and analyzed by GC-ECD. Results Organochlorine pesticides mean concentrations along the River Nile water samples were 0.403, 1.081, 1.209, 3.22, and 1.192 μg L-1 for endrin, dieldrin, p, p'-DDD, p, p'-DDT, and p, p'-DDE, respectively. Dieldrin, p, p'-DDT, and p, p'-DDE were above the standard guidelines of the World Health Organization. Detected organophosphorus pesticides were Triazophos (2.601 μg L-1), Quinalphos (1.91 μg L-1), fenitrothion (1.222 μg L-1), Ethoprophos (1.076 μg L-1), chlorpyrifos (0.578 μg L-1), ethion (0.263 μg L-1), Fenamiphos (0.111 μg L-1), and pirimiphos-methyl (0.04 μg L-1). Toxicity characterization of organophosphorus pesticides according to water quality guidelines indicated the hazardous risk of detected chemicals to the public and to the different environmental compartments. The spatial distribution patterns of detected pesticides reflected the reverse relationship between regional temperature and organochlorine pesticides distribution. However, organophosphorus was distributed according to the local inputs of pollutant compounds. Conclusions Toxicological and water quality standards data revealed the hazardous risk of detected pesticides in the Egyptian River Nile water to human and aquatic life. Thus, our monitoring data will provide viewpoints by which stricter legislation and regulatory controls can be admitted to avoid River Nile pesticide water pollution. Background Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides poses a hazardous risk to both human and environmental compartments. Therefore, a large scale monitoring study was carried on pesticides pollution in three geographical main regions along the River Nil water stream, Egypt. Methods Organochlorine and organophosphorus pesticides were extracted by liquid-liquid extraction and analyzed by GC-ECD. Results Organochlorine pesticides mean concentrations along the River Nile water samples were 0.403, 1.081, 1.209, 3.22, and 1.192 [mu]g L.sup.-1 for endrin, dieldrin, p, p'-DDD, p, p'-DDT, and p, p'-DDE, respectively. Dieldrin, p, p'-DDT, and p, p'-DDE were above the standard guidelines of the World Health Organization. Detected organophosphorus pesticides were Triazophos (2.601 [mu]g L.sup.-1), Quinalphos (1.91 [mu]g L.sup.-1), fenitrothion (1.222 [mu]g L.sup.-1), Ethoprophos (1.076 [mu]g L.sup.-1), chlorpyrifos (0.578 [mu]g L.sup.-1), ethion (0.263 [mu]g L.sup.-1), Fenamiphos (0.111 [mu]g L.sup.-1), and pirimiphos-methyl (0.04 [mu]g L.sup.-1). Toxicity characterization of organophosphorus pesticides according to water quality guidelines indicated the hazardous risk of detected chemicals to the public and to the different environmental compartments. The spatial distribution patterns of detected pesticides reflected the reverse relationship between regional temperature and organochlorine pesticides distribution. However, organophosphorus was distributed according to the local inputs of pollutant compounds. Conclusions Toxicological and water quality standards data revealed the hazardous risk of detected pesticides in the Egyptian River Nile water to human and aquatic life. Thus, our monitoring data will provide viewpoints by which stricter legislation and regulatory controls can be admitted to avoid River Nile pesticide water pollution. Keywords: Monitoring, Organochlorine pesticides, Organophosphorus pesticides, River Nile, Human hazardous risk
ArticleNumber	15
Audience	Academic
Author	Elbana, Mariam Hassan Megahed, Ayman Mohamed Abd-El-Kader, Mahdy Abdel-Goad Dahshan, Hesham Nabawy, Ehab Abd-Elall, Amr Mohamed Mohamed
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Keywords	River Nile Organophosphorus pesticides Monitoring Organochlorine pesticides Human hazardous risk
Language	English
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Snippet	Background Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various... Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides... Background Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various... Persistent organic pollutants represent about 95 % of the industrial sector effluents in Egypt. Contamination of the River Nile water with various pesticides...
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SubjectTerms	Earth and Environmental Science Environment Environmental aspects Environmental Economics Environmental engineering Environmental Engineering/Biotechnology Environmental Health Environmental Law/Policy/Ecojustice Environmental monitoring Methods Pesticides Quality of Life Research Research Article Waste Management/Waste Technology
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Title	Monitoring of pesticides water pollution-The Egyptian River Nile
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