Development of automated methods of identifying toxicants in the environment
Many NPDES permits today require the development of Toxicity Reduction Evaluation (TRE) programs designed to reduce toxicity to acceptable levels when effluent toxicity is detected. The first of two approaches commonly used in the abatement of effluent toxicity is treatment without the specific iden...
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| Published in: | Bulletin of environmental contamination and toxicology Vol. 54; no. 1; pp. 104 - 111 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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New York, NY
Springer-Verlag
1995
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| Abstract | Many NPDES permits today require the development of Toxicity Reduction Evaluation (TRE) programs designed to reduce toxicity to acceptable levels when effluent toxicity is detected. The first of two approaches commonly used in the abatement of effluent toxicity is treatment without the specific identification and confirmation of the causative toxicants. The second method involves specific identification and confirmation of the causative toxicants with the goal of locating and eliminating the problem at its source. Specific methods for characterizing, identifying and confirming causative toxicants were developed by USEPA in the late 1980s. These procedures typically entail manual physical/chemical manipulation of a toxic sample followed by toxicity assessment and analytical analysis in three separate steps. The need for more rapid, cost-effective, and analytical methods of identifying environmental toxicants warranted the development of automated procedures using commercially available equipment and techniques. In this report, the development and preliminary validation of an automated identification methodology for water-borne toxicants using an Ion Chromatography/High Pressure Liquid Chromatograph (IC/HPLC) is presented. Development of the methodology included testing the system with synthetic media blanks to ensure that the equipment was not introducing toxicity, as well as evaluating the purity of the samples prepared. Ammonia, dissolved solids, copper, pentachlorophenol, and diazinon toxicant standards, as well as a composited mixture of the individual toxicants, were also used to develop and fine-tune the operation of the automated system. Preliminary validation of the automated methodology was performed by comparing the results obtained from toxicity identification studies with an industrial wastewater effluent using conventional methods to studies employing the newly developed automated methods. Preliminary results indicated that the automated approach will provide the scientific community with a rapid, cost-effective, automated method for performing standard toxicity identification studies. |
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| AbstractList | The development and preliminary validation of an automated identification methodology for water-borne toxicants using an ion chromatograph-HPLC (ICP-HPLC) is presented. Ionic contaminants were concentrated on a mixed-bed ion exchange resin. Organic contaminants were concentrated on a Zorbax C18 column. 48-h static toxicity tests using Ceriodaphnia dubia and Pimephales promelas were conducted with the C18 and mixed bed ion exchange eluate samples. The automated method was validated using standard toxicant solutions including ammonia, conductive dissolved solids, copper, pentachlorophenol and diazinon. The automated methodology was used to evaluate potential causes of toxicity to C. dubia in a complex industrial effluent. Many NPDES permits today require the development of Toxicity Reduction Evaluation (TRE) programs designed to reduce toxicity to acceptable levels when effluent toxicity is detected. The first of two approaches commonly used in the abatement of effluent toxicity is treatment without the specific identification and confirmation of the causative toxicants. The second method involves specific identification and confirmation of the causative toxicants with the goal of locating and eliminating the problem at its source. Specific methods for characterizing, identifying and confirming causative toxicants were developed by USEPA in the late 1980s. These procedures typically entail manual physical/chemical manipulation of a toxic sample followed by toxicity assessment and analytical analysis in three separate steps. The need for more rapid, cost-effective, and analytical methods of identifying environmental toxicants warranted the development of automated procedures using commercially available equipment and techniques. In this report, the development and preliminary validation of an automated identification methodology for water-borne toxicants using an Ion Chromatography/High Pressure Liquid Chromatograph (IC/HPLC) is presented. Development of the methodology included testing the system with synthetic media blanks to ensure that the equipment was not introducing toxicity, as well as evaluating the purity of the samples prepared. Ammonia, dissolved solids, copper, pentachlorophenol, and diazinon toxicant standards, as well as a composited mixture of the individual toxicants, were also used to develop and fine-tune the operation of the automated system. Preliminary validation of the automated methodology was performed by comparing the results obtained from toxicity identification studies with an industrial wastewater effluent using conventional methods to studies employing the newly developed automated methods. Preliminary results indicated that the automated approach will provide the scientific community with a rapid, cost-effective, automated method for performing standard toxicity identification studies. The development and preliminary validation of an automated identification methodology for water-borne toxicants using ion chromatography/high-pressure liquid chromatography is presented. This automated approach is a rapid and cost-effective method for performing standard toxicity identification studies. |
| Author | HELEMS, R POWERS, C. R GONZALEZ, R STOVER, E. L FORT, D. J DELPHON, J |
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| Keywords | Automation Ion chromatography Chemical analysis Analysis method Toxicity HPLC chromatography Qualitative analysis Water pollution |
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| Snippet | The development and preliminary validation of an automated identification methodology for water-borne toxicants using an ion chromatograph-HPLC (ICP-HPLC) is... Many NPDES permits today require the development of Toxicity Reduction Evaluation (TRE) programs designed to reduce toxicity to acceptable levels when effluent... The development and preliminary validation of an automated identification methodology for water-borne toxicants using ion chromatography/high-pressure liquid... |
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| SubjectTerms | Ammonia - analysis Ammonia - toxicity Analysis methods Animals Applied sciences Automation Bacteria - drug effects Chromatography, High Pressure Liquid Chromatography, Ion Exchange Contamination Copper - analysis Copper - toxicity Cost-Benefit Analysis Cyprinidae Daphnia Diazinon - analysis Diazinon - toxicity Exact sciences and technology Hydrogen-Ion Concentration Natural water pollution Pentachlorophenol - analysis Pentachlorophenol - toxicity Pollution Q1 Reference Standards Reproducibility of Results Sodium Chloride - analysis Sodium Chloride - toxicity Toxicity Toxins, Biological - analysis Toxins, Biological - toxicity United States United States Environmental Protection Agency Water analysis Water treatment and pollution |
| Title | Development of automated methods of identifying toxicants in the environment |
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