Aquatic risk assessment of copper in freshwater and saltwater ecosystems of South Florida
A screening-level aquatic risk assessment was conducted for copper in south Florida's freshwater and saltwater environments. Risk was quantified by comparing the overlap between the probability distributions of copper exposure from surface water and sediment with the probability distributions o...
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| Published in: | Ecotoxicology (London) Vol. 17; no. 7; pp. 642 - 659 |
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| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
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Boston : Springer US
01-10-2008
Springer US Springer Nature B.V |
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| Abstract | A screening-level aquatic risk assessment was conducted for copper in south Florida's freshwater and saltwater environments. Risk was quantified by comparing the overlap between the probability distributions of copper exposure from surface water and sediment with the probability distributions of effects data obtained from laboratory studies. Copper concentrations in surface water and sediment in south Florida were summarized by county. For surface water, the highest concentrations of copper were found in Martin and St. Lucie counties for freshwater and saltwater, respectively. From the exposure probability distributions, the 90th centile values were estimated at 14.0 μg/L and 15.4 μg/L in freshwater and saltwater, respectively. Copper concentrations in sediment were evaluated from a probability distribution of predicted pore water concentrations. The 90th centile values of pore water concentrations from freshwater sediments ranged from 5.0 μg/L in Palm Beach County to 71.7 μg/L in Broward County. In saltwater sediments, the 90th centile values for pore water ranged from 26.1 μg/L in St. Lucie County to 27.3 μg/L in Miami-Dade County. Ecological effects data were obtained for acute and chronic copper effects in freshwater and saltwater. The 10th centile values for acute effects data were 21.2 μg/L and 9.8 μg/L for freshwater and saltwater species, respectively. For chronic effects, the 10th centile values were 3.8 μg/L and 3.9 μg/L for freshwater and saltwater species, respectively. The risk of acute copper exposure in surface water was generally low; however, the potential for ecological risk from chronic copper exposure was low to high in several counties including Lee, Martin, and St. Lucie counties. The risk of acute copper exposure in porewater from freshwater sediments also was low with the exception of St. Lucie and Broward counties. However, porewater from saltwater sediments posed a significant acute risk in Miami-Dade and St. Lucie counties. In porewater from freshwater and saltwater sediments chronic risk was high in counties with sufficient data available to calculate risk estimates. |
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| AbstractList | A screening-level aquatic risk assessment was conducted for copper in south Florida's freshwater and saltwater environments. Risk was quantified by comparing the overlap between the probability distributions of copper exposure from surface water and sediment with the probability distributions of effects data obtained from laboratory studies. Copper concentrations in surface water and sediment in south Florida were summarized by county. For surface water, the highest concentrations of copper were found in Martin and St. Lucie counties for freshwater and saltwater, respectively. From the exposure probability distributions, the 90th centile values were estimated at 14.0 kg/L and 15.4 kg/L in freshwater and saltwater, respectively. Copper concentrations in sediment were evaluated from a probability distribution of predicted pore water concentrations. The 90th centile values of pore water concentrations from freshwater sediments ranged from 5.0 kg/L in Palm Beach County to 71.7 kg/L in Broward County. In saltwater sediments, the 90th centile values for pore water ranged from 26.1 kg/L in St. Lucie County to 27.3 kg/L in Miami-Dade County. Ecological effects data were obtained for acute and chronic copper effects in freshwater and saltwater. The 10th centile values for acute effects data were 21.2 kg/L and 9.8 kg/L for freshwater and saltwater species, respectively. For chronic effects, the 10th centile values were 3.8 kg/L and 3.9 kg/L for freshwater and saltwater species, respectively. The risk of acute copper exposure in surface water was generally low; however, the potential for ecological risk from chronic copper exposure was low to high in several counties including Lee, Martin, and St. Lucie counties. The risk of acute copper exposure in porewater from freshwater sediments also was low with the exception of St. Lucie and Broward counties. However, porewater from saltwater sediments posed a significant acute risk in Miami-Dade and St. Lucie counties. In porewater from freshwater and saltwater sediments chronic risk was high in counties with sufficient data available to calculate risk estimates. A screening-level aquatic risk assessment was conducted for copper in south Florida’s freshwater and saltwater environments. Risk was quantified by comparing the overlap between the probability distributions of copper exposure from surface water and sediment with the probability distributions of effects data obtained from laboratory studies. Copper concentrations in surface water and sediment in south Florida were summarized by county. For surface water, the highest concentrations of copper were found in Martin and St. Lucie counties for freshwater and saltwater, respectively. From the exposure probability distributions, the 90th centile values were estimated at 14.0 μg/L and 15.4 μg/L in freshwater and saltwater, respectively. Copper concentrations in sediment were evaluated from a probability distribution of predicted pore water concentrations. The 90th centile values of pore water concentrations from freshwater sediments ranged from 5.0 μg/L in Palm Beach County to 71.7 μg/L in Broward County. In saltwater sediments, the 90th centile values for pore water ranged from 26.1 μg/L in St. Lucie County to 27.3 μg/L in Miami-Dade County. Ecological effects data were obtained for acute and chronic copper effects in freshwater and saltwater. The 10th centile values for acute effects data were 21.2 μg/L and 9.8 μg/L for freshwater and saltwater species, respectively. For chronic effects, the 10th centile values were 3.8 μg/L and 3.9 μg/L for freshwater and saltwater species, respectively. The risk of acute copper exposure in surface water was generally low; however, the potential for ecological risk from chronic copper exposure was low to high in several counties including Lee, Martin, and St. Lucie counties. The risk of acute copper exposure in porewater from freshwater sediments also was low with the exception of St. Lucie and Broward counties. However, porewater from saltwater sediments posed a significant acute risk in Miami-Dade and St. Lucie counties. In porewater from freshwater and saltwater sediments chronic risk was high in counties with sufficient data available to calculate risk estimates. A screening-level aquatic risk assessment was conducted for copper in south Florida's freshwater and saltwater environments. Risk was quantified by comparing the overlap between the probability distributions of copper exposure from surface water and sediment with the probability distributions of effects data obtained from laboratory studies. Copper concentrations in surface water and sediment in south Florida were summarized by county. For surface water, the highest concentrations of copper were found in Martin and St. Lucie counties for freshwater and saltwater, respectively. From the exposure probability distributions, the 90th centile values were estimated at 14.0 microg/L and 15.4 microg/L in freshwater and saltwater, respectively. Copper concentrations in sediment were evaluated from a probability distribution of predicted pore water concentrations. The 90th centile values of pore water concentrations from freshwater sediments ranged from 5.0 microg/L in Palm Beach County to 71.7 microg/L in Broward County. In saltwater sediments, the 90th centile values for pore water ranged from 26.1 microg/L in St. Lucie County to 27.3 microg/L in Miami-Dade County. Ecological effects data were obtained for acute and chronic copper effects in freshwater and saltwater. The 10th centile values for acute effects data were 21.2 microg/L and 9.8 microg/L for freshwater and saltwater species, respectively. For chronic effects, the 10th centile values were 3.8 microg/L and 3.9 microg/L for freshwater and saltwater species, respectively. The risk of acute copper exposure in surface water was generally low; however, the potential for ecological risk from chronic copper exposure was low to high in several counties including Lee, Martin, and St. Lucie counties. The risk of acute copper exposure in porewater from freshwater sediments also was low with the exception of St. Lucie and Broward counties. However, porewater from saltwater sediments posed a significant acute risk in Miami-Dade and St. Lucie counties. In porewater from freshwater and saltwater sediments chronic risk was high in counties with sufficient data available to calculate risk estimates. Aquatic risk of copper in freshwater and saltwater ecosystems of South Florida was assessed. Risk was quantified by comparing the overlap between the probability distributions of copper exposure from surface water and sediment with the probability distributions of effects data obtained from laboratory studies. The results showed that the potential acute risk to aquatic organisms from copper in surface freshwater was low. The acute risk was relatively high in surface saltwater in St. Lucie County. The highest potential chronic risk of copper exposure in surface freshwater was in Martin, St. Lucie, and Lee counties. The highest potential chronic risk of copper exposure in surface saltwater was in St. Lucie County, followed by Martin and Miami-Dade counties. Issue Title: Special issue on Ecotoxicology and Risk Issues in South Florida. Guest Editors: Gary M. Rand, Pamela M. Bachman and Emily C. Rogevich A screening-level aquatic risk assessment was conducted for copper in south Florida's freshwater and saltwater environments. Risk was quantified by comparing the overlap between the probability distributions of copper exposure from surface water and sediment with the probability distributions of effects data obtained from laboratory studies. Copper concentrations in surface water and sediment in south Florida were summarized by county. For surface water, the highest concentrations of copper were found in Martin and St. Lucie counties for freshwater and saltwater, respectively. From the exposure probability distributions, the 90th centile values were estimated at 14.0 μg/L and 15.4 μg/L in freshwater and saltwater, respectively. Copper concentrations in sediment were evaluated from a probability distribution of predicted pore water concentrations. The 90th centile values of pore water concentrations from freshwater sediments ranged from 5.0 μg/L in Palm Beach County to 71.7 μg/L in Broward County. In saltwater sediments, the 90th centile values for pore water ranged from 26.1 μg/L in St. Lucie County to 27.3 μg/L in Miami-Dade County. Ecological effects data were obtained for acute and chronic copper effects in freshwater and saltwater. The 10th centile values for acute effects data were 21.2 μg/L and 9.8 μg/L for freshwater and saltwater species, respectively. For chronic effects, the 10th centile values were 3.8 μg/L and 3.9 μg/L for freshwater and saltwater species, respectively. The risk of acute copper exposure in surface water was generally low; however, the potential for ecological risk from chronic copper exposure was low to high in several counties including Lee, Martin, and St. Lucie counties. The risk of acute copper exposure in porewater from freshwater sediments also was low with the exception of St. Lucie and Broward counties. However, porewater from saltwater sediments posed a significant acute risk in Miami-Dade and St. Lucie counties. In porewater from freshwater and saltwater sediments chronic risk was high in counties with sufficient data available to calculate risk estimates. Issue Title: Special issue on Ecotoxicology and Risk Issues in South Florida. Guest Editors: Gary M. Rand, Pamela M. Bachman and Emily C. Rogevich A screening-level aquatic risk assessment was conducted for copper in south Florida's freshwater and saltwater environments. Risk was quantified by comparing the overlap between the probability distributions of copper exposure from surface water and sediment with the probability distributions of effects data obtained from laboratory studies. Copper concentrations in surface water and sediment in south Florida were summarized by county. For surface water, the highest concentrations of copper were found in Martin and St. Lucie counties for freshwater and saltwater, respectively. From the exposure probability distributions, the 90th centile values were estimated at 14.0 μg/L and 15.4 μg/L in freshwater and saltwater, respectively. Copper concentrations in sediment were evaluated from a probability distribution of predicted pore water concentrations. The 90th centile values of pore water concentrations from freshwater sediments ranged from 5.0 μg/L in Palm Beach County to 71.7 μg/L in Broward County. In saltwater sediments, the 90th centile values for pore water ranged from 26.1 μg/L in St. Lucie County to 27.3 μg/L in Miami-Dade County. Ecological effects data were obtained for acute and chronic copper effects in freshwater and saltwater. The 10th centile values for acute effects data were 21.2 μg/L and 9.8 μg/L for freshwater and saltwater species, respectively. For chronic effects, the 10th centile values were 3.8 μg/L and 3.9 μg/L for freshwater and saltwater species, respectively. The risk of acute copper exposure in surface water was generally low; however, the potential for ecological risk from chronic copper exposure was low to high in several counties including Lee, Martin, and St. Lucie counties. The risk of acute copper exposure in porewater from freshwater sediments also was low with the exception of St. Lucie and Broward counties. However, porewater from saltwater sediments posed a significant acute risk in Miami-Dade and St. Lucie counties. In porewater from freshwater and saltwater sediments chronic risk was high in counties with sufficient data available to calculate risk estimates. [PUBLICATION ABSTRACT] |
| Author | Hoang, Tham C Schuler, Lance J Rand, Gary M |
| Author_xml | – sequence: 1 fullname: Schuler, Lance J – sequence: 2 fullname: Hoang, Tham C – sequence: 3 fullname: Rand, Gary M |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/18622698$$D View this record in MEDLINE/PubMed |
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| Copyright | Springer Science+Business Media, LLC 2008 |
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| IngestDate | Fri Oct 25 09:00:10 EDT 2024 Fri Oct 25 06:07:47 EDT 2024 Fri Oct 25 07:47:02 EDT 2024 Fri Oct 25 04:47:17 EDT 2024 Tue Nov 19 06:40:55 EST 2024 Thu Nov 21 21:27:38 EST 2024 Tue Oct 15 23:33:42 EDT 2024 Sat Dec 16 12:02:35 EST 2023 Wed Dec 27 19:16:48 EST 2023 |
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| Issue | 7 |
| Keywords | South Florida Probabilistic risk assessment Copper Aquatic risk assessment |
| Language | English |
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| PublicationCentury | 2000 |
| PublicationDate | 2008-10-01 |
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| PublicationTitle | Ecotoxicology (London) |
| PublicationTitleAbbrev | Ecotoxicology |
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| PublicationYear | 2008 |
| Publisher | Boston : Springer US Springer US Springer Nature B.V |
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| Snippet | A screening-level aquatic risk assessment was conducted for copper in south Florida's freshwater and saltwater environments. Risk was quantified by comparing... A screening-level aquatic risk assessment was conducted for copper in south Florida’s freshwater and saltwater environments. Risk was quantified by comparing... Issue Title: Special issue on Ecotoxicology and Risk Issues in South Florida. Guest Editors: Gary M. Rand, Pamela M. Bachman and Emily C. Rogevich A... Aquatic risk of copper in freshwater and saltwater ecosystems of South Florida was assessed. Risk was quantified by comparing the overlap between the... Issue Title: Special issue on Ecotoxicology and Risk Issues in South Florida. Guest Editors: Gary M. Rand, Pamela M. Bachman and Emily C. Rogevich |
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| SubjectTerms | Animals Aquatic ecosystems Brackish Copper Copper - analysis Copper - toxicity Earth and Environmental Science Ecological effects Ecology Ecosystem Ecotoxicology Environment Environmental Management Exposure Florida Fresh water Fresh Water - analysis Freshwater Geologic Sediments - chemistry Marine Marine environment Pore water Probability distribution Risk Assessment Saline water Seawater - analysis Sediments Surface water Water Pollutants, Chemical - analysis Water Pollutants, Chemical - toxicity |
| Title | Aquatic risk assessment of copper in freshwater and saltwater ecosystems of South Florida |
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