The document evaluates two assumptions related to the sea urchin fertilization assay toxicity test method. It compares using brine or dry salts for salinity adjustment of samples, and using natural or synthetic seawater as the dilution water. Experiments showed no significant difference in test results when using brine or dry salts for salinity adjustment. Tests using natural and synthetic seawater on industrial effluent samples also produced similar results. However, tests with a reference toxicant, copper sulfate, showed higher variability and greater sensitivity when using natural seawater as the dilution water.
The document summarizes a study that was conducted to determine sources of water pollution in Appiakrom community, Ghana. The study examined a dam, pond, and two boreholes used by the community. Laboratory analysis of water samples found that the dam, which supplies water to the district, had been polluted by anthropogenic activities. The rusty nature of one borehole was attributed to underground parent materials. The pond interfaced with the dam, and pollution could flow between the two sources. The authors recommend blocking channels between the pond and dam, and practicing zero-fertilizer farming near the dam to reduce pollution.
For awareness about treated water purity & quality – Toxicity free treated water for reuse
SCOPE : Toxicity free treated water @ all WWTP Operations, Reuse & Verification
We are facing treated water quality crisis. Treated non complains effluent discharge contaminated land and eco system. It is directly affected to our food production and human health and well being.
A healthier human future needs urgent action for smart sustained water reuse management. The one of the important management tool is ETV (Effluent Toxicity Verification) System
We are facing treated water quality crisis. Treated non complains effluent discharge contaminated land and eco system. It is directly affected to our food production and human health and well being.
A healthier human future needs urgent action for smart sustained water reuse management. The one of the important management tool is ETV (Effluent Toxicity Verification) System
We are facing treated water quality crisis. Treated non complains effluent discharge contaminated land and eco system. It is directly affected to our food production and human health and well being.
A healthier human future needs urgent action for smart sustained water reuse management. The one of the important management tool is ETV (Effluent Toxicity Verification) System
The document discusses fecal pollution in Puerto Rico's beaches. It notes that beaches are an important natural resource for tourism but many suffer from pollution that can harm swimmers' health. The pollution is often caused by human and animal waste from sewers, slaughterhouses, and broken pipes.
The study aims to determine the levels of E. coli bacteria at four Puerto Rican beaches - in Fajardo, Ocean Park, La Guancha, and Boquerón - through water sampling and analysis. It hopes to identify which beach has the lowest fecal pollution and inform the public about beach safety. Analysis will check for the presence of E. coli and enterococci bacteria over repeated samples to assess pollution levels.
Water quality can be assessed through various physical, chemical, and biological indicators. It depends on factors like geology, ecosystem, and human activities. Standards are set based on intended uses like drinking, industrial, or environmental. Water is sampled and tested using on-site or laboratory methods to monitor these indicators. Maintaining adequate water quality is important for public health and ecosystem protection.
The document describes a study that tested the combination of seaweed and activated sludge as a biofilter system for water treatment in fish rearing tanks. Key findings include:
1) The biofilter system was effective at reducing ammonia levels by up to 80% and nitrite by 20-60%.
2) It also significantly reduced water turbidity by 75-98% and total dissolved solids by 15-73%.
3) Seaweed was effective at increasing dissolved oxygen levels in the water up to 24%.
The results suggest that the combination biofilter system using seaweed and activated sludge improves water quality and is a viable treatment method for fish farming operations.
The document summarizes a study that was conducted to determine sources of water pollution in Appiakrom community, Ghana. The study examined a dam, pond, and two boreholes used by the community. Laboratory analysis of water samples found that the dam, which supplies water to the district, had been polluted by anthropogenic activities. The rusty nature of one borehole was attributed to underground parent materials. The pond interfaced with the dam, and pollution could flow between the two sources. The authors recommend blocking channels between the pond and dam, and practicing zero-fertilizer farming near the dam to reduce pollution.
For awareness about treated water purity & quality – Toxicity free treated water for reuse
SCOPE : Toxicity free treated water @ all WWTP Operations, Reuse & Verification
We are facing treated water quality crisis. Treated non complains effluent discharge contaminated land and eco system. It is directly affected to our food production and human health and well being.
A healthier human future needs urgent action for smart sustained water reuse management. The one of the important management tool is ETV (Effluent Toxicity Verification) System
We are facing treated water quality crisis. Treated non complains effluent discharge contaminated land and eco system. It is directly affected to our food production and human health and well being.
A healthier human future needs urgent action for smart sustained water reuse management. The one of the important management tool is ETV (Effluent Toxicity Verification) System
We are facing treated water quality crisis. Treated non complains effluent discharge contaminated land and eco system. It is directly affected to our food production and human health and well being.
A healthier human future needs urgent action for smart sustained water reuse management. The one of the important management tool is ETV (Effluent Toxicity Verification) System
The document discusses fecal pollution in Puerto Rico's beaches. It notes that beaches are an important natural resource for tourism but many suffer from pollution that can harm swimmers' health. The pollution is often caused by human and animal waste from sewers, slaughterhouses, and broken pipes.
The study aims to determine the levels of E. coli bacteria at four Puerto Rican beaches - in Fajardo, Ocean Park, La Guancha, and Boquerón - through water sampling and analysis. It hopes to identify which beach has the lowest fecal pollution and inform the public about beach safety. Analysis will check for the presence of E. coli and enterococci bacteria over repeated samples to assess pollution levels.
Water quality can be assessed through various physical, chemical, and biological indicators. It depends on factors like geology, ecosystem, and human activities. Standards are set based on intended uses like drinking, industrial, or environmental. Water is sampled and tested using on-site or laboratory methods to monitor these indicators. Maintaining adequate water quality is important for public health and ecosystem protection.
The document describes a study that tested the combination of seaweed and activated sludge as a biofilter system for water treatment in fish rearing tanks. Key findings include:
1) The biofilter system was effective at reducing ammonia levels by up to 80% and nitrite by 20-60%.
2) It also significantly reduced water turbidity by 75-98% and total dissolved solids by 15-73%.
3) Seaweed was effective at increasing dissolved oxygen levels in the water up to 24%.
The results suggest that the combination biofilter system using seaweed and activated sludge improves water quality and is a viable treatment method for fish farming operations.
Testing The Waters Water Quality Testing SessionDane George
This document discusses various water quality parameters that can be tested to understand water quality, including temperature, clarity, pH, dissolved oxygen, conductivity, total dissolved solids, nitrates and phosphorous, and sediments. It provides details on measuring and testing each parameter, what each indicates about water quality, and guidelines for acceptable levels. Equipment for testing includes YSI and Hach water quality monitoring probes and kits, as well as Secchi disks for measuring clarity.
This document discusses using the isotopic signatures of carbon and nitrogen in the tissues of blue mussels (Mytilus galloprovincialis) and seaweed (Ulva latuca) to assess the impact of sewage effluent discharge. Samples were collected before and after upgrades to wastewater treatment plants. Results found isotopic signatures in 2001 indicated enrichment from sewage at contaminated sites, but no significant differences in 2015 after treatment upgrades. This suggests upgrades successfully limited sewage impact. Future studies should further examine particulate organic matter sources in coastal ecosystems.
The document discusses the importance of testing well water for total coliform bacteria and E. coli, which can indicate contamination and pose health risks if consumed. It provides instructions for properly collecting and submitting water samples to be tested at the certified Brazos County Health Department laboratory. The results indicate whether bacteria are present, and if positive, the water should be disinfected by adding bleach and flushing all faucets before retesting. Additional resources for water testing and treatment are also listed.
Testing The Waters A Water Quality WorkshopDane George
This document provides an overview of a water quality workshop hosted by the Sierra Club of Canada Atlantic Chapter. The workshop covers topics including watersheds, water quality parameters, monitoring strategies, and quality assurance/control procedures. It aims to educate participants on testing water quality and monitoring their local water resources.
This document summarizes a research project that aims to determine the effects of ocean acidification due to climate change on the biodiversity of three tropical marine ecosystems: coral reefs, mangroves, and seagrasses. The project will create miniature versions of these ecosystems in tanks and expose them to different acidity levels in a laboratory setting. Biodiversity metrics will be measured to understand how acidification impacts each ecosystem. Findings will help inform conservation efforts.
Heavy Metals in organs and endoparasites of Oreochromisniloticus, Sediment an...iosrjce
IOSR Journal of Environmental Science, Toxicology and Food Technology (IOSR-JESTFT) multidisciplinary peer-reviewed Journal with reputable academics and experts as board member. IOSR-JESTFT is designed for the prompt publication of peer-reviewed articles in all areas of subject. The journal articles will be accessed freely online.
Handout prepared to the "Introduction to water and waste water management|.
Brief introduction about water and wastewater monitoring.
Contact: adnansirage@gmail.com
This project investigated using native Rio Grande cottonwood trees and zeolite to improve water quality in nearby urban streams and drains. Six test plots were established, with cottonwood trees planted in soil with or without added zeolite. Data on soil properties, plant health, weather, and water quality was collected. Initial results found the cottonwoods survived well and established baseline data on soil and plant conditions prior to irrigation testing.
HEAVY METALS OF LEAD (PB) ACCUMULATION IN SEAWEED (GRACILARIA SP) CULTIVATION...IAEME Publication
The activities of industrial waste disposal and disasters of Sidoarjo volcanic
mudflow into the river give a negative impact to the surrounding aquatic ecosystems.
But as a fishery center area, its activity depends on the aquatic ecosystem condition.
This study aimed to evaluate the levels of lead (Pb) in seaweed (Gracilaria sp.)
cultivation, sedimentation and water quality of seaweed aquaculture ponds around the
river estuary, the center of industrial waste disposal.. Sample collection of seaweed,
sediment and pond water were conducted using simple random sampling method.
Measurement of the lead (Pb) levels in seaweed, sediment, and pond water samples
used the Atomic Absorption Spectrophotometry (AAS) method. Based on the results of
this study, the concentration of lead metal levels in seaweed and sediment showed the
highest lead metal concentration values of 0.76 mg/kg and 0.58 mg/kg. However, the
concentration of heavy metals and water quality of pound water tended to be stable
with a value of <0.0764 mg / l. In conclusion, there was an increase in the lead metal
concentration in seaweed cultivation and sediment of pond water in normal water
quality conditions.
Rebecca Nelson and John Pade created the Aquaponics Journal 10 years ago and have provided a valuable service by advancing the aquaponics industry through their publication. To celebrate their achievement, the author compiled 10 important guidelines for aquaponic systems, including using a feeding rate ratio for design calculations, keeping feed input relatively constant, supplementing with calcium, potassium and iron, ensuring good aeration, removing solids, being careful with aggregates, oversizing pipes, using biological pest control, ensuring adequate biofiltration, and controlling pH.
Microbiological quality of drinking water Mirko Rossi
Lecture on microbiological quality methods for drinking water for the faculty of Veterinary Medicine, University of Helsinki; Course in Environmental Health
Bridgewater (2013) Muddy River BiodiversityAngeline Chen
This study investigates the relationship between microbial biodiversity and sediment contamination in two ponds within the Muddy River system. Willow Pond downstream is known to be contaminated with oil, pesticides and heavy metals, while Ward's Pond upstream has little contamination. Sediment samples from both ponds will be analyzed chemically and microscopically to quantify contaminant levels and compare microbial populations. Previous studies have found microbial indicators can assess water quality and ecosystem health in a simple, inexpensive way. The researchers hypothesize microbial diversity will be lower in Willow Pond's more contaminated sediments.
This document summarizes a study that examined the effect of two pesticides, diazinon and glyphosate, on the oxygen consumption of the box mussel Septifer bilocularis. Mussels were exposed to various sublethal concentrations of each pesticide and their oxygen consumption was monitored over time. Results showed that low concentrations tended to increase oxygen consumption, while higher concentrations decreased it. Specifically, concentrations of 6 and 30 ppm diazinon and 720 and 960 ppm glyphosate were found to have a statistically significant effect on reducing the mussels' oxygen consumption. The study provides insight into how these common pesticides may impact the physiology and energy requirements of non-target marine organisms.
Lecture note of Industrial Waste Treatment (Elective -III) as per syllabus of Solapur university for BE Civil
Prepared by
Prof S S Jahagirdar,
Associate Professor,
N K ORchid College of Engg and Tech,
Solapur
This patent discloses a waste treatment system that uses primary treatment, aeration of the waste in an equalization tank, and application of the waste to a rotating disk biological reactor. The rotating disk reactor contains a plurality of disks made of thin wedge-shaped elements that can be tightly packed for shipping but spaced apart when assembled, allowing biological slime to form on the surfaces. This arrangement improves on prior rotating disk reactors by making the disks easier and cheaper to transport and assemble.
Abideen Adeyinka Adekanmi, Adeniyi Sheriffdeen Adekanmi and Uthman Taiwo Adekanmi “Biotreatment of Slaughterhouse Waste Water by Microalgae” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 09, pp. 19-30, 2020. https://uijrt.com/articles/v1i9/UIJRTV1I90003.pdf
Quality assessment of some groundwater samples in ogbomosoAlexander Decker
The document summarizes a study that assessed the physico-chemical and microbiological quality of groundwater samples from 10 boreholes in Ogbomoso, Nigeria over a 5 month period. Key findings include:
- Several water quality parameters like total alkalinity, total hardness, BOD and COD exceeded permissible levels in some samples.
- Microbial analysis found all samples contaminated with heterotrophic bacteria and coliforms. Some also contained Salmonella-Shigella, staphylococci and molds/yeasts.
- Isolated bacteria exhibited multiple drug resistance.
- The study provides baseline data on underground water quality in Ogbomoso and suggests regular borehole cleaning
This document discusses research methodology and environmental sampling techniques. It covers topics such as operationalization, validity, sampling, sample handling, preservation and storage, selection of sample containers and sampling equipment. Specifically, it provides guidelines on determining sampling objectives, selecting relevant chemical and biological indicators, choosing appropriate sampling locations, equipment and containers, accurately recording and preserving samples, and reporting results. The document aims to help ensure samples are representative and that physical, chemical and biological changes are minimized prior to analysis.
Sulphate and Hardness_Elphick et al_ET&CGuy Gilron
This document presents the results of a study evaluating the chronic toxicity of sulfate in various aquatic organisms. A variety of test species, including invertebrates, fish, algae, moss, and an amphibian, were exposed to sulfate under different water hardness conditions. The results show that sulfate toxicity decreases with increasing water hardness. Based on these findings, the authors calculated water quality guidelines for sulfate separately for soft, moderately hard, and hard water. The guidelines ranged from 75 to 725 mg/L sulfate depending on the water hardness and calculation method. The study provides a robust dataset that can be used to establish scientifically defensible sulfate guidelines that account for the modifying effect of water hardness.
A preliminary study on the toxic potentials of shea butter effluent using Cla...IOSR Journals
This study was conducted purposely to evaluate the effects of shea butter effluent (SBE) on the
freshwater inhabitant using Clarias gariepinus as a biological model. A prominent Local factory of shea butter
at Tede, ATISBO Local Government was chosen because the effluent flows directly into a near-by stream that
ends up at a popular Dam in the Local Government on which more than 120,000 people depend for domestic
use.Static bioassay was conducted to determine the LC50 of shea butter effluent to Clarias gariepinus. Ten fishes
each were exposed to 0.05, 0.06, 0.07, 0.08, and 0.09ppt (lethal concentration) of SBE in separate water plastic
bowl of (40cmX29cmX28cm) of 60litres capacity.The lethal Concentration (LC50) value of SBE was 0.057ppt for
96hrs of exposure. Total mortality occurred in the concentrations of 0.08 and 0.09ppt within 24hours of
exposure period. Behavioural reactions exhibited by the fish include erratic movement, air gulping, loss of
reflex, molting, barbell deformation, hemorrhage, and excessive mucus secretion in fish exposed to higher
concentration of shea butter effluent.
The appreciable increase in the mean value of heavy metal, such as Manganese, Nickel, Cadmium,
Zinc, Copper and Lead revealed that the increase in the concentration of shea butter effluent leads to
bioaccumulation of the aforementioned heavy metals in the test organisms. The values for all the metals exceed
the permissible Criteria of the national and international regulatory body. Therefore, Shea butter effluent is
highly toxic to freshwater fishes, its discharged directly into water bodies, new fish farms or in areas close to
aquatic environment should not be encouraged.
Established the Environmental Monitoring Program Indicators to Prevent Diseas...CrimsonpublishersCJMI
Established the Environmental Monitoring Program Indicators to Prevent Disease Infection and Promote Sustainable Development by Yi-Che Shih in Cohesive Journal of Microbiology & Infectious Disease
Testing The Waters Water Quality Testing SessionDane George
This document discusses various water quality parameters that can be tested to understand water quality, including temperature, clarity, pH, dissolved oxygen, conductivity, total dissolved solids, nitrates and phosphorous, and sediments. It provides details on measuring and testing each parameter, what each indicates about water quality, and guidelines for acceptable levels. Equipment for testing includes YSI and Hach water quality monitoring probes and kits, as well as Secchi disks for measuring clarity.
This document discusses using the isotopic signatures of carbon and nitrogen in the tissues of blue mussels (Mytilus galloprovincialis) and seaweed (Ulva latuca) to assess the impact of sewage effluent discharge. Samples were collected before and after upgrades to wastewater treatment plants. Results found isotopic signatures in 2001 indicated enrichment from sewage at contaminated sites, but no significant differences in 2015 after treatment upgrades. This suggests upgrades successfully limited sewage impact. Future studies should further examine particulate organic matter sources in coastal ecosystems.
The document discusses the importance of testing well water for total coliform bacteria and E. coli, which can indicate contamination and pose health risks if consumed. It provides instructions for properly collecting and submitting water samples to be tested at the certified Brazos County Health Department laboratory. The results indicate whether bacteria are present, and if positive, the water should be disinfected by adding bleach and flushing all faucets before retesting. Additional resources for water testing and treatment are also listed.
Testing The Waters A Water Quality WorkshopDane George
This document provides an overview of a water quality workshop hosted by the Sierra Club of Canada Atlantic Chapter. The workshop covers topics including watersheds, water quality parameters, monitoring strategies, and quality assurance/control procedures. It aims to educate participants on testing water quality and monitoring their local water resources.
This document summarizes a research project that aims to determine the effects of ocean acidification due to climate change on the biodiversity of three tropical marine ecosystems: coral reefs, mangroves, and seagrasses. The project will create miniature versions of these ecosystems in tanks and expose them to different acidity levels in a laboratory setting. Biodiversity metrics will be measured to understand how acidification impacts each ecosystem. Findings will help inform conservation efforts.
Heavy Metals in organs and endoparasites of Oreochromisniloticus, Sediment an...iosrjce
IOSR Journal of Environmental Science, Toxicology and Food Technology (IOSR-JESTFT) multidisciplinary peer-reviewed Journal with reputable academics and experts as board member. IOSR-JESTFT is designed for the prompt publication of peer-reviewed articles in all areas of subject. The journal articles will be accessed freely online.
Handout prepared to the "Introduction to water and waste water management|.
Brief introduction about water and wastewater monitoring.
Contact: adnansirage@gmail.com
This project investigated using native Rio Grande cottonwood trees and zeolite to improve water quality in nearby urban streams and drains. Six test plots were established, with cottonwood trees planted in soil with or without added zeolite. Data on soil properties, plant health, weather, and water quality was collected. Initial results found the cottonwoods survived well and established baseline data on soil and plant conditions prior to irrigation testing.
HEAVY METALS OF LEAD (PB) ACCUMULATION IN SEAWEED (GRACILARIA SP) CULTIVATION...IAEME Publication
The activities of industrial waste disposal and disasters of Sidoarjo volcanic
mudflow into the river give a negative impact to the surrounding aquatic ecosystems.
But as a fishery center area, its activity depends on the aquatic ecosystem condition.
This study aimed to evaluate the levels of lead (Pb) in seaweed (Gracilaria sp.)
cultivation, sedimentation and water quality of seaweed aquaculture ponds around the
river estuary, the center of industrial waste disposal.. Sample collection of seaweed,
sediment and pond water were conducted using simple random sampling method.
Measurement of the lead (Pb) levels in seaweed, sediment, and pond water samples
used the Atomic Absorption Spectrophotometry (AAS) method. Based on the results of
this study, the concentration of lead metal levels in seaweed and sediment showed the
highest lead metal concentration values of 0.76 mg/kg and 0.58 mg/kg. However, the
concentration of heavy metals and water quality of pound water tended to be stable
with a value of <0.0764 mg / l. In conclusion, there was an increase in the lead metal
concentration in seaweed cultivation and sediment of pond water in normal water
quality conditions.
Rebecca Nelson and John Pade created the Aquaponics Journal 10 years ago and have provided a valuable service by advancing the aquaponics industry through their publication. To celebrate their achievement, the author compiled 10 important guidelines for aquaponic systems, including using a feeding rate ratio for design calculations, keeping feed input relatively constant, supplementing with calcium, potassium and iron, ensuring good aeration, removing solids, being careful with aggregates, oversizing pipes, using biological pest control, ensuring adequate biofiltration, and controlling pH.
Microbiological quality of drinking water Mirko Rossi
Lecture on microbiological quality methods for drinking water for the faculty of Veterinary Medicine, University of Helsinki; Course in Environmental Health
Bridgewater (2013) Muddy River BiodiversityAngeline Chen
This study investigates the relationship between microbial biodiversity and sediment contamination in two ponds within the Muddy River system. Willow Pond downstream is known to be contaminated with oil, pesticides and heavy metals, while Ward's Pond upstream has little contamination. Sediment samples from both ponds will be analyzed chemically and microscopically to quantify contaminant levels and compare microbial populations. Previous studies have found microbial indicators can assess water quality and ecosystem health in a simple, inexpensive way. The researchers hypothesize microbial diversity will be lower in Willow Pond's more contaminated sediments.
This document summarizes a study that examined the effect of two pesticides, diazinon and glyphosate, on the oxygen consumption of the box mussel Septifer bilocularis. Mussels were exposed to various sublethal concentrations of each pesticide and their oxygen consumption was monitored over time. Results showed that low concentrations tended to increase oxygen consumption, while higher concentrations decreased it. Specifically, concentrations of 6 and 30 ppm diazinon and 720 and 960 ppm glyphosate were found to have a statistically significant effect on reducing the mussels' oxygen consumption. The study provides insight into how these common pesticides may impact the physiology and energy requirements of non-target marine organisms.
Lecture note of Industrial Waste Treatment (Elective -III) as per syllabus of Solapur university for BE Civil
Prepared by
Prof S S Jahagirdar,
Associate Professor,
N K ORchid College of Engg and Tech,
Solapur
This patent discloses a waste treatment system that uses primary treatment, aeration of the waste in an equalization tank, and application of the waste to a rotating disk biological reactor. The rotating disk reactor contains a plurality of disks made of thin wedge-shaped elements that can be tightly packed for shipping but spaced apart when assembled, allowing biological slime to form on the surfaces. This arrangement improves on prior rotating disk reactors by making the disks easier and cheaper to transport and assemble.
Abideen Adeyinka Adekanmi, Adeniyi Sheriffdeen Adekanmi and Uthman Taiwo Adekanmi “Biotreatment of Slaughterhouse Waste Water by Microalgae” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 09, pp. 19-30, 2020. https://uijrt.com/articles/v1i9/UIJRTV1I90003.pdf
Quality assessment of some groundwater samples in ogbomosoAlexander Decker
The document summarizes a study that assessed the physico-chemical and microbiological quality of groundwater samples from 10 boreholes in Ogbomoso, Nigeria over a 5 month period. Key findings include:
- Several water quality parameters like total alkalinity, total hardness, BOD and COD exceeded permissible levels in some samples.
- Microbial analysis found all samples contaminated with heterotrophic bacteria and coliforms. Some also contained Salmonella-Shigella, staphylococci and molds/yeasts.
- Isolated bacteria exhibited multiple drug resistance.
- The study provides baseline data on underground water quality in Ogbomoso and suggests regular borehole cleaning
This document discusses research methodology and environmental sampling techniques. It covers topics such as operationalization, validity, sampling, sample handling, preservation and storage, selection of sample containers and sampling equipment. Specifically, it provides guidelines on determining sampling objectives, selecting relevant chemical and biological indicators, choosing appropriate sampling locations, equipment and containers, accurately recording and preserving samples, and reporting results. The document aims to help ensure samples are representative and that physical, chemical and biological changes are minimized prior to analysis.
Sulphate and Hardness_Elphick et al_ET&CGuy Gilron
This document presents the results of a study evaluating the chronic toxicity of sulfate in various aquatic organisms. A variety of test species, including invertebrates, fish, algae, moss, and an amphibian, were exposed to sulfate under different water hardness conditions. The results show that sulfate toxicity decreases with increasing water hardness. Based on these findings, the authors calculated water quality guidelines for sulfate separately for soft, moderately hard, and hard water. The guidelines ranged from 75 to 725 mg/L sulfate depending on the water hardness and calculation method. The study provides a robust dataset that can be used to establish scientifically defensible sulfate guidelines that account for the modifying effect of water hardness.
A preliminary study on the toxic potentials of shea butter effluent using Cla...IOSR Journals
This study was conducted purposely to evaluate the effects of shea butter effluent (SBE) on the
freshwater inhabitant using Clarias gariepinus as a biological model. A prominent Local factory of shea butter
at Tede, ATISBO Local Government was chosen because the effluent flows directly into a near-by stream that
ends up at a popular Dam in the Local Government on which more than 120,000 people depend for domestic
use.Static bioassay was conducted to determine the LC50 of shea butter effluent to Clarias gariepinus. Ten fishes
each were exposed to 0.05, 0.06, 0.07, 0.08, and 0.09ppt (lethal concentration) of SBE in separate water plastic
bowl of (40cmX29cmX28cm) of 60litres capacity.The lethal Concentration (LC50) value of SBE was 0.057ppt for
96hrs of exposure. Total mortality occurred in the concentrations of 0.08 and 0.09ppt within 24hours of
exposure period. Behavioural reactions exhibited by the fish include erratic movement, air gulping, loss of
reflex, molting, barbell deformation, hemorrhage, and excessive mucus secretion in fish exposed to higher
concentration of shea butter effluent.
The appreciable increase in the mean value of heavy metal, such as Manganese, Nickel, Cadmium,
Zinc, Copper and Lead revealed that the increase in the concentration of shea butter effluent leads to
bioaccumulation of the aforementioned heavy metals in the test organisms. The values for all the metals exceed
the permissible Criteria of the national and international regulatory body. Therefore, Shea butter effluent is
highly toxic to freshwater fishes, its discharged directly into water bodies, new fish farms or in areas close to
aquatic environment should not be encouraged.
Established the Environmental Monitoring Program Indicators to Prevent Diseas...CrimsonpublishersCJMI
Established the Environmental Monitoring Program Indicators to Prevent Disease Infection and Promote Sustainable Development by Yi-Che Shih in Cohesive Journal of Microbiology & Infectious Disease
The document discusses fecal pollution in Puerto Rico's beaches. It notes that beaches are an important natural and economic resource but many suffer from pollution that can harm human health. The main cause of pollution is fecal waste from humans and animals.
The study aims to determine the levels of E. coli bacteria at four beaches - in Fajardo, Ocean Park, La Guancha, and Boquerón - to identify which has the least pollution. Water samples will be taken twice a week for a month and tested for E. coli using a chromogenic substrate method.
The goal is to inform the public about beach water safety and encourage the government to implement better waste water controls and filtration to prevent pollution and
The document discusses fecal pollution in Puerto Rico's beaches. It notes that beaches are an important natural and economic resource but many suffer from pollution that can harm human health. The main cause of pollution is fecal waste from humans and animals.
The study aims to determine the levels of E. coli bacteria at four beaches - in Fajardo, Ocean Park, La Guancha, and Boquerón - through monthly water sampling and analysis. This will identify which beaches have less fecal pollution and allow authorities to inform the public about beach safety. The results could lead to closing polluted beaches to protect public health.
This document discusses various biological methods for assessing the quality of industrial effluents, including their advantages and limitations. It identifies common toxicity tests that use organisms like algae, microcrustaceans, fish, and bacteria to test the acute and chronic effects of effluents. The tests are standardized but no one test is best - a set of tests is recommended to understand effluent impacts. While standardized organisms are common, native species may also be used. The methods allow preventative evaluation of environmental impacts from effluents.
Water quality refers to the physical, chemical, and biological characteristics of water relative to its intended uses. It is assessed using standards related to ecosystem health, human contact, and drinking water. Water quality depends on local geology, ecosystems, and human activities like pollution. Parameters vary based on intended uses like drinking, industry, or environmental uses. Maintaining appropriate water quality involves understanding water systems, identifying contaminants, and regulating pollution through legislation.
Water quality refers to the chemical, physical, and biological characteristics of water. It is determined by measuring various parameters and comparing them to standards for different intended uses like drinking water, recreation, agriculture, and ecosystem health. Assessing water quality involves understanding natural and human factors that can influence contaminant levels. Monitoring programs and technologies help evaluate water quality over time and inform policies to protect water resources and public health.
Biosecurity measures in shrimp farming:-
- Biosecurity measures at the time of stocking
- Biosecurity measures at the initial time of culture period
- Biosecurity measures during mid culture period
- Biosecurity measures at the end of culture period
Calidad del agua para agricultura fao 29-ayers y westcot 1985-okiPIEDRON
This document provides guidelines for evaluating water quality for agricultural irrigation. It discusses four main water quality problems: salinity, infiltration rate, toxicity, and miscellaneous other issues. For each problem, the document describes guidelines for interpreting water quality data, potential impacts on crops, and management options. It provides water quality guidelines in tables and discusses experiences using various water qualities from different locations worldwide.
In order to assessing whether algae can reduce the pollution concentration of the effluents by
absorbing the nutrients, it is found that effluents can effectively be treated by employing algal organisisms such
as Oscillatoria and Stigeoclonium species and these organisms are frequently found in the polluted waters and
they were recorded as pollution tolerant forms. In the laboratory procedures out of the several media tested
Modified CHU No. 10 medium was found to be quite suitable for both the test organisms. It was found that up to
87% and 85% of phosphate uptake was achieved by Oscillatoria and Stigeoclonium respectively with 13% and
16% increase of D.O. in the effluents by the tenth day. In case of organic matter Oscillatoria removed 73% and
Stigeoclonium 70% up to tenth day
The acute toxicity of oily drill cuttings against the littoral mangrove periwinkle (T. fuscutas) of the Lagos Lagoon was evaluated in the laboratory bioassay. In this study, the result showed that the acute toxicity of oily drill cuttings based on immobility response of Tympanotonus fuscatus increased with time of exposure. The concentration that caused 50% immobility in the organisms at 24hrs, 48hrs, 72hrs and 96hrs were 3808.80ml/L 660.89ml/L, 302.28ml/L and 102.43ml/L respectively. The median lethal concentration of drill cuttings against T. fuscatcus decreased as the duration of exposure increased. The analysis of variance (ANONA) showed that there was significant difference (p< 0.05) between all the treatments at 24, 48, 72 and 96 hours of exposure. The significance of these result is the need to include bio accumulators such as T.fuscatus in monitoring programmes aimed at establishing the environmental level of such pollutant as oily drill cuttings in aquatic ecosystem.
This document summarizes a study on the physico-chemical parameters and diatom populations in two freshwater ponds in Tamil Nadu, India. Water quality parameters like pH, temperature, dissolved oxygen, carbon dioxide, and salinity were measured monthly at both a natural pond and a culture pond to understand how these factors influence diatom communities. Diatom samples were collected and processed using hydrogen peroxide to isolate the silica frustules for identification. The study aims to provide baseline data on the aquatic ecosystem balance in these ponds and support future research.
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1. 804
Environmental Toxicology and Chemistry, Vol. 20, No. 4, pp. 804–809, 2001
᭧ 2001 SETAC
Printed in the USA
0730-7268/01 $9.00 ϩ .00
SEA URCHIN FERTILIZATION ASSAY: AN EVALUATION OF ASSUMPTIONS
RELATED TO SAMPLE SALINITY ADJUSTMENT AND USE OF NATURAL AND
SYNTHETIC MARINE WATERS FOR TESTING
EMILIA JONCZYK,† GUY GILRON,*‡ and BARRY ZAJDLIK§
†BEAK International, 14 Abacus Road, Brampton, Ontario L6T 5B7, Canada
‡ESG International, 361 Southgate Drive, Guelph, Ontario N1G 3M5, Canada
§B. Zajdlik & Associates, R.R. 3, Rockwood, Ontario N0B 2K0, Canada
(Received 15 February 2000; Accepted 2 August 2000)
Abstract—Most industrial effluents discharged into the marine coastal environment are freshwater in nature and therefore require
manipulation prior to testing with marine organisms. The sea urchin fertilization test is a common marine bioassay used for routine
environmental monitoring, investigative evaluations, and/or regulatory testing of effluents and sediment pore waters. The existing
Canadian and U.S. Environmental Protection Agencies test procedures using sea urchin (and sand dollar) gametes allow for sample
salinity adjustment using either brine or dry salts. Moreover, these procedures also allow for the use of either natural or synthetic
marine water for culturing/holding test organisms and for full-scale testing. At present, it is unclear to what extent these variables
affect test results for whole effluents. The test methods simply state that there are no data available and that the use of artificial
dry sea salts should be considered provisional. We conducted a series of concurrent experiments aimed at comparing the two
different treatments of sample salinity adjustment and the use of natural versus synthetic seawater in order to test these assumptions
and evaluate effects on the estimated end points generated by the sea urchin fertilization sublethal toxicity test. Results from these
experiments indicated that there is no significant difference in test end points when dry salts or brine are used for sample salinity
adjustment. Similarly, results obtained from parallel (split-sample) industrial effluent tests with natural and artificial seawater suggest
that both dilution waters produce similar test results. However, data obtained from concurrent tests with the reference toxicant,
copper sulfate, showed higher variability and greater sensitivity when using natural seawater as control/dilution water.
Keywords—Salinity Toxicity Sea urchin fertilization assay Artificial seawater Natural seawater
INTRODUCTION
The sea urchin fertilization (or sperm cell) toxicity test has
been used to evaluate whole effluent, sediment pore water, and
receiving water quality for over 15 years in numerous marine
environments worldwide [1–8]. More recently, the test has
been included in test batteries evaluating effects on marine
invertebrates [9,10] and toxicity identification evaluation [11–
13] and is being considered in a test battery for assessing the
toxicity of dredged materials prior to ocean disposal by En-
vironment Canada [14].
Industrial effluents discharged into the marine environment,
such as pulp and paper mill and metal mining effluents, are
usually freshwater in nature. Sublethal toxicity testing of ef-
fluents with marine organisms (e.g., sea urchins, mysid shrimp,
and inland silversides) therefore requires adjustment to the
salinity of the receiving environment in order to be used in
testing [15]. When salinity adjustment is required, options in
existing marine toxicity test methods are available. These are
addition of hypersaline brine or addition of commercially
available dry salts. Also, either natural or synthetic seawater
can be used as control/dilution water in the sea urchin fertil-
ization test.
Existing standard testing procedures for the sea urchin fer-
tilization test [16,(http://www.pyr.ec.gc.ca/ep/enforcement/),17]
allow for the use of either brine (synthetic or derived from
natural seawater) or dry salts (synthetic formulation of ana-
lytical-grade chemicals or prepared from the evaporation of
* To whom correspondence may be addressed
(ggilron@yahoo.com).
natural marine water) for sample salinity adjustment. Also, the
testing procedures currently allow the use of either natural or
synthetic marine water for culturing and holding test organisms
and for full-scale toxicity testing. The U.S. Environmental
Protection Agency test procedures simply state, ‘‘No data from
sea urchin or sand dollar fertilization tests using sea salts or
artificial seawater are available for evaluation at this time, and
their use should be considered provisional’’ [18]. Since test
methods and techniques conducted for regulatory purposes
must be standardized for all laboratories regardless of their
geographical location for valid comparison of results, it is
important to discover whether the two methods for salinity
adjustment and dilution water use (synthetic or natural sea-
water) will produce comparable test results.
One assumption is that hypersaline brine prepared from dry
salts or natural seawater and the natural water collected from
a clean (uncontaminated) area are adequate for culturing sea
urchins and testing their gametes. A number of advantages and
disadvantages exist for using brine for salinity adjustment or
natural seawater as dilution water. First, brine can be stored
for prolonged periods without compromising seawater integ-
rity. Moreover, brine and natural seawater can contain natural
microelements (e.g., bromine and iodine) required to sustain
healthy organism growth and development. Also, preparation
of brine is cost-effective where seawater is readily available
(laboratories located in coastal regions). Finally, seawater from
the coastal environments in question provides the added ad-
vantage of ecological relevance (the natural seawater used in
the test is from the receiving environment into which the ef-
fluent is discharged).
2. Sea urchin fertilization test evaluation Environ. Toxicol. Chem. 20, 2001 805
A number of disadvantages exist as well for using brine.
For example, the highest exposure concentration can be a max-
imum of only 70%. Moreover, if brine from seawater is used
to adjust salinity, as well as natural seawater used as dilution
water, shipping costs are higher for inland testing laboratories.
In addition, the quality of natural seawater and the brine is
naturally variable over time, and the potential exists for the
occurrence of natural pathogens and predators in the seawater.
These latter two factors could significantly confound test data.
Finally, the potential exists for chemical or biological contam-
ination during the brine preparation process.
An alternative to using brine that obviates some of these
problems is using dry salts dissolved in an effluent sample
used to adjust salinity or dissolved in deionized water. This
assumes that synthetic seawater is adequate for culturing sea
urchins and toxicity testing using their gametes. Using dry
salts for culturing or salinity adjustment is an advantage be-
cause it is possible to test full-strength effluents with dry salts,
dry salts are commercially available with a broad selection of
brand names (e.g., Forty Fathoms, Marine Enterprises, Bal-
timore, MD, USA, and Instant Ocean, Aquatium Systems,
Mentor, OH, USA), and testing is possible regardless of geo-
graphical location (inland laboratories can conduct testing as
easily as coastal laboratories). Moreover, synthetic water is
standardized, and therefore the possibility of environmental
contamination is diminished. Using synthetic seawater is a
disadvantage because conditioning and monitoring of the water
is required when using dry salts, synergistic effects of dry salts
with potential toxicants in effluents are not well understood
and often are unknown, and the effects may not be reflective
of the receiving environment. The current assumption is that
synthetic marine water will not confound test data. However,
this assumption has, to our knowledge, been tested only with
reference toxicants [19].
This study used an experimental approach that was under-
taken in two phases. Phase 1 investigated the sample salinity
adjustment techniques on the sea urchin fertilization test and
was carried out between 1994 and 1996. This phase tested the
hypothesis that there is no difference in results obtained from
sea urchin fertilization tests for samples salinity-adjusted using
hypersaline brine or dry salts. Phase 2 evaluated the effect of
natural versus synthetic control/dilution water on the sea ur-
chin test and was performed between 1997 and 1998. This
phase tested the hypothesis that there is no difference in sea
urchin fertilization test results conducted with either natural
or synthetic seawater as dilution water.
MATERIALS AND METHODS
Test species
The test species used in this study was the white sea urchin,
Lytechinus pictus. Organisms used in testing were obtained
from a supplier of laboratory organisms (Marinus, Long
Beach, CA, USA). The sea urchins were held in marine aquaria
and fed a diet of romaine lettuce, with an occasional supple-
ment of fish tissue.
Test methods
The biological test method used in the study was the En-
vironment Canada method [16]. This test method offers a num-
ber of test design options. The test design option used in the
study was as follows: 20 min total testing time (10-min sperm
exposure and 10-min exposure of eggs and sperm), followed
by a subsequent addition of fixative. The following briefly
describes the test conditions and procedures. Sea urchins were
injected with 0.5 ml of 0.5 M KCl solution and transferred
onto small Petri dishes. Once spawning occurred and the sex
of the organisms was determined, males were inverted dorsal
side down and allowed to dry spawn. Females were transferred
to small borosilicate beakers (which were rinsed with filtered
seawater prior to use) containing 50 ml of filtered seawater.
Organisms were allowed to spawn for up to a maximum of
10 min, during which time careful observations were made
pertaining to the amount of released gametes, their color, and
the overall behavior of the spawners. Organisms providing
relatively little or dilute gametes were excluded from testing.
Gametes obtained from at least three individuals of each sex
were combined and their densities determined. Densities of
gametes were determined microscopically, using a Sedgewick–
Rafter chamber (Wildlife Supply Company, Saginaw, MI,
USA) and a hemocytometer for eggs and sperm, respectively.
At the beginning of the study, the pretrial testing was con-
ducted in order to determine the sperm-to-egg ratio. Fertiliza-
tion rates between 70 and 98% were achieved. Later, during
the testing phase, we established that to achieve that percentage
fertilization, the usual ratio of sperm to eggs was 20,000 to 1,
respectively. After pretrial testing, definitive parallel tests were
conducted using samples with synthetic or natural seawater as
control and dilution water. Testing was performed at 20 Ϯ 1ЊC
under ambient laboratory light (approx. 200–400 lux). One
hundred milliliters of each test concentration were prepared
and homogenized, then 10 ml were transferred to each of four
replicates, leaving 60 ml for physical/chemical monitoring
(temperature, salinity, pH, and dissolved oxygen). Clean, new
borosilicate scintillation vials were used as test vessels. Once
test solutions were prepared and monitored, gamete densities
were established, and appropriate dilution of eggs and sperm
was made, testing was initiated. Initially, sperm were added
to each test vessel and exposed for a duration of 10 min.
Subsequently, approx. 2,000 eggs were transferred to each test
vessel in a carefully timed procedure matching the addition of
sperm. While eggs were added, the test vessels were swirled
in order to facilitate fertilization. Gametes were exposed for
an additional 10 min before the test was completed by the
addition of 10% buffered formalin to each vessel to terminate
the fertilization process and to preserve samples. Subsequent
to preservation, a subsample containing at least 100 eggs was
removed from each vessel and examined microscopically using
a Sedgewick–Rafter chamber to enumerate fertilized and un-
fertilized eggs, and from this ratio, percentage fertilization was
determined. All samples were scored within 3 to 7 d of testing.
Sample salinity adjustment
Synthetic brine was prepared by dissolving dry salts (In-
stant Ocean) in deionized water (30 g of salt in 1 L of deionized
water) to obtain a salinity of 30 Ϯ 2 ppt. When synthetic brine
in liquid form (salinity range ϭ 90–160 ppt) was used as a
source, the brine was aged (conditioned) for a period of 3 to
7 d, stored in darkness at 4ЊC, and used to dilute the sample
to adjust salinity to the required level. When dry salts (Instant
Ocean) in the crystalline form were used as a source, they
were dissolved in the 100% effluent sample to achieve a spe-
cific salinity, allowed to condition for a minimum of 4 h (max-
imum of 12 h), and stored in darkness at 4ЊC. The conditioning
period was required in order to stabilize and equilibrate the
pH of the solutions.
3. 806 Environ. Toxicol. Chem. 20, 2001 E. Jonczyk et al.
Table 1. Results of sea urchin fertilization toxicity tests using
industrial effluents; salinity adjustment with brine and dry salts
(expressed as % effluent)
Mill
effluent
Brine
IC25a
Salts
IC25
Brine
IC50b
Salts
IC50
1
2
3
4
5
6
7
8
9
10
47.1
0.43
59.6
5.6
1.11
9.5
66.4
7.27
6.38
10.3
63
0.72
39.4
5.04
1.11
9.84
59.9
7.56
3.71
7.98
63.7
0.85
Ͼ67
7.73
1.61
12.5
Ͼ72
9.5
7.85
13.8
80.7
1.12
60.7
8.05
2.25
14.2
77.2
9.84
7.08
10.5
11
12
13
14
15
16
17
18
19
20
1.17
19.5
53
14.6
8.5
5.6
7.5
4.93
68.8
7.5
2.11
30.1
53.6
15.1
8.21
3.9
8.9
0.85
96.3
8.9
1.81
39.3
65.4
11.7
11.4
7.9
11.3
6.55
Ͼ90.1
11.3
2.65
44.5
69.2
18.6
10.8
5.9
12
1.35
Ͼ100
12
a Inhibiting concentration 25%.
b Inhibiting concentration 50%.
Dilution water preparation
During the first phase of testing, only synthetic seawater
water with a salinity of 30 Ϯ 2 ppt (obtained by dissolving
commercially available dry salts in deionized water) was used.
The synthetic water was conditioned for a week with vigorous
aeration and then filtered using a Whatman prefilter (Whatman,
Clifton, NJ, USA; ϳ1-m pore size) prior to use.
During the second phase of testing, two types of seawater
were used: natural and synthetic. Synthetic water was prepared
by diluting 90-ppt synthetic brine (as described previously)
with deionized water to obtain 30 Ϯ 2 ppt salinity. Natural
seawater was obtained from two sources: Atlantic Ocean sea-
water was supplied by the Environment Canada toxicology
laboratory (Moncton, NB, Canada), and Pacific Ocean sea-
water was provided by the Bamfield Marine Station (Bamfield,
BC, Canada). All control/dilution water was filtered prior to
use and vigorously aerated to achieve dissolved oxygen levels
of 90 to 100% saturation.
Test media and experimental design
Two different test media were used to determine the effects
of adjusting the salinity of effluents and when using natural
versus synthetic seawater. Various industrial effluent samples
were tested, including pulp and paper mill effluents and mining
effluents. Each effluent sample was tested once for each treat-
ment (no replication). A minimum of five and a maximum of
10 test concentrations, a control, and a control with brine,
where appropriate, were tested in quadruplicate. The test con-
centrations were established using a 0.5 dilution of the highest
effluent concentration (100% effluent) with synthetic brine
added. Therefore, less than 100% effluent was tested because
of the addition of brine for salinity adjustment (e.g., when 60
ml of brine was added to 200 ml of freshwater effluent, this
resulted in a highest test concentration of 70%).
In addition to whole industrial effluents, the common ref-
erence toxicant copper sulfate was also tested. A copper stock
solution of 1,000 mg/L of copper was prepared by dissolving
4.4 g of CuSO4·7H2O in 1 L of deionized water. Then, 100
mg/L copper (working stock) solution were prepared by di-
luting 10 ml of the original copper stock (1,000 mg/L) with
90 ml of filtered seawater. Moreover, reference toxicant test
concentrations were prepared by pipetting 1.6 ml of working
stock and diluting it with 198.4 ml of filtered seawater in order
to obtain the highest test concentration (800 g/L). This high-
est test concentration was diluted by a factor of 0.5 with filtered
seawater until the lowest test concentration was achieved. The
copper test concentrations diluted with synthetic seawater were
always the same and ranged from 25 to 800 g/L, while the
copper concentrations prepared with natural (east coast or west
coast) seawater ranged from 0.39 to 800 g/L.
Quality assurance/quality control
In order to reduce any variability among test media, a num-
ber of quality assurance/quality control measures were imple-
mented throughout the study. With regard to test media, the
same effluent sample was tested for each pairwise set of treat-
ments. For test organism quality assurance/quality control, the
same genetic pool of gametes was used, and all tests were
performed using the same sperm-to-egg ratio established in
the pretrial experiments. Furthermore, the same technician
conducted all tests, and the same technician estimated fertil-
ization rate in each side-by-side testing series.
Statistical analyses
The percentage fertilization of sea urchin gametes was com-
pared using samples adjusted with dry salts or brine. Twenty
industrial effluent samples were evaluated in the analysis. The
IC25 and IC50 end points (calculated using linear interpolation
[20]) were compared using the Wilcoxon signed rank test. The
ICp end point is defined as the inhibiting concentration for a
specified percentage effect. It represents a point estimate of
the concentration of test substance that would cause the des-
ignated percent impairment in a biological function, in this
case, fertilization rate.16 In the second phase of the study, the
percentage fertilization of sea urchin gametes using artificial
and natural seawater was compared. Nineteen industrial efflu-
ent samples and eight reference toxicant samples were eval-
uated. The IC25s and IC50s were compared as in the previous
experiment. Using the entire dose response among the treat-
ments, pairwise comparisons of slopes and intercepts, esti-
mated from the dose–response curves, were made under the
assumption of asymptotic normality. This has the advantage
of using the data set in its entirety and obviates the problems
inherent to point estimates [21]. The parameters were esti-
mated using generalized linear models (binomial family and
logit link) for each of the three groups of data (reference tox-
icant, salinity adjustment, and test media).
RESULTS AND DISCUSSION
Analysis of test end-point data
Hypersaline brine versus dry salts comparison. The results
of IC25 and IC50 calculated end points from sea urchin fer-
tilization tests run concurrently on the same effluent are pro-
vided in Table 1. A qualitative comparison of the IC25 and
IC50 end points indicates some substantial differences between
some of the generated values (e.g., effluent 1 [IC25 ϭ 47 vs
63%] or effluent 19 [IC25 ϭ 69 vs 96%] for brine and dry
salts, respectively). However, a Wilcoxon signed rank test on
the paired end points (20 pairs of IC25 data and 20 pairs of
4. Sea urchin fertilization test evaluation Environ. Toxicol. Chem. 20, 2001 807
Table 2. Results of sea urchin fertilization toxicity tests using
industrial effluents; synthetic versus natural seawater as dilution water
(expressed as % effluent)
Mill
effluent
Synthetic
IC25a
Natural
IC25
Synthetic
IC50b
Natural
IC50
1
2
3
4
5
6
7
8
9
10
44.8
23.2
58.7
43.9
0.67
0.42
45
12.1
Ͼ72
20.8
Ͼ70
15.4
Ͼ73
37.4
0.62
0.14
36.4
9.8
Ͼ72
14.9
56
39.1
Ͼ73
55.2
1.05
0.73
56
15.6
Ͼ72
36
Ͼ70
28.1
Ͼ73
52
1.32
0.28
54.4
13.5
Ͼ72
28.3
11
12
13
14
15
16
17
18
19
3
6
17.1
Ͼ67
4.4
4.3
28.7
16.8
4.5
2.4
1.7
14.9
Ͼ67
1.9
1.4
38.7
23.2
1.7
4.1
8
30.1
Ͼ67
6.5
2.4
42.6
28.2
6.7
3.9
4.1
28.3
Ͼ67
3.9
4.9
48.9
29.7
3.6
a Inhibiting concentration 25%.
b Inhibiting concentration 50%.
Table 3. Results of sea urchin fertilization toxicity tests using the
reference toxicant copper sulfate; synthetic versus natural seawater as
dilution water (expressed as g/L Cu)a
Reference
toxicant
experiment
Synthetic
IC25b
Natural
IC25
Synthetic
IC50c
Natural
IC50
1
2
3
4
5
6
7
8
94.9
58.9
206
72.6
72.1
119
96
166
10.8
29.4
148.1
14.3
14.5
33.1
85.1
169
180
90.9
277
120
122
152
135
249
33.4
51.8
243
20.8
20.9
55.7
126
Ͼ200
a Tests 1 to 5 performed using east coast natural seawater; tests 6 to
8 performed using west coast natural seawater.
b Inhibiting concentration 25%.
c Inhibiting concentration 50%.
Table 4. Summary of analyses conducted using the Wilcoxon signed
rank testa
Comparison Test statistic p value
Industrial IC25b
Industrial IC50c
Reference toxicant IC25
Reference toxicant IC50
All data IC25
All data IC50
1.9315
1.664
2.3805
2.3664
3.111
3.0417
0.0534
0.0961
0.0173 A
0.018 A
0.0019 A
0.0024 A
a Tests significant at the ␣ ϭ 0.05 level share the same uppercase
letter.
b Inhibiting concentration 25%.
c Inhibiting concentration 50%.
IC50 data) showed no significant differences for either end
point (IC25: Z ϭ Ϫ0.2614, p ϭ 0.7938; IC50: Z ϭ Ϫ1.5121,
p ϭ 0.1305).
Based on the statistical evaluation of paired comparison
testing using brine and dry salts for sample salinity adjustment,
both yield similar test results using the sea urchin fertilization
assay when tested with industrial effluents. Therefore, it is our
view that the dry salts method should be used for adjusting
salinity in these tests. This way, samples can be tested at full
strength (100% effluent) rather than diluted with hypersaline
brine solution, where the highest concentration can be only
70%. This approach would be particularly useful for evaluating
samples of low toxicity, where the reporting of ‘‘greater than’’
values (e.g., Ͼ70%) can be eliminated.
Natural seawater versus synthetic seawater comparison:
Effluents. The results of IC25 and IC50 calculated end points
from sea urchin fertilization tests run concurrently on the same
effluent are provided in Table 2. Similar to the previously
mentioned qualitative analysis, there were also samples in this
data set that showed differences between test results (e.g.,
effluents 1 and 17). Quantitatively over the whole data set, a
comparison of 19 paired observations yielded no significant
differences for both end points, based on the Wilcoxon signed
rank test (IC25: Z ϭ 1.9315, p ϭ 0.0534; IC50: Z ϭ 1.664,
p ϭ 0.0961) (Table 2).
Overall, based on the evaluation of paired comparison test-
ing using natural and synthetic seawater as control and dilution
water, similar test results were obtained using the sea urchin
fertilization assay when tested with industrial effluents. There-
fore, synthetic seawater, prepared from dry salts, can be sat-
isfactorily used for control/dilution water in these tests. An
important implication for this conclusion is that laboratories
do not require access to natural seawater in order to conduct
this test.
Natural seawater versus synthetic seawater comparison:
Reference toxicant. The results from tests using the reference
toxicant, copper sulfate, are provided in Table 3. Qualitatively,
the majority of results would lead one to conclude that sig-
nificant differences between results exist. This is verified by
the significant differences observed in both end points (IC25
and IC50), based on the Wilcoxon signed rank tests (IC25: Z
ϭ 2.3805, p ϭ 0.0173; IC50: Z ϭ 2.3664, p ϭ 0.018) (Table
4).
When pooling all effluent and reference toxicant data, the
paired comparisons also yield significant differences between
IC25 or IC50s (IC25: Z ϭ 3.111, p ϭ 0.0019, IC50: Z ϭ
3.0417, p ϭ 0.0024). It is apparent that the differences ob-
served in the pooled data set are due mainly to differences
detected in the reference toxicant comparison (Table 4).
Based on the evaluation of dilution water types using a
reference toxicant (copper sulfate), there was a significant dif-
ference among treatments. In other words, tests results are
highly variable for copper sulfate, using the two different di-
lution water types. Analyses of the test end points (IC25 and
IC50) generated using reference toxicant data indicate that
fertilization rates are significantly higher when using artificial
water for dilution rather than natural seawater. This conclusion
is the same when the entire dose response is analyzed. In order
to better understand these results, reference toxicant data for
copper sulfate using natural seawater as control/dilution water
were obtained from Environment Canada (Atlantic Region;
Moncton, NB) for comparison to our laboratory data. Our
laboratory’s reference toxicant data with copper sulfate, using
synthetic seawater as dilution water, yielded IC50s ranging
between 206 and 327 g/L as copper, with a coefficient of
variation of 28%. In comparison, the Environment Canada
laboratory’s data with the same reference toxicant, but using
natural seawater as dilution water, yielded IC50s ranging be-
5. 808 Environ. Toxicol. Chem. 20, 2001 E. Jonczyk et al.
Table 5. Summary of analyses of generalized linear model parametersa
Comparison Parameter
Mean value of parameter
Naturalb Syntheticc
Test
statistic
Degrees
of
freedom p value
Salinity adjustment
Test media
Reference toxicant
Intercepts
Slopes
Intercepts
Slopes
Intercepts
Slopes
2.807131
Ϫ0.3516381
2.084383
Ϫ0.2771331
2.364742
Ϫ0.05030137
2.540522
Ϫ0.2599838
2.829844
Ϫ0.2901326
3.351008
Ϫ0.02357855
1.4403
Ϫ1.8563
Ϫ2.3225
0.391
Ϫ2.0029
Ϫ1.7333
19
19
18
18
7
7
0.1661
0.709
0.0321 A
0.7004
0.0852
0.1266
a Tests significant at the ␣ ϭ 0.05 level share the same uppercase letter.
b Salinity adjustment is made using concentrated brine solution.
c Salinity adjustment is made using dry salts.
tween 53.9 and 317 g/L as copper, with a coefficient of var-
iation of 40%. This comparison indicates that copper yields a
higher variability of response in natural seawater as compared
to synthetic seawater. A further comparison between reference
toxicant and effluent responses is required in order to under-
stand the differences in these results. Originally, copper sulfate
was chosen as the reference toxicant in this study because an
adequate database was available for comparison. However, as
copper toxicity is both pH and hardness dependent, its appli-
cation as a reference toxicant in this study was not appropriate.
Moreover, in light of the variability observed in the results of
this test with copper sulfate and its predisposition to precipitate
at high concentrations when combined with seawater, we do
not believe that it is an ideal standard reference toxicant for
this test. Currently, there are other available chemicals that
can be, and have previously been, used as reference toxicants
(e.g., sodium dodecyl sulfate; [18,19]).
Analyses of dose responses
Again, parameters estimated using the entire dose response
rather than a single point estimate were used to estimate the
effects of dilution water. A summary of the estimated gener-
alized linear model dose–response parameters is provided in
Table 5. The intercepts were significantly larger when the test
media were diluted using synthetic seawater rather than natural
seawater (p value ϭ 0.0321), but the dose responses were
parallel. Therefore, end-point estimates such as the IC25 or
IC50 would be significantly larger when diluting samples with
synthetic seawater.
CONCLUSIONS AND RECOMMENDATIONS
Results from these experiments indicated that no significant
difference exists in test end points when dry salts or brine are
used for sample salinity adjustment. Similarly, results obtained
from parallel (split-sample) industrial effluent tests with nat-
ural and artificial seawater suggest that both dilution waters
produce similar test results. However, data obtained from con-
current tests with the reference toxicant, copper sulfate,
showed higher variability and greater sensitivity when using
natural seawater as control/dilution water.
Based on the results of this study, further research is still
required to determine the cause of differences between efflu-
ents and copper sulfate and to determine the effects of natural
versus synthetic seawater on culturing and holding sea urchins.
In either case, the choice of reference toxicants other than
copper sulfate is recommended.
Moreover, since other marine toxicity tests also have the
option of using natural or synthetic seawater for dilution water
(for culturing and testing), similar studies should also be con-
ducted for other marine test species (e.g., Champia parvula,
mysid shrimp, inland silversides, and topsmelt) currently used
in standard regulatory testing of industrial effluents.
Acknowledgement—The authors wish to acknowledge the technical
assistance of M. Bidlofsky and K. Elliot. K. Doe provided additional
reference toxicant data for copper sulfate.
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