arsenic in livestock well water on the din é reservation
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Arsenic in Livestock Well Water on the Din é Reservation. Clarita Lefthand, Ph.D. Student University of Washington Som e Data presented here was obtained from the Navajo EPA . Prevalence of Arsenic and Some Background. Naturally occurring element in bedrock - PowerPoint PPT PresentationTRANSCRIPT
Arsenic in Livestock Well Water on the Diné Reservation
Clarita Lefthand, Ph.D. Student University of Washington
Some Data presented here was obtained from the Navajo EPA
Prevalence of Arsenic and Some Background
• Naturally occurring element in bedrock• Have no smell and no taste.
• Difficult to tell if arsenic is present in food, water, or air
Anthropogenic Sources
• Smelting of metals• Pharmaceutical industry (medicines)• Pesticide manufacture (very limited)• Wood preservative• Cattle and sheep dips• Petroleum, coal, and wood burning• Waste incineration
Counties with arsenic concentrations exceeding MCL in 10% or more groundwater samples.
Some Current Sampling Data
• Of 199 sources tested for inorganic compounds:– 44 (22%) exceeded one or more of the primary
drinking water standards– The most frequent exceedance was arsenic (24
[12%] sources) followed by uranium (9 [5%] sources). The highest arsenic level was 190ug/L
• Of 188 water sources tested for bacteria:– 40 (21%) were positive for E. coli and – 144 (77%) were positive for total coliforms
Hauled Drinking Water Sources
• Nresponses= 94 (Ntotal=296)• Multiple sources could be used by same individual
Livestock Well 30%
Chapter House 22%
Natural Spring 11%
Did Not Specify 37% Livestock Well
Chapter HouseNatural SpringDid Not Specifyor “Other”
Hazard Identification
Water Soluble Arsenic Species
Organic Arsenic
• Less toxic than inorganic As• Produced by biomethylation
• Microorganisms in soil and water• Humans detoxify organic As
Mode of Action
• Cancer:– The most accepted explanation of the mode of action
for Ar carcinogenicity is that it induces chromosomal abnormalities without interacting directly with DNA
• Non-cancer:– Ar has inhibitory effects cellular respiration at the
level of the mitochondrion. – Oxidative stress might also have an important role in
both cancer and non-cancer effects
Toxicokinetics
Absorption
• Absorption– Soluble forms are well absorbed in the GIT by
humans • 60%-90% • Animals – 50%
– Insoluble forms• Limited absorption
Distribution
• After absorption Ar initially accumulates in the– Nails – Hair – Bone– Kidney, liver, lung
• Binds to sulfhydryl containing proteins - concentrates in the hair and fingernails
As5+ (Arsenate)
As3+ (Arsenite)
Methylarsenite (liver)
Dimethylarsenite (readily eliminated – urine)
Metabolism of Inorganic ArsenicAr undergoes methylation to less toxic metabolites
Excretion
• Half-life= 3-5 days • Primarily via urine
Health Effects of Chronic IngestionCancers:
• Bladder, kidney, liver and skin cancers: drinking water• Lung cancer caused from inhalation
Non-Cancer Endpoints: •Blackfoot disease• Increases a person’s risk of vascular and heart disease, type 2 diabetes, reproductive and developmental disorders, low birth weights in babies, neurological problems and lower IQ’s in children. • neurological, renal, cardiovascular, hematological, and testicular effects.
Epidemiology Studies
• Taiwan: The most studied area• Chile:• Argentina:• In these studies chronic exposure was determined to
cause bladder, lung and skin cancer• [Ar] were several hundred micrograms per liter• EPA cancer risk assessment has used the cancer data
from SW Taiwan (primarily bladder cancer cases in the Blackfoot-Disease endemic area) to predict the cancer risk from arsenic in drinking water in the USA
Exposure Assessment
Routes of Exposure• Ingestion – The most important route of
exposure because it does the most damage
• Skin Contact – Also a very important route of exposure
• Inhalation– A minor pathway of exposure
Exposure among Diné Communities
• In this assessment we are primarily concerned with ingestion of Ar
• Current data suggest that exposure occurs mainly from the ingestion of arsenic through contaminated livestock well water
• Adverse health effects depend on dose, duration of exposure, and the nutritional state of exposed populations– In the case of the Diné community, chronic exposure is of
concern
Ar Concentrations Measured in Diné Communities
Community Concentration of Arsenic (mg/L)
Sweetwater (09T-592) 0.026
Red Mesa (9T-538) 0.05
Lower Greasewood 0.17
A lot of communities ~0.02
Standards for Arsenic in Drinking Water
Agency Level Comments
World Health Organization (WHO)
0.01mg/L is the allowable concentration
Inorganic arsenic is a documented human carcinogen.
Environmental Protection Agency(EPA)
-- 0.01 mg/ml is the maximum contaminant level
-- zero mg/ml is the MCLG
-- RfD=0.3 ug/kg/day
EPA’s stated policy in setting MCLs for known human carcinogens has the goal of ensuring that the MCL falls within the 1: 10,000 to 1: million range
Exposure Assessment
• Ingestion (mg/kg/day) =(C*IR*ED*EF) BW*AT
• C: Concentration = 0.17 mg/L• IR: Ingestion Rate =0.927L/day• ED: Exposure Duration = 75 yr • EF: Exposure Frequency= 365 days/yr• BW: Body Weight= 70 kg • AT: Averaging time= 75 yr*365 day=27,375 d
Exposure Assessment
• Ingestion =0.17 mg/L*0.927L/day = 70 kg
• Ingestion= 0.0023 mg/kg/day• EPA RfD=0.3 ug/kg/day=0.0003 mg/kg/day• The average adult person’s exposure is 8 times
higher than the EPA’s RfD
Exposure Assessment Limitations
• Other exposure questions that must be address include:
• Is exposure from food ingestion possible?• Arsenic may also be released into the atmosphere from
coal-fired power plants and incinerators because coal and waste products often contain some arsenic
• Soil consumption by children• Moreover what about children’s or pregnant mother’s Dose?
Precautionary Assessment
• Community/Social Issues• Exposure Issues• Hazard/Toxicity
Precautionary AssessmentCommunity/Social Issues
Parameter Score
Goal 2
Need 3
Future Generations 3
Democratic Community Based Process 2
Alternatives 3
Total 13/15
A score of 13 suggests that at present there is very little support for health or
community
Note: Please see end of presentation for more detailed information about Evaluation Scores
Precautionary AssessmentExposure Issues
Parameter Score
Exposure 3
Multiple Exposures 3
Children Exposed 5
Consumer Products (Sheep Meat) 2
Occupational Exposure 1
Food Exposure 2
Total 16/20
Note: Please see end of presentation for more detailed information about Evaluation Scores
A score of 16 suggests that there is an exposure problem that presents concerns to the community
Precautionary AssessmentHazard/Toxicity
Parameters Score
Hazard 10
Individual Sensitivity 3
Ecological Hazard 2
Volume 5
Persistent 3
Bioaccumulate 1
Uncertainty 3
Total 27/30
A score of 27 suggest that there is a significant hazard that present a serious concern
Note: Please see end of presentation for more detailed information about Evaluation Scores
Conclusions• Exposure Assessment
– Ingestion= 0.0023 mg/kg/day– EPA RfD=0.0003 mg/kg/day
• The average adult person’s exposure is 8 times higher than the EPA’s RfD.
• Precautionary Assessment – Community and Social Issues: 13/15– Exposure Issues: 16/20– Hazard and Toxicity: 27/30
• In essence the [Ar] present in well water on the Diné do not strongly promote human health, a sustainable environment, and poorly ensures that future generations of all species have an opportunity to thrive
Risk Management
• Continue to monitor and sample for all the livestock wells• It would be useful to have a better understanding about
other exposures:– i.e., Sheep meat, soil ingestion, and air contamination
• Consider how the nutritional state of the exposed Diné population might impact individual health
• Determine long-term strategies for for drinking water issues including those that extend beyond arsenic contamination– For example: fecal coliform and uranium; and lack of drinking
water for future
Risk Management
• Remediation– Point of use: daily consumption of water
• Would need to be modified for water haulers!
Risk Management
• Remediation– Point of use: daily consumption of water
• Would need to be modified for water haulers!
Risk Management
• Need plans that will extend water lines to Diné homes
• Need to establish a safe water hauling point• Ask Community what they believe is the best
approach to remediating water– If the community is not involved, funds may be
used to create a solution that is not culturally viable
Risk Communication• Help educate the community who are directly impacted
by contaminated water about their potential exposure to Arsenic and the adverse health risks– Arsenic in water is invisible, does not smell, and has no taste
• Inform the community in a culturally appropriate way• Continue and encourage community involvement in the
decision making process to clean up the well water or to find alternative water sources that are viable for the community
References
• NRDC– http://www.nrdc.org/water/drinking/qarsenic.asp
• EPA– http://www.epa.gov/safewater/arsenic/index.html
• Toxmetal– http://www.dartmouth.edu/~toxmetal/research/p
rojects/Arsenic.html
Precautionary AssessmentCommunity / Social Issues
Community / Social Issues Score
Evaluate effects on the community and related social issues.
Goal 1-31-a lot, 2-some, 3-little. Does this move forward the goal of human and environmental health?
Need 1-31-a lot, 2-some, 3-little or not sure. Ask the question: Is it necessary? Do we really need this?
Future Generations 1-3
1-little, 2-some, 3-high impact. Is there a potential impact on future generations of humans and other species?
Democratic, community based process 1-3
1-a lot of community involvement and consultation, 2-some, 3-little. Was the community consulted early and often in the process? Was the process democratic and inclusive.
Alternatives 1-3
1-alternatives were carefully considered, 2-some consideration, 3-no consideration. Where alternatives considered?
Total 5-155-good, supportive of health and community15-poor, not supportive of health or community
Precautionary AssessmentExposure
Exposure Issues Score Evaluate Potential Exposure Issues
Exposure 0-30-none, 1-little, 2-some, 3-high. Do we have control over the exposure?
Multiple exposures 0-3
0-none, 1-little, 2-some, 3-high. Is there exposure to other chemicals with similar hazard?
Children exposed 0,3,5
0-none, 3-little, 5-some or high or don't know. Children are often more vulnerable. Are children being exposed.
Consumer products 0-3
0-not in consumer products, 1-little, 2-some, 3- a lot or do not know. Is this compound in consumer products?
Occupational exposure 0-3
0-no occupational exposure, 1-little, 2-some, 3- a lot or do not know. Is there occupational exposure?
Food exposure 0-3
0-not in food supply, 1-little, 2-some, 3- a lot or do not know. Is the compound present in the food supply.
Total 0-200-no exposure, no problems20-significant exposure, serious concern
Precautionary AssessmentHazard / Toxicity Score Evaluate Potential Hazards
Hazard 1,5,10
1-low, 5-some, 10-high. Follow classical hazard evaluation, pick endpoint, exam relevant quality studies (cancer, reproductive, neurotoxicity, irreversible)
Individual Sensitivity 1-3
1-little 2-some, 3-a lot. Determine if any individuals are more sensitive than health adult such as the very young or old.
Ecological hazard 1-3
1-little 2-some, 3-a lot. Is it a hazard to other species or the environment?
Volume 1-5 how much is produced (1=research only, 2=<1000 lbs, 3=<10,000, 4=<100,000, 5=>100,000 or do not know)
Persistent 1-31-little persistence 2-some, 3-a lot of persistence or do not know. Is the compound persistent in the environment?
Bioaccumulate 1-31-little 2-some, 3-a lot. Does it bioaccumulative in humans or animals or move up the food chain?
Uncertainty 1-3 1-little 2-some, 3-a lot. How certain is the information?
Total 7-307-low hazard30-significant hazards or unknowns, serious concern