1. Environmental Chemistry Chapter 11: Arsenic Copyright © 2005 by DBS

2. Arsenic Chemistry: –extremely complex because it can exist in metallic form, can be in trivalent and pentavalent state (charge of 3+ or 5+), and can be organic or inorganic –widely distributed in nature (variety of forms) Sources: –smelting of gold, silver, copper, lead and zinc ores –combustion of fossil fuels –agricultural uses as herbicides and fungicides –cigarette smoke –occupational: largest source is manufacture of pesticides and herbicides Environmental fate: –found in surface and groundwater through runoff –accumulates in plants if soil conditions are right –bioaccumulates in aquatic ecosystems (so fish consumption is a source) Source: http://www.webelements.com

3. Sources Eating food, drinking water, or breathing air containing arsenic. –Herbal medicines (India/Pakistan Ayurvedic” remedies Breathing contaminated workplace air. Breathing sawdust or burning smoke from wood treated with arsenic. Living near uncontrolled hazardous waste sites containing arsenic. Living in areas with unusually high natural levels of arsenic in rock.

4. Arsenic is widespread in the environment Occupational exposures can occur –Smelting industry –Coal fired power plants Epidemiological studies implicate arsenic as a carcinogen Inhalation is a common route of exposure Drinking water exposure can also lead to cancer pharmacokinetics and dynamics: –absorbed via inhalation, ingestion and dermal exposure –mimics phosphate in terms of uptake by cells –Detoxified by methylation: decreased rates lead to increased toxicity (individual susceptibility) –Can cross placenta –accumulates in liver, kidney, heart and lung - later in bones, teeth, hair, etc. –half-life is 10 hr, excretion via kidneys

5. Arsenic Toxicity Mechanisms binds to sulfhydryl groups (and disulfide groups), disrupts sulfhydryl-containing enzymes (As (III)) –inhibits pyruvate and succinate oxidation pathways and the tricarboxylic acid cycle, causing impaired gluconeogenesis, and redu ced oxidative phosphorylation targets ubiquitous enzyme reactions, so affects nearly all organ systems substitution for phosphorus in biochemical reactions –Replacing the stable phosphorus anion in phosphate with the less stable As(V) anion leads to rapid hydrolysis of high- energy bonds in compounds such as ATP. That leads to loss of high-energy phosphate bonds and effectively "uncouples" oxidative phosphorylation.

6. Arsenic Toxicity organic arsenicals>inorganic arsenicals>metallic forms trivalent>pentavalent acute: severe abdominal pain, fever, cardiac arrhythmia chronic: muscle weakness and pain, gross edema, gastrointestinal disturbances, liver and kidney damage, swelling of peripheral nerves (neuritis), paralysis –liver injury: jaundice –peripheral vascular disease - blackfoot disease chronic drinking water exposure in Taiwan and Chile –cancer (skin, lung, kidney bladder)

7. Black Foot Disease skin disease: –keratosis of hands and feet, and hyperpigmentation Blisters

8. Arsenic Problems: Bangladesh Arsenic is found in groundwater of many countries: particularly South East Asia and Bangladesh As leached from underground sources into village wells of 1 million people, levels of 1000 ppb –62% of wells tested exceeded WHO standard –~ 35 million people exposed above US EPA standard 200,000 people suffering from As-induced skin lesions problem may have been exacerbated by large scale withdraw of groundwater for irrigation or by extensive use of fertilizers Skin pigmentation, keratoses and skin cancers were found among people who drank from arsenic contaminated wells http://phys4.harvard.edu/~wilson/arsenic/arsenic_project_introduction.html See Prof. Wilson at Harwad’s Arsenic page From: Klaassen et al., Chap. 19, Philp, Chap. 6

9. Toxic Hazards Associated with Poultry Litter Incineration What Goes In, Must Come Out “One of the most basic principles of incineration is that what goes in, must come out. There is no alchemy going on, so if there are toxic heavy metals like lead, mercury or arsenic going in one end, they must come out in the form of toxic ash and toxic air emissions.” http://www.energyjustice.net/fibrowatch/ Arsenic Use in Chicken & Turkey Feed Roxarsone, or 3-nitro-4-hydroxyphenylarsonic acid, is currently the most commonly used arsenical compound in poultry feed in the United States, with a usage of 23 to 45 grams of chemical per ton of feed for broiler chickens for increased weight gain, feed efficiency, improved pigmentation, and prevention of arasites. Roxarsone is used in turkeys as well as chickens. By design, most of the chemical is excreted in the manure.

10. Setting the Standard 1992: California toxicologist argues that US EPA standard for As in drinking water would constitute a 1:100 risk of cancer for lifetime consumption EPA standard not originally based on cancer as an endpoint achieving a 1:1,000,000 risk would require dropping standard from 50 ppb to 2 ppt EPA revising standard to from 50 to 10 ppb in 2006 –consider cost to small communities

11. Arsenic in US Drinking Waters In the U.S. the arsenic for drinking water was lowered from 50 ppb (μg/L) to 10 ppb – to be complied by 2006 Source: http://water.usgs.gov/nawqa/trace/arsenic

12. Removal of As from Water Pass over alumina (Al 2 O 3 ) Anion exchange or reverse osmosis Precipitation In treatment facilities by precipitating it in the form of insoluble arsanate, AsO 4 3- Fe 3+ + AsO 4 3- → FeAsO 4 (S) GW As is usually reducing so As(III) must first be oxidized to As(V)

13. Steady-State of As in Water Arsenic in Lake Ontario The lake receives 161 tonnes of As per year through river and lake flows that originate in land based sources Thompson et al, 1999 Input = Output 158 + 3.6 = 161.6 t = 119 + (91-49) t

14. Toxicology LD50 values for some common forms of As Meat and seafood Converted by bio-methylation → excreted

15. Toxicology As(III) compounds arsine (AsH 3 ) and trimethylarsince (As(CH 3 ) 3 ) are most toxic

16. Chromated Copper Arsenate (CCA) Chromated copper arsenate (CCA) used to protect decks (45% As 2 O 3 ) Concern over leaching of As especially in childrens playgrounds 76 mg/kg found in soil 10x control Pressure treated wood CCA: 22 percent pure arsenic A 12-foot section of pressure-treated lumber contains about an ounce of arsenic, or enough to kill 250 people. "In less than two weeks, an average five-year-old playing on an arsenic-treated playset would exceed the lifetime cancer risk considered acceptable under federal pesticide law." EPA, 2004, banned from residential use Source: http://www.sptimes.com/News/031101/State/The_poison_in_your_ba.shtml

17. End Baird

18. As Concentrations in Natural Waters As

19. Global Arsenic Cycle and Reservoir Sizes oceans lithosphere Global As cycle and reservoir sizes from Matschullat, 2000 800-1,740 t As τ = 0.022-0.027 yr = 8 – 10 d 4.01 x 1013 t As in the earth’s crust 1.5 – 2 mg kg -1 upper crust 1 – 1.8 mg kg -1 bulk crust

20. As in Western PA

21. Senior Theseis: Local Sites of Interest Breslube Penn Superfund site Clever Park CCA structures

22. Cadmium Relatively new metal in terms of humans Sources: –natural rock weathering –copper, lead and zinc smelting auto exhaust –cigarette smoke (a cigarette contains 1- 2 ug Cd) Uses: –metal plating –nickel-cadmium batteries –solders –paint pigments (blue) –plastic stabilizers –photographic chemicals –fungicides Readily absorbed and accumulated in plants Food as most common route of exposure for general population From: Klaassen et al., Chap. 19, Philp, Chap. 6 http://www.cadmium.org

23. Pharmacokinetics pharmacokinetics: inhalation: –smelters, cigarette smoke –15-50% absorbed ingestion: main source is liver and kidney of meats 6% absorbed, greater if deficient in calcium, zinc or iron Shenyang Copper Smelter

24. Toxicity Mechanisms Mechanisms –binding to –SH groups –competing with Zn and Se for inclusion into metalloenzymes –competing with calcium for binding sites (calmodulin) Kidney toxicity Lung toxicity Skeletal effects –Osteoporosis and osteomalacia Cancer –carcinogenic in animal studies –~8% of lung cancers may be attributable to Cd

25. Cadmium (Cd) Epidemics/case studies Japan (1940s) effluent (outflow) from a lead- processing plant washed over adjacent rice paddies for many years –rice accumulated high level of Cd –community was poor (and therefore malnourished with respect to calcium) –acute toxicity: renal failure,anemia, severe muscle pain named "Itai-Itai" disease ("ouch, ouch") Itai-itai victim

26. Further Reading (Baird) Hingston, J.a. et al (2001) Leaching of Chromated Copper Arsenate Wood Preservatives. Environmental Pollution, Vol. 111, pp. 53. Lykknes, A. and Kvittingen, L. (2003) Arsenic: Not So Evil After All?. Journal of Chemical Education, Vol. 80, pp. 497. Pearce, F. (2003) Arsenic’s Fatal Legacy Grows. New Scientist. August 9, pp. 4. Smith, A.H. et al. (1992) Cancer Risks from Arsenic in Drinkng Water. Environmental Health Perspecives. Vol. 97, pp. 259.

27. Further Reading Smith, A.H. et al (2002) Science Welch, A., Ryker, S., Helsel, D., and Hamilton, P. (2001) Arsenic in Ground Water of the United States: A Review. Well Water Journal. February, pp. 30-33.