Presentation is loading. Please wait.

Presentation is loading. Please wait.

Issues with Emerging Contaminants in Water. What are “emerging contaminants”? PPCPs and EDCs –Pharmaceuticals –Personal Care Products –Endocrine Disrupting.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Issues with Emerging Contaminants in Water. What are “emerging contaminants”? PPCPs and EDCs –Pharmaceuticals –Personal Care Products –Endocrine Disrupting."— Presentation transcript:

1 Issues with Emerging Contaminants in Water

2 What are “emerging contaminants”? PPCPs and EDCs –Pharmaceuticals –Personal Care Products –Endocrine Disrupting Compounds Emerging emerging contaminants?

3 Pharmaceuticals Human and veterinary substances taken in response to disease/maladies. –Cure disease –Alleviate disease associated symptoms –Prevent disease “The human impulse for a cure runs quite deep, and our first instinct whenever we feel sick or heading toward sickness is to medicate.” –Jjemba, 2008

4 Personal Care Products Compounds used in our daily lives –Soaps, detergents, perfumes, aftershaves –Cleaning agents, disinfectants, sprays, deodorants –Bug sprays, sunscreens –Products are typically associated with hygiene

5 Endocrine Disrupting Compounds Disrupt normal function of the endocrine system Mimic hormones; agonize or antagonize hormone activity, synthesis, or metabolism; modify hormone receptors Active at very low levels Concern about additive or synergistic effects caused by mixtures of EDCs Synthetic Estrogens –Ethinyl Estradiol, bisphenol-A Synthetic Androgens –90% of US cattle receive growth hormone implants –Synthetic androgens remain environmentally active for months

6 Emerging, emerging contaminants What’s next? –Technology will always get better New products New ways to find chemicals at lower concentrations –NDMA found in beer by accident –EDC activity of bisphenol-A (BPA) found by accident –Green revolution dumped millions of tons of pesticides and herbicides into the environment, but also created enough food for billions of people!!!

7 A Brief History of “Emerging” Contaminants

8

9

10 Developments in Industrial Microbiology - 1970

11

12

13

14 EDC Stories Lake Mead Feminized Carp Found vitellogenin in male carp of Las Vegas wash and Bay in Lake Mead –Egg producing protein –Elevated levels in female fish Found elevated levels of several potential EDCs –Ethinyl Estradiol –Las Vegas wastewater treatment plant outfall "Synthetic Organic Compounds and Carp Endocrinology and Histology, Las Vegas Wash and Las Vegas and Callville Bays of Lake Mead, Nevada, 1992 and 1995, " by Hugh E. Bevans, et. al

15

16

17

18

19 EDC Stories Lake Apopka Alligators A “Teeny Weenie” Problem –Kyla Dunne for PBS (June 2, 1998) http://www.pbs.org/wgbh/pages/frontline/shows/nature/gallery/alligators.html Lou Guillette from the University of Florida –25% smaller phallus in the adult and juvenile male alligators of lake Apopka –Low testosterone levels compared to levels in alligators from healthy lake –Penis size did not reflect amount of testosterone in blood –Causes? 1980 DDT and dicofol spill into the lake Chemical runoff from agriculture Discharge from Sewage Treatment plant –Proving the link Took alligator eggs from “Clean” lake Grew them in p,p’ DDE and found similar results to Lake Apopka alligators "Developmental Abnormalities of the Gonad and Abnormal Sex Hormone Concentrations in Juvenile Alligators from Contaminated and Control Lakes in Florida". Environmental Health Perspectives 102(8):680-688Developmental Abnormalities of the Gonad and Abnormal Sex Hormone Concentrations in Juvenile Alligators from Contaminated and Control Lakes in Florida "Reduction in Penis Size and Plasma Testosterone Concentrations in Juvenile Alligators Living in a Contaminated Environment". General and Comparative Endocrinology 101:32-42.Reduction in Penis Size and Plasma Testosterone Concentrations in Juvenile Alligators Living in a Contaminated Environment

20 Where have EDCs/PPCPs been found? Surface waters throughout the world –Europe, Asia, Canada, USA USGS report “Pharmaceuticals, hormones, and other organic wastewater contaminants in US streams 1999-2000: A national reconnaissance” –95 compounds –139 streams throughout US sampled 80% tested positive –ES&T 36 (6), 1202 Koplin et al., 2002

21 EDC Stories (Hermaphroditic Frogs) Tyrone Hayes –“Feminization of male frogs in the wild” (Nature, 419: 895-896) Investigated the effects of exposure to waterborne atrazine contaminiation on Leopard Frogs Examined different regions of US (Iowa – Utah) Found 10-92% of males showed gonadal abnormalities –“Atrazine-induced hermaphroditism at 0.1ppb in American Leopard Frogs (Rana pipiens): Laboratory and field evidence” (EHP, 111:568-575)

22 Government Regulations Compounds are not currently regulated in the United States as EDCs –Process started in 1996 –Endocrine Disrupting Screening Program (EDSP) Assay development and validation team –Scientific and Technical validation of EDC screens Priority setting workgroup –Develop and prioritize which compounds are tested as EDCs Regulatory activities workgroup –Working on regulatory procedures needed to implement EDSP http://www.epa.gov/scipoly/oscpendo/

23

24 195 43 88 Samples collected per time zone 17 Participating Utilities

25 Target Compounds Pharmaceuticals (20)Potential EDCs (26)Steroid Hormones (5) Phytoestrogens (11) AtenololAtrazine EstradiolApigenin AtorvastatinBenzophenone EstroneBiochanin A o-Hydroxy atorvastatin BHA EthinylestradiolChrysin p-Hydroxy atorvastatin BHT ProgesteroneCoumestrol Carbamazepine  -BHC TestosteroneDaidzein Diazepam  -BHCEquol Diclofenac  -BHCFormononetin Dilantin  -BHCGenistein EnalaprilBisphenol AGlycitein FluoxetineButylbenzyl phthalateMatairesinol Norfluoxetine DEETNaringenin GemfibrozilDiazinon MeprobamateDioctyl phthalate NaproxenGalaxolide RisperidoneLinuron SimvastatinMethoxychlor Simvastatin hydroxy acid Metolachlor SulfamethoxazoleMusk ketone TriclosanNonylphenol TrimethoprimOctachlorostyrene Octylphenol TCEP TCPP Tonalide Traseolide Vinclozolin

26 PharmaceuticalsPotential EDCsSteroid Hormones Phytoestrogens Detected in Raw Water * (24/62) AtenololAtrazine EstradiolApigenin AtorvastatinBenzophenone EstroneBiochanin A o-Hydroxy atorvastatin BHA EthinylestradiolChrysin p-Hydroxy atorvastatin BHT ProgesteroneCoumestrol Carbamazepine  -BHC TestosteroneDaidzein Diazepam  -BHCEquol Diclofenac  -BHCFormononetin Dilantin  -BHCGenistein EnalaprilBisphenol AGlycitein FluoxetineButylbenzyl phthalateMatairesinol Norfluoxetine DEETNaringenin GemfibrozilDiazinon MeprobamateDioctyl phthalate NaproxenGalaxolide RisperidoneLinuron SimvastatinMethoxychlor Simvastatin hydroxy acid Metolachlor SulfamethoxazoleMusk ketone TriclosanNonylphenol TrimethoprimOctachlorostyrene Octylphenol TCEP TCPP Tonalide Traseolide Vinclozolin Estradiol AtorvastatinBenzophenone Biochanin A o-Hydroxy atorvastatin BHA EthinylestradiolChrysin p-Hydroxy atorvastatin BHT Coumestrol  -BHC TestosteroneDaidzein Diazepam  -BHCEquol  -BHC  -BHC EnalaprilBisphenol AGlycitein FluoxetineButylbenzyl phthalateMatairesinol Norfluoxetine Naringenin Diazinon Risperidone SimvastatinMethoxychlor Simvastatin hydroxy acid Musk ketone Octachlorostyrene Octylphenol Tonalide Traseolide Vinclozolin * In at least 20% of samples

27 AtenololAtrazine EstradiolApigenin AtorvastatinBenzophenone EstroneBiochanin A o-Hydroxy atorvastatin BHA EthinylestradiolChrysin p-Hydroxy atorvastatin BHT ProgesteroneCoumestrol Carbamazepine  -BHC TestosteroneDaidzein Diazepam  -BHCEquol Diclofenac  -BHCFormononetin Dilantin  -BHCGenistein EnalaprilBisphenol AGlycitein FluoxetineButylbenzyl phthalateMatairesinol Norfluoxetine DEETNaringenin GemfibrozilDiazinon MeprobamateDioctyl phthalate NaproxenGalaxolide RisperidoneLinuron SimvastatinMethoxychlor Simvastatin hydroxy acid Metolachlor SulfamethoxazoleMusk ketone TriclosanNonylphenol TrimethoprimOctachlorostyrene Octylphenol TCEP TCPP Tonalide Traseolide Vinclozolin EstradiolApigenin AtorvastatinBenzophenone EstroneBiochanin A o-Hydroxy atorvastatin BHA EthinylestradiolChrysin p-Hydroxy atorvastatin BHT ProgesteroneCoumestrol  -BHC TestosteroneDaidzein Diazepam  -BHCEquol Diclofenac  -BHCFormononetin  -BHCGenistein EnalaprilBisphenol AGlycitein FluoxetineButylbenzyl phthalateMatairesinol Norfluoxetine Naringenin Diazinon Dioctyl phthalate NaproxenGalaxolide RisperidoneLinuron SimvastatinMethoxychlor Simvastatin hydroxy acid Musk ketone TriclosanNonylphenol TrimethoprimOctachlorostyrene Octylphenol Tonalide Traseolide Vinclozolin Detected in Drinking Water * (11/62) Pharmaceuticals Potential EDCs Steroid Hormones Phytoestrogens * In at least 20% of samples

28 Finished Water for 18 Drinking Water Treatment Facilities CompoundMax (ng/L)Median (ng/L)Frequency (%) Atrazine8704983 Meprobamate425.778 Dilantin196.256 Atenolol181.244 Carbamazepine186.044 Gemfibrozil2.10.4839 TCEP47012039 DEET936333 Metolachlor271633 TCPP (Fyrol PCF)51021028 Sulfamethoxazole3.00.3922 US Drinking Water

29 AP Story (March, 2008)

30 Relevance to Human Health

31 How much would you have to consume?? Phenytoin (Dilantin) Phenobarbital (Luminal) Carbamazepine (Tegretol) Primidone (Myidone) Hydrocodone Codeine Diazepam (Valium) Guaifenesin (Robitussin) Pentoxifylline (Trental) 1,200,000 770,000 23,000,000 5,800,000 1,500,000 980,000 190,000 23,000,000 16,000,000 Compound Daily Dose (mg) Liters 300 - 400 30 - 300 800 - 1200 750 - 1000 20 - 38 120 - 180 12 - 120 1200 - 2400 800 - 1200 NOTE: EPA Reference Intake = 2L/day

32 Human Impacts? Nelson and Bunge, 1974: –Missouri men have lower sperm counts than men in LA, NY, and Minneapolis –No reason found Swan et al., 2003: –Confirmed earlier study –Missouri low-sperm count men had higher levels of Atrazine, Alachlor, and Diazanon –Link between pesticides and reproductive effect –No occupational exposure –Source Identified: Drinking water contamination

33 More Human Cases DES Daughters Hypospadias doubled from 1970-1991 (Paulozzi et al, 1997) Dioxins and endometriosis in monkeys (Rier and Foster, 2002) Link between increases in breast, testicular and prostate cancers over past 40 years??? (Krishnan and Safe, 1993; Carlsen et al., 1995; EPA, 1997; more) All linked to hormone mimicking or disrupting compounds

34 AwwaRF/WateReuse Foundation Tailored Collaboration: “Toxicological Relevance of EDCs and Pharmaceuticals in Water” Projects 3085/04-003 - Dr. Djanette Khiari – AwwaRF - Mr. Joshua Dickinson - WRF

35 E-screen Assay MCF-7 breast cancer cells proliferate in response to estrogenic compounds Developed by oncologists Ana Soto & Carlos Sonnenschein at Tufts University

36 E-screen Results (EEq ng/L) nd0.8 2.5 2.9 4.6 6.013 300 4000 0.6 1700 0.7

37  1 cup coffee (17 ng/L, 240 mL) EEq Comparison (“Worst” WWTP) 890 mL Secondary Wastewater (4.6 ng/L)

38 EEq Comparison  Teaspoon of Soy Sauce (300 ng/L, 15 mL) 1 Liter Secondary Wastewater (4.6 ng/L)

39 Soy Baby Formula (1700 ng/L, 4 oz Bottle)  EEq Comparison 44 Liters of Secondary Wastewater (4.6 ng/L)

40 Daily Intake of EEq (ng) Comparison “Typical” day for average adult, per serving Glass of milk = 0.1 ng 2 Cups coffee = 8.2 ng Glass of Juice = 0.2 ng BreakfastLunchDinner Sushi w/ soy sauce = 4.5 ng Glass of beer = 2.2 ng Cup of tea = 0.7 ng Est. Total Daily intake of EEq = 15.9 ng

41 What is the Context for Risk? Food Exposure Air Exposure Water Exposure Health Endpoints –Cancer –Non-Cancer

42 Max Concentrations, ng/L Bisphenol AAtrazineNonylphenolEstradiol Raw1487013017 Finished25930100<0.5 Bottled Water<5<0.25<80<0.5 Apple Juice<50<1026,000<100 Vegetable Juice<250<201300<5 Green Tea<50<101600<10 Beer<1000<502400<100 Cow's Milk<125<10<1250<100 Soy Milk<125<104500<20 Dairy Formula5600<50<10,000<20 Soy Formula5400<5011,000<20 Soy Sauce<2.5<0.2521,000<1 Breastmilk*1900*?? 8,000 to 19,000** *Ye, 2006**Choi, 2002 Note Atrazine MCL = 3000 ng/L in Water; RfD = 2.45 mg/day for Ave. Adult

43 WATERINDOOR AIR Conc. Exposure (2 L/day) Conc. Exposure (24 m 3 /day) (μg/L)(μg)(μg/m 3 )(μg) BHT0.050.1036864 TCPP (Fyrol PCF) 0.5311.330 Galaxolide0.280.60.123 Butylbenzyl phthalate 0.0550.10.0180.4 Nonylphenol0.110.30.113

44 “No substance is a poison by itself. It is the dose that makes a substance a poison...” Paracelsus (1493-1541) Risk = Toxicity + Exposure

45 Method Reporting Limits based on 100x <DWEL Max Drinking Water Conc. (µg/L) DWEL (µg/L) Liters per day to meet DWEL Method MRL (µg/L) Recommended MRL (µg/L) Phenytoin0.0196.87000.0010.1 Carbamazepine0.018121,3000.00050.1 Fluoxetine0.00823482,0000.00050.3 Diazepam0.0003335210,0000.000250.4 Gemfibrozil0.00214543,0000.000250.5 Atenolol0.018707,8000.000250.7 Meprobamate0.04226013,0000.000253.0 Bisphenol A0.0251,800140,0000.00520 4-Nonylphenol0.101,80035,0000.0820 Sulfamethoxazole0.00318,00012,000,0000.00025200

46 Finished Water for 18 Drinking Water Treatment Facilities CompoundMax (ng/L)Median (ng/L)Frequency (%) Atrazine*8704983 Meprobamate425.778 Dilantin196.256 Atenolol181.244 Carbamazepine186.044 Gemfibrozil2.10.4839 TCEP47012039 DEET936333 Metolachlor271633 TCPP (Fyrol PCF)51021028 Sulfamethoxazole3.00.3922 MRL > 10 ng/L MRL > 20 ng/L MRL > 50 ng/L MRL > 100 ng/L MRL > 500 ng/L MRL > 1000 ng/L US Drinking Water

47 Effects on Water Industry

48

49

50

51 http://www.pacinst.org/ NYC Water ~ $3.50/ 1000 gal Las Vegas ~ $1.50/ 1000 gal Bottled Water ~ $350 - $8,000/ 1000 gal

52 Given Enough Energy Input, Any Chemical Can Be Removed From Water… Is the Benefit Worth the Impact?

53 Historical and Forecast Lake Mead Elevation Top of Spillway Drought 1,000 1,040 1,080 1,120 1,160 1,200 1,240 Jan-00Jan-01 Jan-02Jan-03Jan-04Jan-05Jan-06 Jan-07 Jan-08Jan-09 Elevation Above Sea Level (feet) Historical Forecast Drinking & Hydroelectric Minimal Level

54 Pharm’s and EDCs in Lake Mead Benotti, Stanford, and Snyder, JEQ, in press

55 UV 40mJ/cm 2 <30% Removal30-70% Removal>70% Removal TestosteroneSulfamethoxazole ProgesteroneTriclosan AndrostenedioneDiclofenac EstriolAcetaminophen Ethynylestradiol Estrone Estradiol Erythromycin Trimethoprim Naproxen Hydrocodone Ibuprofen Caffeine Fluoxetine Meprobamate Diazepam Dilantin Carbamazepine DEET Atrazine Galaxolide TCEP Iopromide Pentoxifylline Metolachlor Gemfibrozil Musk Ketone

56 Chlorine 3.5 mg/L 24 hr

57 <30% Removal30-70% Removal>70% Removal Musk KetoneMeprobamateTestosterone TCEPAtrazineProgesterone IopromideAndrostenedione Estriol Ethynylestradiol Estrone Estradiol Erythromycin-H2O Sulfamethoxazole Triclosan Trimethoprim Naproxen Diclofenac Ibuprofen Hydrocodone Acetaminophen Carbamazepine Dilantin Diazepam Caffeine Fluoxetine DEET Metolachlor Galaxolide Pentoxifylline Gemfibrozil Ozone 2.5 mg/L or UV-H 2 O 2 ≈ 700 mJ + 5 mg/L

58 RO Membranes: Most compounds removed >>70%

59 Water Reuse Facility

60 Energy per Unit Volume for Water Treatment

61 Climate Change Drought Increased WW Influence On DW Novel Treatment Technologies Greenhouse Gas Emissions Population Growth Impact Cycle

62 What issues ARE important? What compounds should we be worried about? Microbes? CCL 1, 2, & 3? Utility Size/Pop.?

63 Key Messages Pharm/EDCs documented in water for >40 years If we look hard enough, we will find contaminants – No treatment process is “perfect” – Contaminant reduction vs. pollution relocation – Cleaner water vs. carbon footprint – Should DW Utilities be proactive???

64 Key Messages Method reporting limits and treatment goals must be health-based If MRLs were 1 μ g/L, we would have detected no contaminants If MRLs were 0.1 μ g/L, we would have detected only two target compounds - NO pharmaceuticals If MRLs were 0.01 μ g/L, only ½ of the compounds detected would have been reported Detection does not = risk, just as ND does not = safe!

65 Key Messages Ecological concerns must be addressed We should strive for cleaner & safer water – the public will bear the costs The world will depend on water reuse Trace contaminants WILL be detected If treatment needed, wastewater makes the most sense More efficient treatment = more greenhouse gases and costs to the public

Download ppt "Issues with Emerging Contaminants in Water. What are “emerging contaminants”? PPCPs and EDCs –Pharmaceuticals –Personal Care Products –Endocrine Disrupting."

Similar presentations

Application In Waste Water Treatment. Waste Water Treatment 3,000 times more germicidal than chlorine 160 times more bactericidal than sulphur dioxide.

Application In Waste Water Treatment. Waste Water Treatment 3,000 times more germicidal than chlorine 160 times more bactericidal than sulphur dioxide.
Endocrine Disruptors: What are they, and why should we care? httpwww.usgs.govthemesFS-189-97.

Endocrine Disruptors: What are they, and why should we care? httpwww.usgs.govthemesFS
Toxicological report Bio 464

Toxicological report Bio 464
Filename.ppt East Canyon Creek Health: Impacts from Reduced Flows and Endocrine Disrupting Compounds Swaner Preserve and EcoCenter Utah State University.

Filename.ppt East Canyon Creek Health: Impacts from Reduced Flows and Endocrine Disrupting Compounds Swaner Preserve and EcoCenter Utah State University.
Pharmaceuticals as environmental pollutants – current situation and ongoing research Christina Rudén Royal Institute of Technology (KTH)

Pharmaceuticals as environmental pollutants – current situation and ongoing research Christina Rudén Royal Institute of Technology (KTH)
Overview of the big questions in endocrine disruption John Sumpter Brunel University U.K.

Overview of the big questions in endocrine disruption John Sumpter Brunel University U.K.
Pilot-Scale Evaluation of MF-Ozone-BAC Process Train for Removal of Emerging Contaminants Vijay Sundaram Robert W. Emerick, Ph.D., P.E. John P. Enloe,

Pilot-Scale Evaluation of MF-Ozone-BAC Process Train for Removal of Emerging Contaminants Vijay Sundaram Robert W. Emerick, Ph.D., P.E. John P. Enloe,
An Evaluation of Models to Predict the Activity of Environmental Estrogens Candice M. Johnson and Rominder Suri, Ph.D.,P.E. NSF Water and Environmental.

An Evaluation of Models to Predict the Activity of Environmental Estrogens Candice M. Johnson and Rominder Suri, Ph.D.,P.E. NSF Water and Environmental.
Endocrine Disrupting Compounds: General Overview and Impact on Freshwater Biology SCAP Water Issues Committee Meeting May 5, 2011 Photo by Judy Gibson.

Endocrine Disrupting Compounds: General Overview and Impact on Freshwater Biology SCAP Water Issues Committee Meeting May 5, 2011 Photo by Judy Gibson.
Detection of Estrogenic Hormones in BC Sewage Treatment Plant Effluents Heather Osachoff PhD candidate, Simon Fraser University Toxicogenomics Analyst,

Detection of Estrogenic Hormones in BC Sewage Treatment Plant Effluents Heather Osachoff PhD candidate, Simon Fraser University Toxicogenomics Analyst,
EOH3101 PRINCIPLES OF ENVIRONMENTAL HEALTH ENVIRONMENTAL HEALTH ISSUES: ENVIROMENTAL HORMONES.

EOH3101 PRINCIPLES OF ENVIRONMENTAL HEALTH ENVIRONMENTAL HEALTH ISSUES: ENVIROMENTAL HORMONES.
Estrogenic Compounds in Wastewater Presentation to the Metropolitan Council Environment Committee September 23, 2008 Paige Novak, Deb Swackhamer, Mike.

Estrogenic Compounds in Wastewater Presentation to the Metropolitan Council Environment Committee September 23, 2008 Paige Novak, Deb Swackhamer, Mike.
Pharmaceuticals in Drinking Water Nancy Mesner Aquatic, Watershed and Earth Resources Utah State University.

Pharmaceuticals in Drinking Water Nancy Mesner Aquatic, Watershed and Earth Resources Utah State University.
TRICLOSAN : environmental exposure, toxicity and mechanisms of action Journal of Applied Toxicology 31: 285-311, 2011 Dann and Hontela Innovation Lectures.

TRICLOSAN : environmental exposure, toxicity and mechanisms of action Journal of Applied Toxicology 31: , 2011 Dann and Hontela Innovation Lectures.
Chapter 14 Water Pollution.

Chapter 14 Water Pollution.
Analysis of contaminants of emerging concerns in wastewater and the Maryland coastal bays Charniece C. Huff 1, Rehab Abass 2, Ali Ishaque 2 1 Department.

Analysis of contaminants of emerging concerns in wastewater and the Maryland coastal bays Charniece C. Huff 1, Rehab Abass 2, Ali Ishaque 2 1 Department.
Kevin Cliver Abnormal Bone composition in Female Juvenile American Alligators From a Pesticide-Polluted Lake (Lake Apopka, Florida) Lind, P. Monica; Milnes,

Kevin Cliver Abnormal Bone composition in Female Juvenile American Alligators From a Pesticide-Polluted Lake (Lake Apopka, Florida) Lind, P. Monica; Milnes,
Environment and fertility: Male-mediated factors Shanna H. Swan, PhD Professor Obstetrics & Gynecology University of Rochester School of Medicine.

Environment and fertility: Male-mediated factors Shanna H. Swan, PhD Professor Obstetrics & Gynecology University of Rochester School of Medicine.
1 Protecting the Ecosystem from Improperly Disposed Pharmaceuticals John M. Polimeni Assistant Professor of Economics Albany College of Pharmacy.

1 Protecting the Ecosystem from Improperly Disposed Pharmaceuticals John M. Polimeni Assistant Professor of Economics Albany College of Pharmacy.
GO GREEN GREEN ALARMING BOTTLED WATER FACTS: The fact is that people pay from $1 to $4 a gallon for the perception of higher quality, when in fact the.

GO GREEN GREEN ALARMING BOTTLED WATER FACTS: The fact is that people pay from $1 to $4 a gallon for the perception of higher quality, when in fact the.

Similar presentations

Ads by Google