Ecological Effects of Endocrine Disruption: Quantifying Generational Effects

David Walker, PhDUniversity of Arizona

David Walker1, Nick Paretti2, Gail Cordy2, Timothy S. Gross3, Edward T. Furlong4, Steven D. Zaugg4

Dana W. Kolpin5, and Dennis McIntosh6

1 University of Arizona, Environmental Research Laboratory, 2601 E. Airport Dr., Tucson, AZ 85706 dwalker@ag.arizona.edu

2 USGS., WRD, 520 N. Park Ave, Suite 221, Tucson, AZ 85719 nvp@email.arizona.edu

3 USGS-Florida Caribbean Science Center, 7920 NW 71st St., Gainesville Florida, 32653 tim_s_gross@usgs.gov

4 USGS, National Water Quality Laboratory, Denver Federal Center, P.O. Box 25046, MS 407, Lakewood, CO 80225-0046 efurlong@usgs.gov

5 USGS, WRD, P.O. Box 1230, Iowa City, IA 52240 dwkolpin@usgs.gov

6 Delaware State University, 1200 N. DuPont Highway Dover, DE 19901 dmcintosh@desu.edu

Aquatic Ecology and Endocrine Disruption

• An organisms ability to better-exploit a resource (or group of resources) in the face of environmental stress and inter-specific competition, coupled with conservation of the genetic material enabling this exploitation, is what drives speciation.

• Genetic conservation of traits is initiated, and sustained by, subtle behavioral cues for mating, spawning, aggression, territoriality, avoidance, etc.

Quantification and Research Design Issues; One Size Does Not Fit All

Mech

anistic U

nd

erstand

ing

Ecological Significance

Genetic

Biochemical

Physiological

Behavioral

Reproductive

Assemblages

Histopathological

Immunological

Bioenergetic

Populations

• Unlike semi-arid or north-temperate regions, effluent-dependent water’s (EDW’s) in arid regions usually contain 100% effluent year-round.

Roger Road WWTP

Tucson

Santa Cruz River

This Study

• Laboratory study with control, replication, and randomization.

• Use fish native to the region (largely pollution-tolerant).

• Concentrate on long-term, persistent compounds.

•Morphology epitomizes adaptations to living in turbid, flashy rivers with extremes in environmental conditions.

•Pollution-tolerant

•Omnivorous, adults grow to 2 feet in length.

•Large enough to survive multiple venipuncture events.

•Readily available supply from USFWS Deter National Fish Hatchery and Technology Center

Treatment Treatment

Control

Control

Water temperature maintained between 25-29o C.

Photoperiod was maintained at 12 hours of light and dark

Treatment/Dosages

• Fish in raceways exposed for 3 months per treatment

• 1st treatment = 1/3 by volume treated ww and 2/3 water treated by RO

• 2nd treatment = 2/3 by volume treated ww and 1/3 water treated by RO

• 3rd treatment = full strength treated ww

0

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

Dose 1 Dose 2 Dose 3

Detergent Metabolites

Fire/Flame Retardants

Fragrances/flavors

Fuels/PAHs

Plasticizers/antioxidants

Herbicides/insecticides

Non-prescription drugs

Prescription Drugs SteroidsHousehold Wastewater Compounds

Results in µg/L

Males

17β-estradiol (pg/mL)

Control (n = 6): 217.3

Treatment (n = 13): = 547.4

11-ketotestosterone (pg/mL)

Control (n = 6): = 820.8

Treatment (n = 13): = 473.5

Vitellogenin (mg/mL

Control (n = 6): = 0.09

Treatment (n = 13): = 0.32

17-B

ETA

(pg/

ml)

100

200

300

400

500

600

700

800

900

1000

1100

Control Treatment

T/C

11-K

ETO

(pg/

ml)

0

200

400

600

800

1000

1200

1400

Control Treatment

T/C

VIT

ELLO

(pg/

ml)

0

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

Control Treatment

T/C

P = 0.0016 P = 0.021 P = 0.036

Females

17β-estradiol (pg/mL)

Control (n = 54): 568.2

Treatment (n = 47): 403.7

11-ketotestosterone (pg/mL)

Control (n = 54): 591.3

Treatment (n = 47): 530.4

Vitellogenin (mg/mL)

Control (n = 54): 0.18

Treatment (n = 47): 0.18

17-B

ETA

(pg/

ml)

0

200

400

600

800

1000

1200

Control Treatment

T/C

Missing Rows 25

Oneway Anova

Oneway Analysis of 17-BETA (pg/ml) By T/C

11-K

ETO

(pg/

ml)

100200300400500600700800900

1000110012001300

Control Treatment

T/C

Missing Rows 25

Oneway Anova

Oneway Analysis of 11-KETO (pg/ml) By T/C

VIT

ELLO

(pg/

ml)

-0.1

0.1

0.3

0.5

0.7

0.9

1.1

Control Treatment

T/C

Missing Rows 25

Oneway Anova

Oneway Analysis of VITELLO (pg/ml) By T/C

P = 0.001 P = 0.286 P = 0.986

5

5.5

6

6.5

7

6

6.25

6.5

6.75

7

7.25

0.1

0.3

0.5

0.7

0.9

ln 17-beta

5 5.5 6 6.5 7

ln 11-keto

6 6.25 6.5 6.75 7 7.25

sqrtvitello

.1 .2 .3 .4 .5 .6 .7 .8 .9 1

5.5

6

6.5

7

5.5

6

6.5

7

0.1

0.2

0.3

0.4

0.5

0.6

0.7

ln 17ß

5.5 6 6.5 7

ln 11Kt

5.5 6 6.5 7

ln vtg

.1 .2 .3 .4 .5 .6 .7

ln 17β ln 11-keto

ln Vtg

ln 17β 1.00 -0.89 0.74

ln 11-keto

-0.89 1.00 -0.73

ln Vtg 0.74 -0.73 1.00

Control Males Treatment Malesln 17β ln 11-

ketoln Vtg

ln 17β 1.00 -0.50 0.69

ln 11-keto

-0.50 1.00 -0.28

ln Vtg 0.69 -0.28 1.00

5

5.5

6

6.5

7

5

5.5

6

6.5

7

0.1

0.3

0.5

0.7

0.9

ln 17ß

5 5.5 6 6.5 7

ln 11Kt

5 5.5 6 6.5 7

ln vtg

.1 .2 .3 .4 .5 .6 .7 .8 .9 1

5

5.5

6

6.5

7

5

5.5

6

6.5

7

0.1

0.3

0.5

0.7

0.9

ln 17ß

5 5.5 6 6.5 7

ln 11Kt

5 5.5 6 6.5 7

ln vtg

.1 .2 .3 .4 .5 .6 .7 .8 .9 1

ln 17β ln 11-keto

ln Vtg

ln 17β 1.00 -0.67 0.52

ln 11-keto

-0.67 1.00 -0.70

ln Vtg 0.52 -0.70 1.00

Control Females Treatment Females

ln 17β ln 11-keto

ln Vtg

ln 17β 1.00 0.11 0.28

ln 11-keto

0.11 1.00 -0.36

ln Vtg 0.28 -0.36 1.00

We believe this study is highly representative of the biological effect of

endocrine-disrupting compounds on aquatic organisms at the landscape scale.

• This study quantified hormonal impairment; but not fertility or fecundity

New (Ongoing) Research

• Repeat design. • Quantify impairment following a 4 month

exposure .• Aromatase (?),GnRh, GtH I and II,

steroidal hormones, protein development, GSI, HSI, and histology.

• Provide environmental stimuli for spawning.

• Collect eggs and quantify fertility and fecundity of parent generation.

• F1 generation grown in effluent for one year for the determination of sex ratio and hormonal/morphological change.

• Compounds identified using POCIS and SPMD (David Alvarez/USGS-CERC).

• Sperm quality (Jill Jenkins/USGS)

Summary

• Biomarkers infer reproductive impairment, they don’t quantify it.

• Physiological impairment can occur without morphological change.

• Bio-indicator species selection should be ecosystem and objective-specific.

Acknowledgements

USFWS Dexter National Fish Hatchery and Technology Center.

USGS Toxics and Hydrology Program

This work was supported by State of Arizona funding,

through the Technology and Research Initiative..