Assessment of Fish Population Health in the Vicinity of the Kingston Fly Ash Release Marshall Adams - Oak Ridge National Lab Allison Fortner – Arcadis.

Slides:

Advertisements

Similar presentations

Individual-based Models Three Examples

Advertisements

North Carolina Eastern Regional Mercury Study: Results Michelle Woolfolk NC Division of Water Quality Presented April 19, 2004 at the CSSA Meeting.

Framework for the Ecological Assessment of Impacted Sediments at Mining Sites in Region 7 By Jason Gunter (R7 Life Scientist) and.

Copyright of for more videos,visit us.

ECOSYSTEM MANAGEMENT BIOINDICATORS: THE ECOMAN PROJECT A multi-biomarker approach to ecosystem management Malcolm B. Jones Rebecca Brown, Mark Browne,

Fish Bioaccumulation Studies Associated with the Kingston Fly Ash Release Marshall Adams - Oak Ridge National Lab Tyler Baker - TVA Allison Fortner - Arcadis.

Mark S. Greeley 1, S. Marshall Adams 1, Tyler F. Baker 2, Logan R. Elmore 1, Mary K. McCracken 1, and Rick M. Sherrard 2 1 Oak Ridge National Laboratory.

Ecological Studies at the Kingston Ash Spill Site Marshall Adams, Mark Greeley, & John Smith - Oak Ridge Natl Lab Tyler Baker and Hill Henry - TVA Bill.

NASSCO and Southwest Marine Sediment Investigation Preliminary Results Thomas Ginn, Ph.D. Dreas Nielsen June 18, 2002.

Are There Effects at the Ecosystem Level? August 21, 2007 Robert L. Knight, Ph.D. Wetland Solutions, Inc. ( Springs and Nutrients.

River Corridor Closure Project Safety People Results U.S. Department of Energy Richland Operations Office 100 Area and 300 Area Component of RCBRA Steve.

Environment & Technology August 2011 The Effects of Fly Ash Release from the TVA Kingston Steam Plant on Fish TVA-Kingston Fly Ash Release Environmental.

Marine Ecology Applications for Stable Isotope Analysis

Lec 12: Rapid Bioassessment Protocols (RBP’s)

Trends in Bioaccumulation of Fly Ash Contaminants by Aquatic Invertebrates Downstream of the Tennessee Valley Authority Kingston Fossil Plant John G. Smith,

Indicator Species. What is an indicator species? A species whose presence, absence or abundance reflects a specific environmental condition, habitat or.

Environmental Monitoring Methods SOURCES Concentrations in media (external dose) Emission rates SOURCES Concentrations in media (external dose) Emission.

Waste Pharmaceuticals: The Road Forward Improving Patient Safety through Informed Medication Prescribing & Disposal Practices October 31, 2007 David P.

Current and Emerging Paradigms in Environmental Toxicology Lecture 2.

Assessing Fish Community Health following the Kingston Fly Ash Spill Anna L. George 1, David A. Neely 1, Shea R. Tuberty 2, Robert J. Mottice 1, Donna.

What are the potential impacts of climate change on fresh water recreational fishing opportunities in the U.S.? Presentation to: Water Ecology and Climate.

Nutritional requirements of fish

Freshwater Fish Species Wildlife, Fisheries and Ecology Roni Tarver.

Food Webs in the Ocean Andrew W Trites Marine Mammal Research Unit University of British Columbia Who eats whom and how much?

Caring for Older Adults Holistically, 4th Edition Chapter Six Nutrition for Older Adults.

Fish Nutrition. Definitions n Amino Acid –A building block for proteins; an organic acid containing one or more amino groups (-NH2) and at least on carboxylic.

Unit 1: The Language of Science  communicate and apply scientific information extracted from various sources (3.B)  evaluate models according to their.

Biology 211 Anatomy & Physiology I Orientation to Anatomy.

ABIOTIC. The pH of a stream or lake depends on the kinds of rocks and soil that water contacts. Proper pH is an important life requirement for all aquatic.

Sediment Quality in the Corpus Christi Bay Sediment Quality in the Corpus Christi Bay Natalie Bartosh GIS in Water Resources, Fall 2003 Dr. Maidment, The.

PREVIEW 1 ST SIX WEEKS – 5 WEEKS LONG 2 ND SIX WEEKS – 5 WEEKS LONG 3 RD SIX WEEKS – 6 WEEKS LONG 2 WEEKS OF TESTING SEMESTER ENDS BEFORE CHRISTMAS.

Compare and contrast prokaryotic and eukaryotic cells.[BIO.4A] October 2014Secondary Science - Biology.

HYDROLOGY AND ECOLOGY. HYDROLOGY WATER QUALITY HYDRAULICS GEOMORPHOLOGY ECOLOGY SOCIO/ECONOMICS RESEARCHTEACHINGPOLICYCONSULTANCY VERTICAL INTEGRATION.

TVA Kingston Ash Recovery Project Roane County, TN Project Update September, 2012 Neil Carriker.

Basics River continuum – transition from headwaters to large river Main variables on life: temperature, bottom type and water chemistry Temperature is.

Biology 211 Anatomy & Physiology I Dr. Thompson Orientation to the Human Body.

Quantifying the Role of Ecological Uncertainty in a Public Health Policy Decision Annual Meeting American Association for the Advancement of Science Seattle,

Telomeres, Mitosis, and Cancer. For life to exist, the information (genes) must be passed on.

CausesEffectsSolutions Objective: Understand Causes, Effects, and Solutions of Pollution DO NOW: What do you know about the causes, effects and solution.

Objective 3 The student will demonstrate an understanding of the interdependence of organisms and their environment.

Objectives: 1.Enhance the data archive for these estuaries with remotely sensed and time-series information 2.Exploit detailed knowledge of ecosystem structure.

National Aquatic Resource Surveys Wadeable Streams Assessment Overview November, 2007.

- Aquatics - Presented by: Rick Pattenden Mainstream Aquatics Ltd.

Biodiversity Biology ATAR Year 11 Biology 1AB Biology 3AB.

Wednesday October 7th In Notebook: Identify: a primary producer, primary consumer, and secondary consumer.

POLLUTION BY XENOBIOTICS : BIOMARKERS FOR EARLY DETECTION OF POLLUTION EFFECTS Ibon Cancio EUSKALHERRIKOUNIBERTSITATEA UNIVERSITY OF THE BASQUE COUNTRY.

Interpreting ecological effects; Ecological risk assessment 1.) biomonitoring - using biological systems to evaluate status of ecosystem (a.) exposure.

Egg production rates of the larger copepods in the Gulf of Alaska: Calanus marshallae, Calanus pacificus, Eucalanus bungii and Neocalanus flemingeri Russell.

Which species benefits from its interactions?

Physiological and behavioral effects of hypoxia on Atlantic croaker in the Chesapeake and Coastal Bays Andrea K. Johnson University of Maryland Eastern.

2.1 Section Objectives – page 35 Distinguish between the biotic and abiotic factors in the environment. Objectives: Explain the difference between a.

Mercury in the Ohio River A Modeling and Field Data Approach Presentation to: ORSANCO Reed Harris, David Hutchinson and Don Beals RHE Ltd. February 12,

Chapter 3 Ecology Energy Flow. Ecology is the study of the way living things interact with each other and their physical environment.

Cell Division and Cancer. CB 5.25 Genes are the parts of DNA that contain information. Protein.

Next previous presents: Fish ID: Slide set 6 of 9 Georgia Environmental and Natural Resources CDE Georgia Agricultural Education Curriculum Office Scott.

Kidney function tests Dr. Eva A Ajaj.

Betty Sawyer, M Ed RD LD Registered Clinical Dietitian

What is a ‘balanced‘ diet ?

Claudette Kellar Research Summit August 2016

Ecological Relationships

Community interactions are classified by whether they help, harm, or have no effect on the species involved Ecologists call relationships between species.

2.1 Introduction to Ecology and Ecosystems

Principles of Ecology: Relationships

V. Food Chains vs. Food Webs

Community interactions are classified by whether they help, harm, or have no effect on the species involved Ecologists call relationships between species.

Georgia Environmental and Natural Resources CDE

UNIT 4 – INTRODUCTION TO ECOLOGY

STOCK IT RIGHT MANAGE IT RIGHT

Presentation transcript:

Assessment of Fish Population Health in the Vicinity of the Kingston Fly Ash Release Marshall Adams - Oak Ridge National Lab Allison Fortner – Arcadis Swee Teh - Univ. California- Davis Mark Greeley - ORNL

Presentation Outline - Research objectives - Study Design - Results and major findings - individual responses - integrated (holistic) responses - causal relationships - Relevance and application

Objectives of Fish Health Studies Determine if fly ash exposure is causing short and/or long- term health effects on representative (sentinel) fish populations Evaluate potential causal relationships between bioaccumulation of metals in fish tissue and various indicators of fish health

Study Design Sample Frequency spring and fall each year since spring 2009 Health Indicators Measured - condition indices - bioenergetic indices - histopathology - organ dysfunction - carbohydrate-protein metabolism - electrolyte homeostasis - feeding and nutrition Fish Species Sampled Spring - bluegill, largemouth bass, redear sunfish, and while crappie Fall - bluegill, largemouth bass, and channel catfish Sample Sites sample sites along downstream gradient of Emory and Clinch Rivers - includes 2 instream reference sites

Bioaccumulation 25 metals + Hg Fly Ash Spill Exposure of Fish to Metals Whole fish MuscleLiverOvary Focus on sentinel species - sunfish - bass - catfish - crappie Analysis of Fish Health Assess Effects and Causality (different trophic levels and home ranges ) Physio- logical Repro- ductive Histo- path Bio- energetic

CRM 1.5 CRM 7 ERM 8 (Ref) CRM 8 ERM 0.9 ERM 3 Little Emory (Ref) CRM 25.0 (ref) Ash spill Sample Sites

Sentinel species for bioaccumulation and fish health studies Bluegill - mid trophic level/omnivore - restricted home range Largemouth bass - upper trophic level/predator - intermediate home range Channel catfish - bottom feeder/omnivore - large home range Gizzard Shad Redear Sunfish Types of Studies Bioaccumulation, fish health, and reconstruction analysis Bioaccumulation and fish health Bioaccumulation, fish health, and reconstruction analysis Bioaccumulation, fish health, & trophic analysis (stable isotopes) Bioaccumulation and role in food chain transfer of metals - exclusive molluscavore - high site fidelity - feeds on detritus & periphyton - large home range

Ecological Relevance Early warning, sensitivity, specificity Physiological Histopathological Reproductive Spring - Clutch size - Gonad condition - Egg quality - Oocyte atresia Indicators of: - organ dysfunction - electrolyte homeostasis - carbohydrate metabolism - protein metabolism - hematology - liver - gill - spleen - ovary (sp) Bioenergetic - condition factor - liver-somatic index - visceral-somatic index - lipid index - feeding & nutrition Measures of Fish Health Red = short-term and sensitive indicators Blue = longer term and more ecologically-relevant indicators Spring and Fall

Individual and Integrated Health Responses

Ash spill Bluegill Ref (Indicator of liver damage)

Ash spill Bluegill Ref

Ash spill Bluegill Ref (enzyme indicating liver damage) (indicator of gill damage)

Normal gill showing secondary lamellaeMucus cell hyperplasia in gill Mild mucus cell hyperplasia Severe mucus cell hyperplasia Example of Gill Histopathology

Bluegill Spring 2009 Bluegill Spring 2010 Condition factor Liver-somatic index Visceral-somatic index Feeding index Hematocrit Glucose Total protein Globulin Blood urea nitrogen Creatinine Liver enzyme Potassium Calcium Liver histopath Ovary histopath Condition factor Liver-somatic index Visceral-somatic index Feeding index Hematocrit Glucose Total protein Globulin Blood urea nitrogen Creatinine Liver enzyme Sodium Calcium Liver histopath Ovary histopath Variables used In analysis Integrated health responses

Largemouth Bass Ash spill Individual Responses Ref

Largemouth Bass Ash spill Ref (indicator of gill damage)

Largemouth bass Ash spill Ref (indicator of protein metabolism) (general stress indicator)

Largemouth bass Spring 2009 Largemouth bass Spring 2010 Condition factor Liver-somatic index Visceral-somatic index Feeding index Hematocrit Glucose Total protein Globulin Blood urea nitrogen Creatinine Liver enzyme Sodium Calcium Liver histopath Ovary histopath Condition factor Liver-somatic index Visceral-somatic index Feeding index Hematocrit Glucose Total protein Globulin Blood urea nitrogen Creatinine Liver enzyme Sodium Calcium Liver histopath Ovary histopath Variables use In analysis Integrated health responses (conical discriminant analysis )

Bluegill-fall 2009 Bluegill-fall 2010 Integrated health responses

Largemouth bass Fall 2009 Largemouth bass Fall 2010 CRM 8 Integrated health responses

Causal relationships between metal exposure and fish health

Selenium (mg/gmDW ) Bluegill Ref

Selenium (mg/gmDW ) (enzyme indicative of liver damage) Bluegill Ref

Selenium (mg/kgDW) Selenium in Fillets Largemouth Bass Ref

Largemouth Bass Selenium in Fillets Condition Factor Ref

Relevance and application of fish health studies

Establishing causal relationships among environmental variables Possible direct cause & effect relationship Possible spatial correlations (indirect causality) Bird bioaccumulation Bird Health Fish bioaccumulation Fish Health Macroinvert bioaccumulation Metals in water and sediment Metals in other biota - turtles - amphibians - raccoons

Summary - As demonstrated by individual bioindicators and the discriminant analysis procedure, the health of fish is generally poorer downstream of the fly ash spill than at reference areas - Food chain studies in combination with the use of multiple bioindicators provide a weight-of-evidence approach for evaluating possible causal relationships between exposure to fly ash metals and biological responses - Even though the health of fish immediately below the ash spill appears to be compromised to some degree, effects appears to be localized to a small area and to resident species - No significant health effects (i.e., damage or injury) have been observed in fish suggesting that: 1) metal exposure is not of sufficient magnitude or duration to elicit changes in biological responses, and/or 2) the rate of biological repair exceeds the rate of damage - From , improvement in health status (recovery) seen in bluegill and bass at 2 of the 3 sites downstream of the ash spill