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Development of Nutrient Water Quality Standards for Rivers and Streams in Ohio Ohio EPA ORSANCO, October 20, 2009 George Elmaraghy, P.E., Chief.

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Presentation on theme: "Development of Nutrient Water Quality Standards for Rivers and Streams in Ohio Ohio EPA ORSANCO, October 20, 2009 George Elmaraghy, P.E., Chief."— Presentation transcript:

1 Development of Nutrient Water Quality Standards for Rivers and Streams in Ohio Ohio EPA ORSANCO, October 20, 2009 George Elmaraghy, P.E., Chief

2 The Nutrient Conundrum Define criteria for natural constituents – Essentially asking how much is too much Linear dose-response model used for toxics does not apply – Wide variations Many cases where nutrients are high but aquatic life is maintained, or the converse – Indirect impacts on aquatic life Nutrient impacts are not direct, nutrients impact parameters such as D.O. which in turn impact aquatic life Risk management – Balance margin of safety without being over-protective

3 Biological Response to Nutrients and Toxic Pollutants Protect waters currently achieving Environmental Gradient Quality of Aquatic Life Response to Toxic Pollutants (e.g., NH3) Response to Nutrient Enrichment with “confidence intervals” Manage to control over-enrichment Proactive control for threatened waters based on secondary response indicators (i.e., chlorophyll, D.O.) Routine Monitoring EWH WWH

4 Stressor-response approach * Estimate a relationship between nutrient concentrations and biological response Relate to designated use (ideally quantitatively) Derive nutrient concentrations protective of designated uses from the observed relationships * Modified from “Empirical Approaches for Nutrient Criteria Derivation” draft SAB report, 2009

5 Approach Taken in Ohio Empirical Approach – field assessments on small streams and rivers up to 500 sq. mi. in drainage Concurrent chemical and biological measurements – Biology (fish, bugs), direct connection to our designated uses – Habitat (channel width and morphology, canopy) – Benthic algal biomass (Chlorophyll a) – Total inorganic nitrogen – Total Phosphorus – 24-hour dissolved oxygen 4 years of data

6 Effects-based Methods for Defining Nutrient Criteria Describe relationship between nutrient concentrations and benthic chlorophyll Linear regression Change-point analysis Describe relationship between benthic chlorophyll and hourly dissolved oxygen Linear regression Change-point analysis Describe relationship between dissolved oxygen and fish or macroinvertebrates Linear regression Change-point analysis Describe relationship between range in 24 hour D.O. and minimum D.O. at concentrations falling below WQS Linear regression End Result Detected relationships & “break point values” that we can apply in the management of nutrients on a watershed scale

7 Thresholds in Relationships Between Stressor and Response Variables Define Nutrient Criteria (all streams except nutrient sensitive streams) Nutrients DIN > 1.10 mg/l TP > 0.10 mg/l Light Canopy > 45 o open Benthic Chlorophyll > 194 mg/m 2 24 h D.O. Range > 7.0 mg/l Minimum D.O. < 5.0 mg/l Aquatic Life Elevated Risk of Impairment +

8 Thresholds in Relationships Between Stressor and Response Variables Define Nutrient Criteria (nutrient sensitive streams) Nutrients DIN > 0.44 mg/l TP > 0.04 mg/l Light Canopy > 45 o open Benthic Chlorophyll > 120 mg/m 2 24 h D.O. Range > 6.0 mg/l Minimum D.O. < 6.0 mg/l Aquatic Life Elevated Risk of Loss of Special Resource +

9 Application of Nutrient Criteria – Step 1 Confirm an Existing Problem or Threat High Nutrients [> 1.10 DIN, > 0.10 TP] Excess of Benthic Algae [> 194 mg/m 2 ] Wide D.O. Swings [> 7.0 mg/l] Nutrient Impairment confirmed [Step 2 – derive NPDES Limit or TMDL] Is Biology Impaired or only Marginally Attaining? No Yes Step 1a

10 Application of Nutrient Criteria – Step 1a Nutrient Sensitive Streams Benthic Algae [< 120 mg/m 2 ] D.O. Swings [< 6.0 mg/l] Minimum D.O. [> 6.0 mg/l] Number of EPT Taxa [>15] Nutrient Sensitive Stream [Step 2 – permit increased N or P loads carefully] Is the Stream Nutrient Sensitive? No Yes Stop

11 Application of Nutrient Criteria – Step 2 Implement in Management < 1.10 mg/l DIN < 0.44 mg/l < 0.10 mg/l TP < 0.04 mg/l Riparian Restoration Light Riparian Protection Protect Existing High Quality Waters Restore Impaired Waters Specifics on how to implement these criteria are still under development

12 Biological Response to Nutrients Protect waters currently achieving TP ~ 0.04 mg/l Environmental Gradient Quality of Aquatic Life Response to Nutrient Enrichment with “confidence intervals” Manage to control over-enrichment Proactive control for threatened waters based on secondary response indicators (i.e., chlorophyll, D.O.) Routine Monitoring TP ~ 0.10 mg/l EWH WWH

13 Schedule Small streams and rivers (< 500 sq. mi. drainage) – Begin rule making summer 2010 – Complete rule making summer 2011 Large rivers (> 500 sq. mi. drainage) – additional field work 2010 – 2012 – Complete rule making in 2013

14 Contact Information Email: george.elmaraghy@epa.state.oh.usgeorge.elmaraghy@epa.state.oh.us Phone: 614-644-2001 Fax: 614-644-2745 DSW Website: http://www.epa.ohio.gov/dsw/http://www.epa.ohio.gov/dsw/

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