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2 – TMDL Development Essentials. Virginia Tech Biological Systems Engineering Department 2013. Overview/Objectives. Watershed Management – Understand watershed management concept with focus on adaptive management
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2 – TMDL Development Essentials Virginia Tech Biological Systems Engineering Department 2013
Overview/Objectives • Watershed Management – Understand watershed management concept with focus on adaptive management • TMDL Development Process - Identify the steps taken during development of a TMDL • TMDL Project Participants– Identify the groups and individuals involved in developing a TMDL
What is a Watershed? • The land area that drains to a common waterway, such as a stream, lake, estuary, wetland, or ultimately the ocean.
What is Watershed Management? • Watershed management recognizes that the water quality of our streams, lakes, and estuaries results from … • Human activities • Watershed characteristics in upstream areas • The goal of watershed management is … • An environmentally and economically healthy watershed • One that benefits all stakeholders (water quality and living resources) • Each watershed management plan includes • Unique goals • Site-specific management strategies to achieve those goals
Effective Watershed Planning is … • Iterative and adaptive • Holistic • Geographically defined • Integrated with other planning efforts • A collaborative and participatory process
Three Tiers of TMDL Program • TMDL Study • Development of an Implementation Plan • Implementation of Pollutant Control Measures
What is a TMDL? • A Total Maximum Daily Load (TMDL) quantifies the amount of a particular pollutant a waterbody can receive and still meet water quality standards (pollutant budget). TMDL = WLA + LA + MOS Where: WLA = waste load allocation (point sources) LA = load allocation (nonpoint sources) MOS = Margin of safety
8 Existing Condition TMDL Scenario Conceptual TMDL Concentration Water Quality Standard Concentration, C (mg/L) Time
TMDL Target Margin of Safety Concentration or Load Time Margin of Safety • MOS can be explicit or implicit
TMDL Development Process • Identify the extent/degree of the impairment • Pollutant identification, endpoint definition/comparison • Characterize watershed and pollutant sources • Determine existing and potential future pollutant loads (model inputs) • Watershed characterization (model inputs) • Link pollutant sources to waterbody water quality • Pollutant fate and transport modeling • Existing and future conditions • Use model to quantify the TMDL • Define the pollutant load reductions required to achieve applicable water quality criteria
1. Identify Extent of Impairment Assessment Period Water Quality Criterion
2. Characterize Watershed and Pollutant Sources • Gather and analyze existing data • Identify data gaps and, if possible, collect additional data • Identify and characterize pollutant sources • Assess unique features • Assess existing management measures • Tour the watershed
Pollutant Source Types • Nonpoint Sources (NPS) • Driven by rainfall-runoff • Agriculture, construction, forest harvesting, urban runoff • Direct input to water bodies • Independent of rainfall • Household sewage • Aquaculture and mariculture • Direct deposit • Point Sources (PS) • Independent of rainfall • Industrial and municipal sources
Wildlife Livestock Crops Forest Pasture Residential Stream Humans and Pets Sources and Distribution of Bacteria
Pollutant Source Load Inventory • Different source categories (e.g. by land use) • Loading mechanism • To the land surface (e.g. fertilizer) • Direct to stream • Point sources (e.g. industry) • Direct diffuse sources (e.g. household sewage) • Load estimates • Distributed spatially (e.g. by sub-watershed) • Distributed temporally (e.g. monthly)
3. Link Pollutant Sources to Water Quality • Watershed model • Watershed characterization • Source characterization • Climate variability • Fate and transport • Allocation analysis Models are used to predict how watersheds respond, and to evaluate pollutant reduction options = X Land use and Management Stream Network Source: EPA 841-B-05-005
Load at the Watershed Outlet Load Delivered to Edge-of-Stream The Role of Models in TMDLs Fate, Transformation, and Delivery Load Applied to the Land Direct Inputs
TMDL Modeling • Computer-based water quality simulation models used extensively to develop TMDLs • Many models have the capability to simulate watershed-scale processes over range of flow conditions and can evaluate effectiveness of proposed control measures (best management practices, BMPs) • Preferred models used in Virginia • HSPF – Hydrological Simulation Program-FORTRAN • GWLF – Generalized Watershed Loading Function
4. Use Model to Determine TMDL = X Land use and Management Stream Network Source: EPA 841-B-05-005 Identify reductions needed to meet water quality standards Alternative combinations of reductions from different sources Starting Load – Reductions = Allocated Load
TMDL Pollutant Budget Guidelines TMDL meets water quality standards Includes point and nonpoint sources Considers background contributions Considers critical conditions Considers seasonal variations Considers future growth Includes a margin of safety Includes public participation
Calculate Load Allocations by Source Example for bacteria
TMDL Report • Basis for the impairment • Watershed characterization • Model development • TMDL quantification • TMDL allocations • Next steps toward implementation • Reasonable assurance • Public participation
The TMDL Project Participants • TMDL Project Manager • Regional Biologist/Monitoring Staff • Permitting Staff • Contractor • Watershed Liaison • Technical Advisory Committee (TAC) • Stakeholders
TMDL Project Manager • Facilitates overall project progress • Coordinates DEQ data delivery to contractors (AWQM, DMR, SIR, VPDES, WWTP, fish advisories, consent decrees, etc.) • Manages schedule for interim product delivery • Evaluates and provides feedback on products http://media1.break.com/breakstudios/2013/7/18/The-Most-Interesting-Man-in-the-World-LARGE.jpg El Jefe “The Boss”
Regional Biologist/Monitoring Staff • Provides all monitoring data to TMDL Project Manager for delivery to Contractors • Provides a detailed basis for impairment • Responds to questions regarding impairment • Assists with interpretation of benthic metrics in light of local stream conditions
Permitting Staff • Reviews permit-related data and provides feedback to TMDL Project Manager for delivery to Contractors as needed • Provide interpretation/ clarification of permit as needed • Provides input on development of existing WLAs and WLAFG as needed
Contractor • Provides data analysis • Recommends TMDL endpoint and modeling approach as needed • Performs TMDL modeling • Creates alternative TMDL allocation scenarios • Writes the TMDL study report = X Land use and Management Stream Network Source: EPA 841-B-05-005
Watershed Liaison • Coordinates watershed visits • Identifies local issues • Arranges introductions to knowledgeable and vocal stakeholders • Helps arrange local public hearings
Technical Advisory Committee • Provides local insight on watershed issues, characteristics, etc. • Evaluates and provides feedback on interim data and results presented at TAC meetings • Evaluates and provides feedback on allocation scenarios
Stakeholders • Provide additional data (e.g. land use, future conditions, historical loads, local ag. practices) • Actively engage additional stakeholders – peer to peer outreach • Identify technical/data resources