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A total maximum daily load (TMDL) is a regulatory term in the U.S.
Clean Water Act The Clean Water Act (CWA) is the primary federal law in the United States governing water pollution. Its objective is to restore and maintain the chemical, physical, and biological integrity of the nation's waters; recognizing the responsibiliti ...
, describing a plan for restoring impaired waters that identifies the maximum amount of a pollutant that a body of water can receive while still meeting water quality standards.


State and federal agency responsibilities

The Clean Water Act requires that state environmental agencies complete TMDLs for impaired waters and that the United States Environmental Protection Agency (EPA) review and approve / disapprove those TMDLs. Because both state and federal governments are involved in completing TMDLs, the TMDL program is an example of cooperative federalism. If a state doesn't take action to develop TMDLs, or if EPA disapproves state-developed TMDLs, the EPA is responsible for issuing TMDLs. EPA published regulations in 1992 establishing TMDL procedures. Application of TMDLs has broadened significantly in the last decade to include many watershed-scale efforts, including the Chesapeake Bay TMDL. TMDLs identify all point source and
nonpoint source Nonpoint source, or non-point source, or NPS, is a source that does not come from a single point. * Point source, contrasts with nonpoint source * Nonpoint source pollution, water pollution * Nonpoint source water pollution regulations, water pollu ...
pollutants within a
watershed Watershed is a hydrological term, which has been adopted in other fields in a more or less figurative sense. It may refer to: Hydrology * Drainage divide, the line that separates neighbouring drainage basins * Drainage basin, called a "watershe ...
.


State inventories

The Clean Water Act requires states to compile lists of water bodies that do not fully support
beneficial use "Beneficial use" is a legal term describing a person's right to enjoy the benefits of specific property, especially a view or access to light, air, or water, even though title to that property is held by another person. It is also referred to as " ...
s such as aquatic life,
fisheries Fishery can mean either the enterprise of raising or harvesting fish and other aquatic life; or more commonly, the site where such enterprise takes place ( a.k.a. fishing ground). Commercial fisheries include wild fisheries and fish farms, both ...
, drinking water, recreation, industry, or agriculture; and to prioritize those water bodies for TMDL development. These inventories are known as "303(d) lists" and characterize waters as ''fully supporting'', ''impaired'', or in some cases ''threatened'' for beneficial uses.


Planning process

Beneficial use determinations must have sufficient credible water quality data for TMDL planning. Throughout the U.S., data are often lacking adequate spatial or temporal coverage to reliably establish the sources and magnitude of water quality degradation. TMDL planning in large watersheds is a process that typically involves the following steps: # Watershed characterization—understanding the basic physical, environmental, and human elements of the watershed. # Impairment status—analyzing existing data to determine if waters fully support beneficial uses # Data gaps and monitoring report—identification of any additional data needs and monitoring recommendations # Source assessment—identification of sources of pollutants, and magnitude of sources. # Load allocation—determination of natural pollutant load, and load from human activities (i.e. diffuse nonpoint sources and point discharges). # Set targets—establishment of water quality targets intended to restore or maintain beneficial uses. # TMDL implementation plan—a watershed management strategy to attain established targets.


Water quality targets

The purpose of water quality targets is to protect or restore beneficial uses and protect human health. These targets may include state/federal numerical water quality standards or narrative standards, i.e. within the range of "natural" conditions. Establishing targets to restore beneficial uses is challenging and sometimes controversial. For example, the restoration of a fishery may require reducing temperatures, nutrients, sediments, and improving habitat. Necessary values for each pollutant target to restore fisheries can be uncertain. The potential for a water body to support a fishery even in a pristine state can be uncertain.


Background

Calculating the TMDL for any given body of water involves the combination of factors that contribute to the problem of nutrient concentrated runoff. Bodies of water are tested for contaminants based on their intended use. Each body of water is tested similarly but designated with a different TMDL. Drinking water reservoirs are designated differently from areas for public swimming and water bodies intended for fishing are designated differently from water located in wildlife conservation areas. The size of the water body also is taken into consideration when TMDL calculating is undertaken. The larger the body of water, the greater the amounts of contaminants can be present and still maintain a margin of safety. The ''margin of safety'' (MOS) is numeric estimate included in the TMDL calculation, sometimes 10% of the TMDL, intended to allow a safety buffer between the calculated TMDL and the actual load that will allow the water body to meet its beneficial use (since the natural world is complex and several variables may alter future conditions). TMDL is the end product of all point and non-point source pollutants of a single contaminant. Pollutants that originate from a point source are given allowable levels of contaminants to be discharged; this is the ''waste load allocation'' (WLA). Nonpoint source pollutants are also calculated into the TMDL equation with ''load allocation'' (LA).


Calculation

The calculation of a TMDL is as follows:
:TMDL = WLA + LA + MOS where WLA is the waste load allocation for point sources, LA is the load allocation for nonpoint sources, and MOS is the margin of safety.


Load allocations

Load allocations are equally challenging as setting targets. Load allocations provide a framework for determining the relative share of natural sources and human sources of pollution. The natural background load for a pollutant may be imprecisely understood. Industrial dischargers,
farmers A farmer is a person engaged in agriculture, raising living organisms for food or raw materials. The term usually applies to people who do some combination of raising field crops, orchards, vineyards, poultry, or other livestock. A farmer mi ...
, land developers, municipalities, natural resource agencies, and other watershed stakeholders each have a vested interest in the outcome.


Implementation

To implement TMDLs with point sources, wasteload allocations are incorporated into discharge permits for these sources. The permits are issued by EPA or delegated state agencies under the National Pollutant Discharge Elimination System ( NPDES). Nonpoint source discharges (e.g. agriculture) are generally in a voluntary compliance scenario. The TMDL implementation plan is intended to help bridge this divide and ensure that watershed beneficial uses are restored and maintained. Local watershed groups play a critical role in educating stakeholders, generating funding, and implementing projects to reduce nonpoint sources of pollution.


See also

*
Wastewater quality indicators Wastewater quality indicators are laboratory test methodologies to assess suitability of wastewater for disposal, treatment or reuse. The main parameters in sewage that are measured to assess the sewage strength or quality as well as treatmen ...
* Water pollution * Water quality modelling


References

*


External links


EPA TMDL ProgramEPA's AskWATERS Expert Query Tool
- data on TMDLs
EPA Water Quality Standards ProgramStochastic Empirical Loading and Dilution Model Documentation Page
- US Geological Survey
The Center for TMDL and Watershed Studies at Virginia Tech
{{DEFAULTSORT:Total Maximum Daily Load Hydrology Waste management concepts Water pollution in the United States Environmental law in the United States