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==A== | ==A== | ||
− | + | <dl> | |
− | + | <dt>Absorption</dt><dd> A physical or chemical phenomenon or a process in which atoms, molecules or ions enter some bulk phase – gas, liquid or solid material.</dd> | |
− | < | + | <dt>Access and egress control</dt><dd> Reinforced or rocked entrance and exit points to the site to deter tracking of sediment off the site onto adjacent streets.</dd> |
− | < | + | <dt>[[Karst|Active karst]] </dt><dd> A terrain having distinctive landforms and hydrology created primarily from the dissolution of soluble rocks within 50 feet of the land surface [Minn. R. 7090].</dd> |
− | < | + | <dt>Adsorption</dt><dd> The adhesion of an extremely thin layer of molecules to the surfaces of solid bodies or liquids with which they are in contact.</dd> |
− | < | + | <dt> Aggrade</dt><dd> The build up of sediment or eroded material.</dd> |
− | < | + | <dt>Anaerobic</dt><dd> Condition operating in a system where there is the absence of free oxygen available for biologic use.</dd> |
− | < | + | <dt>Animal waste management </dt><dd> Practices and procedures which prevent the movement of animal wastes or byproducts from feeding or holding areas into the wider environment.</dd> |
− | < | + | <dt>Annual load</dt><dd> Quantity of pollutants, sediment, or nutrients carried by a water body over the period of a year.</dd> |
− | < | + | <dt>Antecedent soil moisture</dt><dd> The water content held by a soil before a storm event. This has an effect on the amount of water that will run off from the location of direct precipitation due to that event.</dd> |
− | < | + | <dt>Applicable [http://stormwater.pca.state.mn.us/index.php/Overview_of_TMDLs Wasteload Allocation] (WLA)</dt><dd> A Wasteload Allocation assigned to the permittee and approved by the USEPA.</dd> |
− | < | + | <dt>Aquifer</dt><dd> A body of permeable rock that can contain or transmit groundwater.</dd> |
− | < | + | <dt>Atmospheric controls</dt><dd> Reducing or removing wind erosion, dust, or statutory emissions regulations.</dd> |
+ | </dl> | ||
==B== | ==B== | ||
− | + | <dl> | |
− | + | <dt>Baffle weir</dt> | |
− | + | <dd>A structure used in measuring the rate of flow fitted with a grating or plate across a channel or pipe which makes the flow more uniform in different parts of the cross section of the stream.</dd> | |
− | + | <dt>Bankfull</dt> | |
− | + | <dd>Flow in a stream or river where the water level is to the top of its bank. This is considered to be the channel forming flow and has a recurrence interval of around 2.5–years.</dd> | |
− | + | <dt>Bank stabilization</dt> | |
− | + | <dd>Activities undertaken to shore up or ensure the integrity of a stream or river bank and protect it from erosion and slumping.</dd> | |
− | + | <dt>Base flow</dt> | |
− | + | <dd>The flow coming from ground water inputs to a stream or river system.</dd> | |
− | + | <dt>Basin</dt> | |
− | + | <dd>A depression in the surface of the land that holds water.</dd> | |
− | + | <dt>Bed load</dt> | |
− | + | <dd>The sand, gravel or rocks which are transported along the stream bottom by traction, rolling, sliding or saltation.</dd> | |
− | + | <dt>Best Management Practice (BMP)</dt> | |
− | + | <dd>One of many different structural or non–structural methods used to treat runoff, including such diverse measures as ponding, street sweeping, filtration through a rain garden and infiltration to a gravel trench.</dd> | |
− | + | <dt>Better Assessment Science Integrating Point and Nonpoint Sources (BASINS)</dt> | |
− | + | <dd>A multipurpose environmental analysis system developed by the U.S. Environmental Protection Agency for water quality modeling purposes.</dd> | |
− | + | <dt>[[Better site design|Better site design]] (BSD)</dt> | |
− | + | <dd>The application of non–structural practices at residential and commercial sites to reduce impervious cover, conserve natural areas, and use pervious areas to more effectively treat stormwater runoff.</dd> | |
− | + | <dt>Biofiltration</dt> | |
− | + | <dd>A bioretention practice in which an underdrain is used. Typically, most of the water entering the biofiltration practice enters the underdrain and is returned to the stormwater system, but some water infiltrates (unless the BMP has an impermeable liner) or evapotranspires. The underdrain may be at or elevated above the bottom of the practice (i.e. at the media-soil interface). See [[Bioretention terminology]]<dd> | |
− | + | <dt>Bioinfiltration<dt> | |
− | + | <dd>A bioretention practice in which no underdrain is used. All water entering the bioinfiltration practice infiltrates or evapotranspires. See [[Bioretention terminology]].</dd> | |
− | + | <dt>Biological additives</dt> | |
− | + | <dd>Products which are formulated with specialized bacteria, enzymes, or other living components that can be added to boost pollution treatment efficiencies, eg. chitosan.</dd> | |
− | + | <dt>Biological oxygen demand (BOD)</dt> | |
− | + | <dd> A measure of the amount of oxygen required to biologically degrade organic matter in the water.<dd> | |
− | + | <dt>[[Bioretention|Bioretention]]</dt> | |
− | + | <dd>A soil and plant–based stormwater management best management practice (BMP) used to filter runoff.</dd> | |
− | + | <dt>Bog</dt> | |
− | + | <dd>A poorly drained, surface water fed, acidic area rich in accumulated plant material.</dd> | |
− | + | <dt>Bounce</dt> | |
− | + | <dd>Water level fluctuations due to topography, soils, and runoff inputs during and after precipitation events.</dd> | |
− | + | <dt>Brownfield</dt> | |
− | + | <dd>A brownfield is a property where redevelopment or reuse may be complicated by the presence (or likely presence) of contamination. Brownfields may include vacant parcels, depending on their prior use. A wide variety of contaminants may be found at a Brownfield site depending on the previous use.</dd> | |
− | + | <dt>Buffers</dt> | |
+ | <dd>A vegetative setback between development and streams, lakes, and wetlands whose aim is to physically protect and separate the resource from future disturbance or encroachment.</dd> | ||
+ | </dl> | ||
==C== | ==C== | ||
<dl> | <dl> | ||
<dt>Calcareous fen</dt> | <dt>Calcareous fen</dt> | ||
− | <dd> | + | <dd>A peat–accumulating wetland dominated by distinct ground–water inflows which is circum–neutral to alkaline and has high concentrations of calcium and low dissolved oxygen. The rarest wetland plant community in Minnesota. For more information see [https://files.dnr.state.mn.us/natural_resources/water/wetlands/calcareous_fen_fact_sheet.pdf list of MN calcareous fens].</dd> |
<dt>Catch basin</dt> | <dt>Catch basin</dt> | ||
− | <dd> | + | <dd> An inlet to the storm drain system that typically includes a grate or curb inlet.</dd> |
<dt>Catch basin insert</dt> | <dt>Catch basin insert</dt> | ||
− | <dd> | + | <dd>Devices that attach to the entrance of a catch basin or mount inside the catch basin. They are designed to improve stormwater quality by either preventing debris and pollutants from entering the basin, or by retaining or treating the water in the basin.</dd> |
− | <dt>Cation exchange capacity </dt><dd> | + | <dt>Cation exchange capacity </dt><dd> The degree to which a soil can adsorb and exchange cations. For more information, see [https://www.extension.purdue.edu/extmedia/AY/AY-238.html], [http://nmsp.cals.cornell.edu/publications/factsheets/factsheet22.pdf], [http://www.spectrumanalytic.com/support/library/ff/CEC_BpH_and_percent_sat.htm].</dd> |
− | <dt>Channel protection</dt> <dd> | + | <dt>Channel protection</dt> <dd> Actions taken to prevent habitat degradation and erosion that may cause downstream enlargement and incision in urban streams due to increased frequency of bankfull and sub–bankfull stormwater flows.</dd> |
− | <dt> Check dam</dt> <dd> | + | <dt> Check dam</dt> <dd>A structure, typically constructed of rock, sediment retention fiber rolls, gravel bags, sandbags, or other proprietary product, placed across a natural or man made channel or drainage ditch and designed to reduce scour and channel erosion by reducing flow velocity and encouraging sedimentation. See [http://stormwater.pca.state.mn.us/images/b/be/MIDS_Dry_Swale_Sections-SHEET_2.pdf swale cross-sections] with check dams. For more information, see Section 6.33 in [https://stormwater.pca.state.mn.us/index.php?title=Protecting_Water_Quality_in_Urban_Areas:_Best_Management_Practices_for_Dealing_with_Storm_Water_Runoff_from_Urban,_Suburban,_and_Developing_Areas_of_Minnesota Stormwater Best Management Practices Manual]. </dd> |
− | <dt>Chemical controls </dt> <dd> | + | <dt>Chemical controls </dt> <dd>Includes such activities as salt management, fertilizer/pesticide management, and spill prevention and containment</dd> |
<dt>Chemical oxygen demand </dt> <dd> The quantity of oxygen used in biological and non–biological oxidation of materials in water; a measure of water quality.</dd> | <dt>Chemical oxygen demand </dt> <dd> The quantity of oxygen used in biological and non–biological oxidation of materials in water; a measure of water quality.</dd> | ||
− | <dt>Chemical treatment</dt> <dd> | + | <dt>Chemical treatment</dt> <dd>Removal of pollutant from the water column via chemical means, eg. Ferric chloride, alum, polyacrylamides </dd> |
− | <dt>Cistern </dt> <dd> | + | <dt>Cistern </dt> <dd> A technique which captures and temporarily stores rooftop runoff at confined sites, gradually releasing it over pervious areas.</dd> |
− | <dt>Class V injection well </dt> <dd> | + | <dt>Class V injection well </dt> <dd>Any bored, drilled, or driven shaft, or dug hole that is deeper than its widest surface dimension, or an improved sinkhole, or a subsurface fluid distribution system (from [http://water.epa.gov/type/groundwater/uic/class5/index.cfm U.S. Environmental Protection Agency], June 2003). </dd> |
− | <dt>Cluster design </dt> <dd> | + | <dt>Cluster design </dt> <dd>A reduction of average lot size within a residential development in exchange for greater conservation of natural areas. </dd> |
− | <dt>Coincident peaks </dt> <dd> | + | <dt>Coincident peaks </dt> <dd> Upstream peak discharge arriving at the same time a downstream structure releases its peak discharge thus increasing the total discharge well above what it was on the pre-development hydrograph. </dd> |
− | <dt>Cold climate sizing </dt> <dd> | + | <dt>Cold climate sizing </dt> <dd> Sizing of stormwater practices to accommodate snowmelt. This is larger than rainfall–based criteria sizing in Minnesota since snowfall represents more than 10% of the annual precipitation. </dd> |
− | <dt>Computable pollutant </dt> <dd> | + | <dt>Computable pollutant </dt> <dd>A pollutant for which enough runoff concentration and BMP performance data is available to perform a site–based pollutant load calculation documenting no increase in loading. </dd> |
<dt>Conservation easement </dt> <dd>A restriction placed on a piece of property to protect the resources associated with the parcel. The easement is either voluntarily sold or donated by the landowner, and constitutes a legally binding agreement that prohibits certain types of development from taking place on the land. </dd> | <dt>Conservation easement </dt> <dd>A restriction placed on a piece of property to protect the resources associated with the parcel. The easement is either voluntarily sold or donated by the landowner, and constitutes a legally binding agreement that prohibits certain types of development from taking place on the land. </dd> | ||
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<dl> | <dl> | ||
<dt> Dead storage </dt> <dd> The permanent storage volume of a pond degrade downcutting where softer material is present in a stream channel. </dd> | <dt> Dead storage </dt> <dd> The permanent storage volume of a pond degrade downcutting where softer material is present in a stream channel. </dd> | ||
− | <dt>Denitrification </dt> <dd> | + | <dt>Denitrification </dt> <dd> A microbially facilitated process of nitrate reduction. </dd> |
− | <dt>Densimetric stratification </dt> <dd> | + | <dt>Densimetric stratification </dt> <dd> Impairment of vertical mixing and oxygenation of bottom water layers. </dd> |
− | <dt>Design storm streamflow </dt> <dd> | + | <dt>Design storm streamflow </dt> <dd> From a storm event used as a standard for which performance of stormwater management practices are measured. </dd> |
− | <dt>Detention time </dt> <dd> | + | <dt>Detention time </dt> <dd> The theoretical calculated time that a small amount of water is held in a settling basin.</dd> |
− | <dt>Disconnection </dt> <dd> | + | <dt>Disconnection </dt> <dd> Technique to spread runoff generated from rooftops or impervious surfaces into adjacent pervious areas where it can be filtered and infiltrated.</dd> |
− | <dt>Drainageway </dt> <dd> | + | <dt>Drainageway </dt> <dd> A course or channel along which water moves in draining an area. </dd> |
− | <dt>Drawdown time </dt> <dd> | + | <dt>Drawdown time </dt> <dd> The time from the high water level in a BMP to 1 to 2 inches above the bottom of the facility at the lowest part of the BMP. </dd> |
<dt>[http://stormwater.pca.state.mn.us/index.php/Stormwater_and_wellhead_protection Drinking water supply management area (DWSMA)] </dt> <dd> the surface and subsurface area surrounding a public water supply well, including the wellhead protection area, that must be managed by the entity identified in a wellhead protection plan. This area is delineated using identifiable landmarks that reflect the scientifically calculated wellhead protection area boundaries as closely as possible. </dd> | <dt>[http://stormwater.pca.state.mn.us/index.php/Stormwater_and_wellhead_protection Drinking water supply management area (DWSMA)] </dt> <dd> the surface and subsurface area surrounding a public water supply well, including the wellhead protection area, that must be managed by the entity identified in a wellhead protection plan. This area is delineated using identifiable landmarks that reflect the scientifically calculated wellhead protection area boundaries as closely as possible. </dd> | ||
− | <dt>Dry pond </dt> <dd> | + | <dt>Dry pond </dt> <dd> A water bearing stormwater management facility that controls peak runoff flows to receiving bodies such as rivers and streams which is typically free of water during dry periods, but filled during times of rainfall </dd> |
− | <dt>Dry well </dt> <dd> | + | <dt>Dry well </dt> <dd> A deep covered hole acting as an underground storage facility for stormwater until it seeps into the surrounding soil. </dd> |
</dl> | </dl> | ||
==E== | ==E== | ||
− | <dt> | + | <dt>Elution </dt> <dd> Washing out of ions in solution from a snowpack. </dd> |
<dt>Emergency Response Area (ERA) </dt> <dd> The part of the wellhead protection area that is defined by a one-year time of travel within the aquifer that is used by the public water supply well. | <dt>Emergency Response Area (ERA) </dt> <dd> The part of the wellhead protection area that is defined by a one-year time of travel within the aquifer that is used by the public water supply well. | ||
([https://www.revisor.mn.gov/rules/?id=4720.5250 Minnesota Rules, part 4720.5250], subpart 3). It is used to set priorities for managing potential contamination sources within the DWSMA. </dd> | ([https://www.revisor.mn.gov/rules/?id=4720.5250 Minnesota Rules, part 4720.5250], subpart 3). It is used to set priorities for managing potential contamination sources within the DWSMA. </dd> | ||
− | <dt> | + | <dt>Erosion </dt> <dd> The wearing down or washing away of the soil and land surface by the action of water, wind or ice. </dd> |
− | <dt> | + | <dt>Erosion control </dt> <dd> Any efforts to prevent the wearing or washing away of the soil or land surface. </dd> |
− | <dt> | + | <dt>Erosion control blanket </dt> <dd> A natural or geotextile mat placed in areas susceptible to erosion to hold the soil in place until it can be permanently stabilized through vegetation or armoring. </dd> |
− | <dt> | + | <dt>Eutrophic </dt> <dd> An environment which has an excessive concentration of nutrients. </dd> |
− | <dt> | + | <dt>Evaporation </dt> <dd> The process of changing from a liquid state into a gas. </dd> |
− | <dt> | + | <dt>Evapotranspiration </dt> <dd> Loss of water to the atmosphere as a result of the joint processes of evaporation and transpiration through vegetation. </dd> |
− | <dt> | + | <dt>Event–based load </dt> <dd> Quantity of pollutants, sediment, or nutrients carried by a water body for particular magnitude storm events. </dd> |
− | <dt> | + | <dt>Event mean concentration (EMC) </dt> <dd> The total constituent (pollutant) mass discharge divided by the total runoff volume. </dd> |
− | <dt> | + | <dt>Exfiltration </dt> <dd> uncontrolled outward leakage through cracks and interstices. </dd> |
− | <dt> | + | <dt>Extensive green roof </dt> <dd> Xeriscape type plantings in shallow, draughty growing medium typically on urban rooftops. </dd> |
− | <dt> | + | <dt>Extreme event </dt> <dd> An 100–year, 24–hour rain event or an 100–year, 10–day snowmelt event or greater. </dd> |
− | <dt>[http://stormwater.pca.state.mn.us/index.php/Extreme_flood_control_criteria_%28Vp100%29 | + | <dt>[http://stormwater.pca.state.mn.us/index.php/Extreme_flood_control_criteria_%28Vp100%29 Extreme flood] </dt> <dd> Control for the 100–year, 24–hour or larger events, to maintain the boundaries of the pre-development 100–year floodplain, reduce flooding risks to life, reduce property damage, and protect the physical integrity of the stormwater management practices. </dd> |
==F== | ==F== | ||
<dl> | <dl> | ||
− | <dt> | + | <dt>Fen </dt> <dd> A peat accumulating wetland that receives some drainage from surrounding mineral soils and usually supports marsh–like vegetation. Richer in nutrients and less acidic than bogs due to ground water inflows.</dd> |
− | <dt> | + | <dt>Ferrocyanide</dt> <dd>An anti–caking additive to road salt; when converted to its free cyanide form (FCN) becomes extremely toxic to aquatic life.</dd> |
− | <dt> | + | <dt>Field capacity </dt> <dd> Is the bulk water content retained in soil at −33 J/kg (or −0.33 bar) of hydraulic head or suction pressure. This is often assumed to be the soil water content at which excess water has drained away and the rate of downward movement has materially decreased.</dd> |
− | <dt> | + | <dt>Filter bed </dt> <dd> A sand or gravel bottomed treatment used to filter stormwater.</dd> |
− | <dt> | + | <dt>Filtration </dt> <dd> A series of processes that physically removes particles from water.</dd> |
− | <dt> | + | <dt>First flush </dt> <dd> The majority of pollutants carried in urban runoff are carried in the first ½” of runoff from a site.</dd> |
− | <dt> | + | <dt>Floodplain </dt> <dd> Land adjacent to a waterbody which is inundated when the discharge exceeds the conveyance capacity of the normal channel. Often defined in a regulatory sense as the extent of the 100–year flood.</dd> |
− | <dt> | + | <dt>Flow control</dt> <dd> Controlling the rate and volume of water leaving a site.</dd> |
− | <dt> | + | <dt>Forebay </dt> <dd> An extra storage space or small basin located near the inlet to settle out incoming sediments before water moves on into a pond or detention area.</dd> |
− | <dt> | + | <dt>Freeze–thaw cycle </dt> <dd> The alternation between freezing and thawing in the snowpack. This cycle changes the composition and characteristics of the snowpack and can effect its pollutant carrying ability and the amount of runoff generated.</dd> |
− | <dt> | + | <dt>Frequency curve </dt> <dd> A derivative of the probability curve that expresses the relation between the frequency distribution plot, with the magnitude of the variables on one axis and the number of occurrences of each magnitude in a given period as the other.</dd> |
− | <dt> | + | <dt>Frost heave </dt> <dd> A phenomenon in cold areas in which water that is trapped in soil or cracks in rocks alternately freezes and thaws. This causes the water to expand and contract which can cause significant movement and upheaval of the soil or rock.</dd> |
− | <dt> | + | <dt>Functional components approach </dt> <dd> An approach where basic BMP components are selected and pieced together to achieve a desired outcome.</dd> |
</dl> | </dl> | ||
==G== | ==G== | ||
<dl> | <dl> | ||
− | <dt> | + | <dt>Geomorphology</dt> <dd>The study of the form and development of the landscape.</dd> |
− | <dt> | + | <dt>Gleyed </dt><dd> A blue–gray, sticky, compacted soil, usually indicative of saturated conditions.</dd> |
− | <dt> | + | <dt>Global warming </dt><dd> The progressive gradual rise of the Earth’s surface temperature thought to be caused by the greenhouse effect, which may be responsible for changes in global climate patterns.</dd> |
− | <dt> | + | <dt>Grade breaks </dt><dd> Point where the ground slope changes.</dd> |
− | <dt> | + | <dt>Grass channels </dt><dd> A natural open channel conveyance system which is preferable to curb and gutter where development density, soils, and slopes permit.</dd> |
− | <dt> | + | <dt>Green infrastructure </dt><dd>A wide array of practices at multiple scales that manage wet weather and that maintains or restores natural hydrology by infiltrating, evapotranspiring, or harvesting and using stormwater. On a regional scale, green infrastructure is the preservation or restoration of natural landscape features, such as forests, floodplains and wetlands, coupled with policies such as infill and redevelopment that reduce overall imperviousness in a watershed. On the local scale, green infrastructure consists of site and and neighborhood-specific practices, such as bioretention, trees, green roofs, permeable pavements and cisterns.</dd> |
− | <dt> | + | <dt>Green roof </dt><dd> A rooftop treatment practice where a thin planting media is established on roof surfaces and then planted with hardy, low–growing vegetation</dd> |
− | <dt> | + | <dt>Groundwater </dt><dd> Water occupying the sub–surface saturated zone.</dd> |
− | <dt> | + | <dt>Groundwater mounding </dt><dd> The localized rise in water table or potentiometric surface caused by the addition or injection of water.</dd> |
− | <dt> | + | <dt>Gully erosion </dt><dd> The widening, deepening and head cutting of small channels and waterways (rills) due to erosion by water or snowmelt, typified by channels one foot or more deep.</dd> |
</dl> | </dl> | ||
==H== | ==H== | ||
<dl> | <dl> | ||
− | <dt> | + | <dt>Head </dt><dd> The difference in elevation between two points in a body of water and the resulting pressure of the fluid at the lower point. </dd> |
− | <dt>HEC–1 </dt><dd> | + | <dt>HEC–1 </dt><dd> A rainfall–runoff model developed by the U.S. Army Corps of Engineers.</dd> |
− | <dt>HEC–2 </dt><dd> | + | <dt>HEC–2 </dt><dd> A rainfall–runoff model developed by the U.S. Army Corps of Engineers to compute steady–state water surface elevation profiles in natural and constructed channels.</dd> |
− | <dt> | + | <dt>High density residential </dt><dd> A high concentration of housing units in a specific area or on a specific property, typical of urban areas.</dd> |
− | <dt> | + | <dt>Hotspot </dt><dd> Point source potential pollution generating land uses such as gas stations, chemical storage facilities, industrial facilities, etc. </dd> |
− | <dt> | + | <dt>Housekeeping (BMP) </dt><dd> Any of a number of BMPs designed to keep pollutants from entering the waste stream by maintaining clean conditions, including street sweeping, litter pick–up and animal clean–up.</dd> |
− | <dt> | + | <dt>Hybrid rule </dt><dd> Current MPCA water quality volume criteria in the General Permit, so called due to encompassing four different rules depending on the type of BMP used and whether the receiving water is indicated as a Special Water.</dd> |
− | <dt>HydroCAD </dt><dd> | + | <dt>HydroCAD </dt><dd> A computer aided design program for modeling the hydrology and hydraulics of stormwater runoff.</dd> |
− | <dt> | + | <dt>Hydrograph </dt><dd> Graphical representation of stage or discharge at a point in a drainage as a function of time.</dd> |
− | <dt>[[Design infiltration rates| | + | <dt>[[Design infiltration rates|Hydrologic soils groups]] </dt><dd> A NRCS designation to give different soil types to reflect their relative surface permeability and infiltrative capability. Rankings for from high infiltration rates in Group A to very low infiltration rates in Group D.</dd> |
− | <dt> | + | <dt>Hydrology </dt><dd> The science dealing with the properties, distribution, and circulation of water hydroperiod the length of time an area is inundated or saturated by water.</dd> |
</dl> | </dl> | ||
==I== | ==I== | ||
<dl> | <dl> | ||
− | <dt> | + | <dt>Impaired waters </dt><dd> Streams or lakes that do not meet their designated uses because of excess pollutants or identified stressors</dd> |
− | <dt> | + | <dt>Impervious surface </dt><dd> Means a constructed hard surface that either prevents or retards the entry of water into the soil and causes water to run off the surface in greater quantities and at an increased rate of flow than prior to development. Examples include rooftops, sidewalks, patios, driveways, parking lots, storage areas, and concrete, asphalt, or gravel roads</dd> |
− | <dt>Impervious surface ('''MIDS definition''') </dt><dd> | + | <dt>Impervious surface ('''MIDS definition''') </dt><dd> A surface that impedes the infiltration of rainfall and results in an increased volume of surface runoff (see also [[Glossary#I|the definition in the glossary]] of this manual).</dd> |
− | <dt> | + | <dt>Infiltration </dt><dd> flow of water from the land surface into the subsurface (see [[Design infiltration rates]])</dd> |
− | <dt> | + | <dt>Individual permit </dt><dd> necessary if activities are not covered under one of the state’s general permit provisions</dd> |
− | <dt> | + | <dt>Industrial materials or activities </dt><dd> include but are not limited to material handling equipment or activities, industrial machinery, raw materials, intermediate products, by-products, final products, or waste products.</dd> |
− | <dt> | + | <dt>Inlet protection </dt><dd> preservation of the integrity and protection from the erosion of the area where water enters into a treatment area usually by vegetation or armoring.</dd> |
− | <dt> | + | <dt>Intensity–duration–frequency curves (IDF) </dt><dd> graphical representation of the intensity, duration, and frequency of a differing rainfalls over time.</dd> |
− | <dt> | + | <dt>Intensive green roof </dt><dd> rooftop systems including earth-bermed structures which ar reliant on rich, deep substrates and may include shrubs or trees.</dd> |
− | <dt> | + | <dt>Interflow </dt><dd> water that travels laterally or horizontally through the aeration zone during or immediately after a precipitation event and discharges into a stream or other body of water.</dd> |
− | <dt> | + | <dt>Interstitial water </dt><dd> water in the pore spaces of soil or rock.</dd> |
− | <dt> | + | <dt>Ion exchange </dt><dd> an exchange of ions between two electrolytes or between an electrolyte solution and a complex.</dd> |
− | <dt> | + | <dt>Isopluvial </dt><dd> line on a map along which an equal percentage of the total annual precipitation falls in a given season or month.</dd> |
<dt>Issue Paper </dt><dd> one in a series of nine decision papers on key topics developed by CWP and EOR during production of the manual.</dd> | <dt>Issue Paper </dt><dd> one in a series of nine decision papers on key topics developed by CWP and EOR during production of the manual.</dd> | ||
</dl> | </dl> | ||
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==W== | ==W== | ||
− | + | <dl> | |
− | + | <dt>Walker Method </dt><dd> a method for determining sizing for water detention ponds, developed in the upper Midwest to maximize phosphorus removal to protect sensitive lakes from eutrophication.</dd> | |
− | + | <dt>Wasteload Allocation (WLA) </dt><dd> is the portion of a receiving water's assimilative capacity that is allocated to one of its existing or future point sources of pollution.</dd> | |
− | + | <dt>water balance </dt><dd> A hydrological formula used by scientists and land managers to determine water surpluses and deficits in a given area. Includes inputs such as precipitation; outputs such as evapotranspiration, infiltration, and runoff; and storage within the system.</dd> | |
− | + | <dt>water holding capacity </dt><dd> the amount of water that can be held in a soil between saturation and a specific pressure. Field capacity (1/3 bar pressure) and wilting point (15 bar pressure) are commonly used to define a soil's water holding capacity.</dd> | |
− | + | <dt>[https://stormwater.pca.state.mn.us/index.php/Unified_sizing_criteria_section water quality sizing] </dt><dd> tied to the volume of stormwater runoff.</dd> | |
− | + | <dt>[https://stormwater.pca.state.mn.us/index.php/Unified_sizing_criteria_section water quality volume] </dt><dd> The volume of water that is treated by a BMP. To meet the requirements of the Construction Stormwater General Permit, the Water Quality Volume means one (1) inch of runoff from the new impervious surfaces created by the project (calculated as an instantaneous volume) and is the volume of water to be treated in the Permanent Stormwater Management System, as required by the permit.</dd> | |
− | + | <dt>watershed </dt><dd> a topographically defined area within which all water drains to a particular point.</dd> | |
− | + | <dt>watershed inch </dt><dd> a unit of measure corresponding to the volume of water spread out over the entire watershed area at a depth of one inch.</dd> | |
− | + | <dt>waters of the State </dt><dd> All streams, lakes, ponds, marshes, watercourses, waterways, wells, springs, aquifers, irrigation systems, drainage systems, and all other bodies or accumulations of water surface or underground, natural or artificial, public or private, which are contained within, flow through or under the state or any portion thereof.</dd> | |
− | + | <dt>waters of the United States </dt><dd> those waters coming under federal jurisdiction.</dd> | |
− | + | <dt>weir </dt><dd> a spillover dam–like device used to measure or control water flow.</dd> | |
− | + | <dt> Wellhead Protection Area (WHPA) </dt><dd> the surface and subsurface area surrounding a well or well field that supplies a public water system, through which contaminants are likely to move toward and reach the well or well field ([https://www.revisor.mn.gov/statutes/?id=103I.005 Minnesota Statutes, section 103I.005], subdivision 24).</dd> | |
− | + | <dt>wetland </dt><dd> land that is transitional between aquatic and terrestrial ecosystems and must: have a predominance of hydric soils, be inundated or saturated by surface water or ground water at a frequency and duration sufficient to support a prevalence of hydrophytic vegetation typically adapted for life in saturated soil conditions, and under normal circumstances support a prevalence of hydrophytic vegetation. To be a wetland the area must meet wetland criteria for soils, vegetation, and hydrology as outlined in the 1987 U.S. Army Corps of Engineers Wetland Delineation Manual.</dd> | |
− | + | <dt>wetland systems </dt><dd> hydrologically interconnected series of wetlands which includes the interrelatedness of habitat, wetland functions, and biology.</dd> | |
− | + | <dt>wet pond </dt><dd> a permanent pool of water for treating incoming stormwater runoff.</dd> | |
− | + | <dt>wet vault </dt><dd> A wet vault is a vault stormwater management device with a permanent water pool, generally 3 to 5 feet deep.</dd> | |
+ | <dt>wilting point </dt><dd> permanent wilting point or wilting point is the minimal point of soil water the plant requires not to wilt. This is often taken to be the water content at 15 bars pressure.</dd> | ||
+ | </dl> | ||
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This page was last edited on 11 July 2024, at 18:53.