In surface water hydrology and civil engineering, drawdown refers to the lowering of the surface elevation of a body of water, the water table, the piezometric surface, or the water surface of a well, as a result of the withdrawal or water.
In either case, drawdown is the change in hydraulic head or water level relative to the initial spatial and temporal conditions of the system. Drawdown is often represented in cross-sectional diagrams of aquifers. A record of hydraulic head, or rate of flow, versus time is more generally called a hydrograph. The main contributor to groundwater drawdown since the 1960s is over-exploitation of groundwater resources. Drawdown occurs in response to:
pumping from the bore
interference from a neighbouring pumping bore
in response to local, intensive groundwater pumping
regional seasonal decline due to discharge in excess of recharge
Terminology
Aquifer is an underground layer of permeable rock or sand, that hold or transmit groundwater below the water table that yield a significant supply of water to a well.
Aquifer test is a field experiment in which a well is pumped at a controlled rate and the aquifer's response is measured in one or more observation wells.
Cone of depression is a conically-shaped depression that is produced in a water table as a result of pumping water from a well at a given rate.
Pumping level is the level of water in the well during pumping.
Specific capacity is the well yield per unit of drawdown.
Static level is the level of water in the well when no water is being removed from the well by pumping.
Water table is the upper level of the zone of saturation, an underground surface in which the soil or rock is permanently saturated with water.
Well yield is the volume of water per unit time that is produced by the well from pumping.
Methods for measuring drawdown
Transducers are used to measure water levels in groundwater wells, rivers, streams, tanks, open channels and lift stations.
Acoustic well sounders or echometers are a simple, cost effective, and minimally intrusive tool used to measure subsurface pressures and levels.
Electric sounders are a practical land cost-effective method used to measure well water levels. This method uses a weight attached to a stranded insulated wire and an ammeter to indicate a closed circuit. Current supplied from a small battery flows through the circuit when the tip of the wire is in contact with the surface of the water.
Air line method is a convenient and nonintrusive method used to measure water levels that is often used for the repeated testing of wells over 300 feet deep. This method obtains water table depth using a pressure gauge and water displacement.
Wetted tape method is a commonly-used method for measuring water levels up to roughly 90 feet deep. This method uses a lead weight attached to a steel measuring tape.
Ecological impacts of groundwater drawdown
Groundwater drawdown due to excessive water extraction can have adverse ecological impacts. Groundwater environments often have high biodiversity, however, drawdown alters the amount and types of nutrients released to surrounding organisms. In addition, nearby wetlands, fisheries, terrestrial and aquatic habitats may be altered with a reduction in the water available to these ecosystems, sometimes altering species ecophysiology. Extracting groundwater at a rate that is faster than it can be naturally replenished is often referred to as overdrafting. Overdrafting may decrease the amount of groundwater that naturally feeds surrounding water bodies, including wetlands, lakes, rivers and streams. Additionally, when a cone of depression is formed around a pumping well due to groundwater extraction, nearby groundwater sources may flow toward the well to replenish the cone, taking water from local streams and lakes. This may result in poor water quality in these local water bodies as baseflow water contribution is reduced, which could result in perennial streams becoming more intermittent, and intermittent streams becoming more ephemeral. Finally, drawdown from groundwater extraction may lead to an increased sensitivity of the ecosystem to climate change and may be a contributing factor to sea-level rise and land subsidence.
