Drainage Basin System (DP IB Geography)
Revision Note
Written by: Briley Habib
Reviewed by: Bridgette Barrett
Drainage Basin System
Drainage basins are areas of land where precipitation (rain or snow melt) drains downhill into a body of water such as a river, lake, wetland or ocean
Drainage basins are open systems with inputs, transfers and outputs
Features of a drainage basin include:
Watershed
Source
Tributary
Confluence
Floodplain
Mouth
Diagram showing the features of a drainage basin
After falling as precipitation, water can take many different routes before it reaches its end point
Water can be stored in the system for a few days, years or centuries in aquifers
Diagram of the hydrological cycle
Inputs, Flows, Outputs and Stores in the Drainage Basin
Inputs | Flows | Stores | Outputs |
---|---|---|---|
Precipitation | Throughflow Surface run-off (overland flow) Groundwater(base) flow infiltration Percolation | Cryosphere Channel stores
Soil Aquifers Atmosphere as water vapour | Transpiration Evaporation Sublimation |
Inputs
Precipitation is the primary input into the drainage basin
Precipitation is rainfall, snow, frost, hail and dew
Key characteristics of precipitation impacting local hydrology (movement of water) include:
Total amount of precipitation
Intensity
Type (e.g. snow or rain)
Geographic distribution
Variability
Flows
Infiltration
Infiltration is the process where water permeates, or is absorbed by the soil
Infiltration capacity is the maximum rate at which rain can be absorbed in a given condition
Infiltrated water becomes chemically enriched as it collects minerals and organic acids from vegetation and soil
Plant roots create fine channels for percolation known as percolines
Surface runoff
Overland flow (surface runoff) occurs when precipitation exceeds the infiltration rate or when the soil becomes saturated
High precipitation intensity and low infiltration capacity lead to common surface runoff in areas like semi-arid regions and cultivated fields
Surface flow happens near streams and river channels
Throughflow refers to water moving naturally through soil pipes and percolines
Base flow is the constant part of a river's discharge supplied by groundwater seepage into the riverbed, which slightly increases after wet periods
Stores
Vegetation
Vegetation interception is when water remains on the surface of the leaves before evaporation
Interception loss varies based on vegetation type
Coniferous trees intercept more water in winter
Deciduous trees intercept more water in summer
Soil
Soil moisture is subsurface water within the soil
Field capacity is the retained water level after excess drainage and near saturation
Wilting point is the moisture range causing permanent plant wilting and setting plant growth limits
Aquifers
Aquifers serve as significant water reserves
Water in aquifers moves slowly and absorbs rainfall that would otherwise rush into streams
Aquifers help maintain stream flow during extended dry spells
Aquifers can lead to springs, which can become the source of streams or rivers
Groundwater is subsurface water that percolates slowly into the rock beneath the soil
Percolation speed depends on rock permeability
Carboniferous limestone and chalk percolation speed can be relatively fast
The permanently saturated zone in rocks and sediments is the phreatic zone
The upper layer is known as the water table
Seasonally variability: aquifers are higher in winter due to increased precipitation
The seasonally wet and dry zone is called the aeration zone
Groundwater accounts for 96.5% of all freshwater on Earth but it can take up to 20,000 years to recycle
Aquifer
Groundwater recharge
Type of recharge | How groundwater recharges |
---|---|
Infiltration | Through total precipitation at ground surface |
Seepage | Through banks and beds of surface water |
Leakage and inflow | From adjacent rocks and aquifers |
Artificially | From irrigation and reservoirs |
Cryosphere
The cryosphere includes Earth's snow and ice
It contains up to 66% of the world's freshwater
Over 97% of Earth's water is salty and freshwater resources are limited
High-latitude and high-altitude regions store significant snow and ice
Seasonal melting plays a key role in altering the basin's hydrological cycle
Outputs
Evaporation is the conversion of liquid or solid substances into a gas
Evaporation:
Involves the transformation of precipitation into water vapour in the atmosphere
Is most prominent over oceans and seas and is influenced by climatic conditions
Increases under warm, dry conditions
Decreases under cold, calm conditions
Factors affecting evaporation include:
Temperature
Humidity
Wind speed
Availability of water
Vegetation
Surface colour
Evapotranspiration
Transpiration is the release of water vapour from living plants through their leaves and into the atmosphere
Evapotranspiration (EVT) represents the primary source of water loss
EVT accounts for nearly 100% of annual precipitation in arid areas and 75% in humid regions
Evaporative losses can occur over ice and snow fields, barren rock slopes, desert areas, water surfaces and bare soil
Potential evapotranspiration is determined by the availability of moisture.
The water budget
Water budgets are the annual balance between inputs and outputs
Water budgets can impact soil water availability
The balances can be calculated at various scales, from global to local
Water budgets at the regional level tell us the amount of water that is available for human use
On a local scale, the water budget can tell us how much water is available in the soil
Diagram showing the water budget
The water budget uses the following equation: P + Qin = ET + ∆S + Qout
P = precipitation (rain, snow, etc.)
Qin = water flow into the watershed
ET = quantity of evapotranspiration from soils, surface water, plants, etc.
∆S = Change in water storage
Qout = sum of water flowing out of the watershed
Factors influencing the water budget
Factors that can affect the water budget | How the water budget is affected |
---|---|
Permeable rocks and porous soils | Encourage infiltration and percolation, which means the flow is slowed down and there is an increased storage in the water basin |
Dense forests | Intercept rainfall, absorbing water through the canopy |
Shape, relief and size of drainage basin | Influence amount of water flowing overland |
Vegetation density | Affects patterns of water flow and stores in the basin |
Seasonality | There will be more water in wet seasons, which will create a water surplus |
Climate | Determines the amount and type of precipitation that transfers through a river basin |
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