2.4 What are the hydrological processes associated with drainage basins?

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Created on: 04-05-17 08:23

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2.4 What are the hyrdological processes associated with drainage basins?
- The drainage basin system: inputs, flows, stores and outputs
  - Inputs
    - Precipitation: ice and water that falls from the clouds in the form of rain, snow or hail
  - Flows
    - Throughfall and stemflow: occur through the vegetation
    - Infiltration: movement of water from above to below the surface of the ground
      - The rate of infiltration depends on the amount of water already in the soil, the porosity and structure of the soil, and the type and extent of vegetation
    - Percolation: the movement of water down through the soil and permeable rock
    - Surface runoff: travels across saturated or impermeable land
    - Throughflow: the movement of water through the soil towards the surface, often emerging on valley sides to form springs
    - Groundwater flow: the movement of water through rocks towards the surface
  - Outputs
    - River runoff
      - As water is carried overland to the sea
    - Evaporation
      - As water is changed to water vapour
    - Transpiration
      - The evaporation of moisture through the stomata on leaf surfaces
  - Stores
    - Interception: vegetation and other surfaces catch falling precipitation
      - Interception by vegetation may remove up to 30% of water from the system
    - Surface storage
      - Includes any body of water from a puddle to a lake
    - Soil water storage
      - Essential for plant growth
    - Groundwater stoage
      - In permeable rocks
        Large stores of groundwater are called aquifers and the surface of this underground water is the water table
  - Water budget
    - The balance between the water inputs and outputs
      - As river runoff and precipitation are easily measurable, it is possible to estimate evaportranspiration and changes in storage
        precipitation (P) = streamflow (Q) + evapotranspiration (E) +/- changes in storage (S) P=Q+E +/- S
  - A system
    - Definition: a set of objects or characteristics which are related to one another and operate together
    - Open systems: exchanges both energy and matter (drainage basin)
    - Closed systems: open only to transfer energy. it does not have any inputs/outputs of matter (water cycle)
    - The GLOBAL hydrological cycle- a CLOSED system
      - There is a fixed amount of water ciulating in our atmosphere and on the surface. There are no exchanges outside the earth and it's atmposhere
- The characteristics of river regimes and the physical and human factors influencing them
  - Climate
    - Humid environments
      - Rivers are fed by constant flow of groundwater and are described as having perennial flow regimes
    - Dry climates
      - Insufficent water to maintain channel flow, so these rtivers are described as intermittent flow rivers
    - Driest regions
      - Channels may be fed by occasional flash flooding and are described as having ephemeral flow regimes
    - Distinct wet and dy seaons e.g. monsoon climates
      - Reflected in the river regime which may flood during the rainy season
    - The regimes of rivers fed by snow and glacier meltwater show distinct peaks and troughs in their annual hyrdographs
    - Evapotranspiration is higher in the summer than in winter if there is a significant seasonal difference in temperature throughout the year
  - Geology
    - Permeable rocks may be:
      - Porous: containing pore spaces (sandstone and chalk)
      - Pervious: they contain joints and cracks through which water may travel (limestone)
      - Rivers running over permeable rocks will be more likely to dry up during droughts as water will be stored in the rock
    - Impermeable rocks
      - Water can only pass through fractures in these rocks (granite and basalt)
      - River systems running over impermeable rocks will be more prone to flooding as there is less groundwater storage
  - Land use
    - Presence or absence of forestry: determines the level of interception
      - Affects the time it takes for input from precipitation to work through the system and reach the river channel
    - Farming practices
      - The development of winter crops that are sown in late autumn means that fields are comparatively bare during the wetter winter months, reducing interception and increasing surface runoff
        Leads to higher discharge and a greater risk of flooding
      - Traditionally, farmers left their fields after harvest with the remains of the crop plants binding the soil
        Fields were ploughed in later winter and sown with spring crops
      - Irrigation; in some parts this had led to a significant impact on the volume of water stored in aquifers and affected the level of base flow
    - Ubanisation
      - Increase in impermeable sufaces
        Increase runoff and discharge
      - Decrease in vegetation
        Loss of infiltration=faster overland flow=increased risk of flooding
      - Pollution
        Impervious surfaces collect polluntants
  - River management
    - Dam-building has the most significant impact on the regime of a river
      - Following the construction of a dam, the downstream flow of water in the river is controlled and rearly affected by seasonal variations in precipitation or meltwater
    - People also affect discharge by changing the channel: straightening meanders, deepening the channel and canalising it increases the velocity
- The characteristics of flood hyrdographs and the human and physical factors influencing them
  - Hydrographs- show the variations in river discharge in response to a single rainfall event
  - Lag time: the difference between peak rainfall and the peak discharge
    - The time taken for the water to reach the river channel

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2.4 What are the hydrological processes associated with drainage basins?

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