The Global Hydrological Cycle (Edexcel A Level Geography)
Revision Note
Written by: Bridgette Barrett
Reviewed by: Jenna Quinn
Hydrological Cycle as a Closed System
The global hydrological cycle is a system.
There are open and closed systems:
Open systems have external inputs and outputs of energy and matter exchange at its boundaries
Closed systems only have energy as its input and output, matter is contained within the system boundary
Energy is from the sun which is irradiated back from Earth to space
Within global systems there are usually numbers of smaller subsystems e.g. drainage basin of a river
The global hydrological system is a closed system meaning there are no external inputs or outputs, water is not lost or gained from space
It is defined as :
'the continuous movement of water on, above and below the Earth's surface'
The cycle is a series of processes in which water is constantly recycled through the system
Evaporation - the sun evaporates surface water into vapour
Condensation - water vapour condenses and precipitates
Flows - water runs off the surface into streams and reservoirs or beneath the surface as ground flow
The hydrological cycle is powered by the sun.
The sun heats water in the oceans or on land and evaporation occurs
Water vapour then rises into the atmosphere and condenses to form clouds and this drives the atmospheric circulation
Cloud droplets then fall back to earth as precipitation
The hydrological cycle involves energy exchange, leading to local temperature fluctuations
As water evaporates, it uses energy from its surrounding to perform this process
This effectively cools the environment
The reverse happens when water condenses (heat is released)
This heat exchange influences the local climate
When a water droplet falls on a mountain or slope, high above sea level, it has a high amount of gravitational potential energy (GPE)
As the water droplet is in motion, the GPE turns to kinetic energy
This allows the water to move over the surface
Examiner Tips and Tricks
You could be asked to explain what a closed system is or how it operates. Try to give a definition of a closed system and then go on to describe how the flows and stores of water change despite the amount of water in the system staying the same. Then explain the reasons for those changes.
Water Stores
Water is defined as:
A colourless, tasteless, transparent, odourless liquid that forms the seas, rivers and precipitation
Freshwater makes up just 2.5% of all Earth's water
Approximately 1.6% of the freshwater is locked away:
68.7% as ice within the cryosphere
The remaining 30.1% is groundwater
In total, just 0.9% of the Earth's total freshwater, is accessible to humans
Major stores of water
Stores or reservoirs
The term refers to a body of water that acts as a holding point – not just a man-made lake
Water is stored within the major systems
Most water is stored as saline water in oceans and freshwater as ice or within aquifers (groundwater stores)
Frozen water in the cryosphere = 68.7%
Liquid water in the hydrosphere = 1%
Water vapour in the atmosphere = 0.2%
Groundwater in the lithosphere = 30.1%
Water is stored unevenly around the globe because of the uneven spread of land to sea and permeable or porous rock which enable aquifers to form
The hydrological cycle transfers water, the flows which enable this are known as fluxes
Annual flux are the variations in flows due to temperature, seasons and location
Flows such as evaporation will be greatest in warmer areas due to increased heating from the sun e.g. at the equator
This then leads to high rates of precipitation at the equator too
Stores such as ice caps will be getting smaller as a result of climate change whereas ocean stores will be increasing for the same reason
Global Water Budget
The global water budget is the difference between the inputs and outputs from the different stores
Water is stored for varying amounts of time
Residence times
The time water is held in a store is called the residence time
The size of the stores of water along with water residence time is dictated by:
Flows/transfers such as evaporation
Global factors such as climate change
Local factors such as human activity on a hillslope
Flows/transfers
Any change in the flow/transfer of water impacts the size of the water store and residence time of water
More precipitation generally increases the availability of water for storage
If the rainfall is too intense and surface flow increases, the opportunity for infiltration and water storage less
Climate change
During the last Ice Age (approx. 18,000 yrs ago), roughly a third of Earth's surface was covered in ice sheets and glaciers
This increased the magnitude (size) of the cryosphere's stores
But, it lowered the hydrosphere's store (no flow of liquid water) and sea levels were over 100 m lower than present day
Clouds and Precipitation
The global atmospheric circulation drives the formation of clouds and types of precipitation
The Equator receives more insolation, resulting in higher temperatures which cause high rates of evaporation
As the warm, moist air rises, it cools, condenses and forms banks of towering clouds with heavy rainfall
This area is a low-pressure zone known as the Inter-Tropical Convergence Zone (ITCZ)
The ITCZ (also called the 'thermal equator') tracks with the seasonal movement of the Sun, north and south of the equator bringing intense low-pressure rain/monsoon conditions with the movement
This shows temporal and spatial changes in stores and transfers on a global basis
Cryospheric processes
The second largest store of water is ice and 95% is locked as the ice sheets of Antarctica and Greenland
Any changes to the size (magnitude) of these sheets impact globally
The total melting of the ice sheets could result in a 60 m sea level rise, which is a lot of stored water
Melting of the ice sheets adds water to the hydrosphere store of the oceans
Ice shelves are further destabilised, which triggers ice calving, these icebergs subsequently melt; adding to the hydrosphere store and rising sea levels
This is a positive feedback loop
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