7-1-1-the-global-hydrological-cycle

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 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

   

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