Chapters :
  •  Biogeochemical Cycles -01
  • The Hydrological Cycle or The Water Cycle
  • Major Water Sinks
  • Processes involved

Biogeochemical Cycles -02

The Hydrological Cycle or The Water Cycle :

70% of the earth’s surface is covered with water but still, the world is facing an acute water crisis. This is because, out of total water available on earth, 97.5% is saltwater. Of the remaining water, 99% is locked in glaciers and underground sources. So, technically, less than 1% of fresh water is available for human use in the form of rivers, lakes, streams, etc. please note that this less than 1% water availability is sufficient to fulfil the needs of even the last man on this planet. But owing to human encroachments at all levels, the existence of mankind will be at risk in the near future if proper precautionary measures for optimum use of water resources are not put in place. For instance, 12% of the Indian population is already at the brunt of the “day zero” scenario.  To tackle this global problem of the water crisis, let us understand the genesis of the water cycle through this article.

Hydrological cycle (Water cycle)

The water cycle is defined as continuous circulation of water from the earth to atmosphere and vice versa which is powered by the energy of the sun. It shows storage and movement of water between biosphere, lithosphere and hydrosphere.

Major Water Sinks

Water can be stored in any of the reservoirs like atmosphere, oceans, lakes, rivers, soils, glaciers, snowfields and groundwater.

Processes involved

  • The processes involved in the movement of water from one reservoir to another are-
    • Evaporation, condensation, precipitation, deposition, runoff, infiltration, sublimation, transpiration, melting and groundwater flow.
  • The driving source of energy for the water cycle is solar radiation or solar energy.
  • Evaporation and precipitation are the main processes involved in the water cycle.
  • Some of the processes are discussed below:
    • Evaporation– Water from ocean, lakes, ponds, rivers and streams evaporates by sun’s heat and energy. Water remains in vapour state in air and forms cloud.
    • Transpiration– Evaporation through the plant surface due to solar energy is known as transpiration. Plants also transfer a huge amount of water in the atmosphere through transpiration. 
    • Precipitation– Cloud meets with the cold air in the mountains and above forest regions and condenses to form rain precipitates.
    • Condensation– It is the process by which water vapours in the atmosphere gets converted into liquid droplets.
    • Runoff: Water discharged from the surface is known as runoff. If it is discharged through rivers, it is known as river runoff.
The ocean supplies most of the evaporated water. On average 84% of water loss from the oceans through evaporations while 77% gained by precipitation. Water from runoff, streams and river covers the 7% to balance evaporation deficit of oceans. On land, evaporation is 16% and precipitation is 23%.
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