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Distribution of water resources

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Cecille Mae
Cecille Mae

Distribution of water resources

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DISTRIBUTION OF WATER RESOURCES Amazona, Ma. Faye Monette U. Nolasco, Cecille Mae D. Orongan, Patricia Louise U. Physical Science MW 4:30 – 6:00 pm Sir John Paul Lesondato
  DISTRIBUTION OF EARTH’S WATER HYDROLOGIC CYCLE  DIFFERENT PROCESSES
DISTRIBUTION OF EARTH’S WATER
The left-side bar shows where the water on Earth exists; about 97 percent of all water is in the oceans. The middle bar shows the distribution of that three percent of all Earth's water that is freshwater. The majority, about 69 percent, is locked up in glaciers and icecaps, mainly in Greenland and Antarctica.
You might be surprised that of the remaining freshwater, almost all of it is below your feet, as ground water. No matter where on Earth you are standing, chances are that, at some depth, the ground below you is saturated with water.
Of all the freshwater on Earth, only about 0.3 percent is contained in rivers and lakes—yet rivers and lakes are not only the water we are most familiar with, it is also where most of the water we use in our everyday lives exists.
HYDROLOGIC CYCLE
Water cycle The water cycle, also known as the hydrologic cycle or H2O cycle, describes the continuous movement of water on, above and below the surface of the Earth. Water can change states among liquid, vapor, and ice at various places in the water cycle.
Although the balance of water on Earth remains fairly constant over time, individual water molecules can come and go. Over geologic time, water-rich planets such as the Earth lose gases such as Hydrogen over time, which can lead to run away greenhouse effects which in turn accelerate Hydrogen loss, and by association water loss, from a planet's atmosphere.
Description The sun, which drives the water cycle, heats water in oceans and seas. Water evaporates as water vapor into the air. Ice and snow can sublimate directly into water vapor.
Evapotranspiration is water transpired from plants and evaporated from the soil. Rising air currents take the vapor up into the atmosphere where cooler temperatures cause it to condense into clouds.
Air currents move water vapor around the globe, cloud particles collide, grow, and fall out of the sky as precipitation. Some precipitation falls as snow or hail, and can accumulate as ice caps and glaciers, which can store frozen water for thousands of years.
Snowpacks can thaw and melt, and the melted water flows over land as snowmelt. Most water falls back into the oceans or onto land as rain, where the water flows over the ground as surface runoff. A portion of runoff enters rivers in valleys in the landscape, with streamflow moving water towards the oceans.
Runoff and groundwater are stored as freshwater in lakes. Not all runoff flows into rivers, much of it soaks into the ground as infiltration. Some water infiltrates deep into the ground and replenishes aquifers, which store freshwater for long periods of time.
Some infiltration stays close to the land surface and can seep back into surface-water bodies (and the ocean) as groundwater discharge. Some groundwater finds openings in the land surface and comes out as freshwater springs. Over time, the water returns to the ocean, where our water cycle started.
Different Processes
Precipitation  Condensed water vapor that falls to the Earth's surface . Most precipitation occurs as rain, but also includes snow, hail, fog drip, graupel, and sleet. Approximately 505,000 km3 (121,000 cu mi) of water fall as precipitation each year, 398,000 km3 (95,000 cu mi) of it over the oceans.
TYPES OF PRECIPITATION  Rain >sleet- very cold and the rain water becomes partly frozen because of hail and snow or snow and rain that is melting as it falls. >drizzle- are water droplets that fall very fine that they hardly be noticed and could be blown by gentle wind as they fall.
 Snow- frozen water vapor where the temperature is dropped below freezing point.  Hails- it precipitates may be in the form of pellet-like masses of ice and snow. *hailstones- tiny balls of alternating layers of snow and ice. Hailstorms- when the hails fall.
Canopy interception  The precipitation that is intercepted by plant foliage and eventually evaporates back to the atmosphere rather than falling to the ground. Snowmelt  The runoff produced by melting snow.
Runoff  The variety of ways by which water moves across the land. This includes both surface runoff and channel runoff. As it flows, the water may seep into the ground, evaporate into the air, become stored in lakes or reservoirs, or be extracted for agricultural or other human uses.
Infiltration  The flow of water from the ground surface into the ground. Once infiltrated, the water becomes soil moisture or groundwater. Transpiration  The release of water vapor from plants and soil into the air. Water vapor is a gas that cannot be seen.
Subsurface Flow  The flow of water underground, in the vadose zone and aquifers. Subsurface water may return to the surface (e.g. as a spring or by being pumped) or eventually seep into the oceans. Water returns to the land surface at lower elevation than where it infiltrated, under the force of gravity or gravity induced pressures. Groundwater tends to move slowly, and is replenished slowly, so it can remain in aquifers for thousands of years.
Evaporation  The transformation of water from liquid to gas phases as it moves from the ground or bodies of water into the overlying atmosphere. The source of energy for evaporation is primarily solar radiation. Evaporation often implicitly includes transpiration from plants, though together they are specifically referred to as evapotranspiration. Total annual evapotranspiration amounts to approximately 505,000 km3 (121,000 cu mi) of water, 434,000 km3 (104,000 cu mi) of which evaporates from the oceans.
Saturation  a process where the water vapor fills up the air above us. The amount of moisture or vapor filling the air is called humidity. It is the direct result of saturation.  The evaporation slows down, that is the time that we feel very warm since the sweat from our bodies could no longer vaporize.
Sublimation  The state change directly from solid water (snow or ice) to water vapor. Advection  The movement of water — in solid, liquid, or vapor states — through the atmosphere. Without advection, water that evaporated over the oceans could not precipitate over land.
Condensation  A process where the enormous quantity of particles of water vapor which rise up into the atmosphere cools and condenses into tiny, little drops of water which group together to form clouds.  The transformation of water vapor to liquid water droplets in the air, creating clouds and fog.
 Condensation on the surface > Dew or Frost  Condensation near the surface >Fog or Smog  Condensation at High Altitudes >Stratus, Cumulus, Cirrus and Nimbus
THE END
Sources:  http://ga.water.usgs.gov/edu/waterdistribution. html  http://en.wikipedia.org/wiki/Water_cycle

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Distribution of water resources

  • 1. DISTRIBUTION OF WATER RESOURCES Amazona, Ma. Faye Monette U. Nolasco, Cecille Mae D. Orongan, Patricia Louise U. Physical Science MW 4:30 – 6:00 pm Sir John Paul Lesondato
  • 4.
  • 5. The left-side bar shows where the water on Earth exists; about 97 percent of all water is in the oceans. The middle bar shows the distribution of that three percent of all Earth's water that is freshwater. The majority, about 69 percent, is locked up in glaciers and icecaps, mainly in Greenland and Antarctica.
  • 6. You might be surprised that of the remaining freshwater, almost all of it is below your feet, as ground water. No matter where on Earth you are standing, chances are that, at some depth, the ground below you is saturated with water.
  • 7. Of all the freshwater on Earth, only about 0.3 percent is contained in rivers and lakes—yet rivers and lakes are not only the water we are most familiar with, it is also where most of the water we use in our everyday lives exists.
  • 8.
  • 10. Water cycle The water cycle, also known as the hydrologic cycle or H2O cycle, describes the continuous movement of water on, above and below the surface of the Earth. Water can change states among liquid, vapor, and ice at various places in the water cycle.
  • 11. Although the balance of water on Earth remains fairly constant over time, individual water molecules can come and go. Over geologic time, water-rich planets such as the Earth lose gases such as Hydrogen over time, which can lead to run away greenhouse effects which in turn accelerate Hydrogen loss, and by association water loss, from a planet's atmosphere.
  • 12.
  • 13. Description The sun, which drives the water cycle, heats water in oceans and seas. Water evaporates as water vapor into the air. Ice and snow can sublimate directly into water vapor.
  • 14. Evapotranspiration is water transpired from plants and evaporated from the soil. Rising air currents take the vapor up into the atmosphere where cooler temperatures cause it to condense into clouds.
  • 15. Air currents move water vapor around the globe, cloud particles collide, grow, and fall out of the sky as precipitation. Some precipitation falls as snow or hail, and can accumulate as ice caps and glaciers, which can store frozen water for thousands of years.
  • 16. Snowpacks can thaw and melt, and the melted water flows over land as snowmelt. Most water falls back into the oceans or onto land as rain, where the water flows over the ground as surface runoff. A portion of runoff enters rivers in valleys in the landscape, with streamflow moving water towards the oceans.
  • 17. Runoff and groundwater are stored as freshwater in lakes. Not all runoff flows into rivers, much of it soaks into the ground as infiltration. Some water infiltrates deep into the ground and replenishes aquifers, which store freshwater for long periods of time.
  • 18. Some infiltration stays close to the land surface and can seep back into surface-water bodies (and the ocean) as groundwater discharge. Some groundwater finds openings in the land surface and comes out as freshwater springs. Over time, the water returns to the ocean, where our water cycle started.
  • 20. Precipitation  Condensed water vapor that falls to the Earth's surface . Most precipitation occurs as rain, but also includes snow, hail, fog drip, graupel, and sleet. Approximately 505,000 km3 (121,000 cu mi) of water fall as precipitation each year, 398,000 km3 (95,000 cu mi) of it over the oceans.
  • 21. TYPES OF PRECIPITATION  Rain >sleet- very cold and the rain water becomes partly frozen because of hail and snow or snow and rain that is melting as it falls. >drizzle- are water droplets that fall very fine that they hardly be noticed and could be blown by gentle wind as they fall.
  • 22.  Snow- frozen water vapor where the temperature is dropped below freezing point.  Hails- it precipitates may be in the form of pellet-like masses of ice and snow. *hailstones- tiny balls of alternating layers of snow and ice. Hailstorms- when the hails fall.
  • 23. Canopy interception  The precipitation that is intercepted by plant foliage and eventually evaporates back to the atmosphere rather than falling to the ground. Snowmelt  The runoff produced by melting snow.
  • 24. Runoff  The variety of ways by which water moves across the land. This includes both surface runoff and channel runoff. As it flows, the water may seep into the ground, evaporate into the air, become stored in lakes or reservoirs, or be extracted for agricultural or other human uses.
  • 25. Infiltration  The flow of water from the ground surface into the ground. Once infiltrated, the water becomes soil moisture or groundwater. Transpiration  The release of water vapor from plants and soil into the air. Water vapor is a gas that cannot be seen.
  • 26. Subsurface Flow  The flow of water underground, in the vadose zone and aquifers. Subsurface water may return to the surface (e.g. as a spring or by being pumped) or eventually seep into the oceans. Water returns to the land surface at lower elevation than where it infiltrated, under the force of gravity or gravity induced pressures. Groundwater tends to move slowly, and is replenished slowly, so it can remain in aquifers for thousands of years.
  • 27. Evaporation  The transformation of water from liquid to gas phases as it moves from the ground or bodies of water into the overlying atmosphere. The source of energy for evaporation is primarily solar radiation. Evaporation often implicitly includes transpiration from plants, though together they are specifically referred to as evapotranspiration. Total annual evapotranspiration amounts to approximately 505,000 km3 (121,000 cu mi) of water, 434,000 km3 (104,000 cu mi) of which evaporates from the oceans.
  • 28. Saturation  a process where the water vapor fills up the air above us. The amount of moisture or vapor filling the air is called humidity. It is the direct result of saturation.  The evaporation slows down, that is the time that we feel very warm since the sweat from our bodies could no longer vaporize.
  • 29. Sublimation  The state change directly from solid water (snow or ice) to water vapor. Advection  The movement of water — in solid, liquid, or vapor states — through the atmosphere. Without advection, water that evaporated over the oceans could not precipitate over land.
  • 30. Condensation  A process where the enormous quantity of particles of water vapor which rise up into the atmosphere cools and condenses into tiny, little drops of water which group together to form clouds.  The transformation of water vapor to liquid water droplets in the air, creating clouds and fog.
  • 31.  Condensation on the surface > Dew or Frost  Condensation near the surface >Fog or Smog  Condensation at High Altitudes >Stratus, Cumulus, Cirrus and Nimbus
  • 32.