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Connecticut Water Trails
Program
The Water Cycle
All the water that ever has been or ever will be is
here now. It sits, it runs, it rises as mist.
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Michael Furtman
 What Is The Water Cycle?
What is the water
cycle? I can easily answer that—it is "me" all over! The water cycle
describes the existence and movement of water on, in, and above the
Earth. Earth's water is always in movement and is always changing
states, from liquid to vapor to ice and back again. The water cycle has
been working for billions of years and all life on Earth depends on it
continuing to work; the Earth would be a pretty stale place to live
without it.
Water Cycle Definitions
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Evaporation
is when water is turned from a liquid into a gas (vapour)
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Condensation
is when water is turned from a gas into a liquid
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Transpiration
is the water lost from plants as they "breathe"
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Evapotranspiration
is (basically) the sum of both plants breathing and the evaporation
of water from the soil
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Precipitation
is rain or snow
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Runoff
is water that flows across land
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Infiltration
is when water seeps into underground streams or lakes
Water Cycle Video's
The Water Cycle
Water
Cycle 1/3
Water
Cycle 2/3
Water
Cycle 3/3
A Quick Summary Of The Water Cycle
Where does all the Earth’s water come from? Primordial Earth was an
incandescent globe made of magma, but all magmas contain water. Water
set free by magma began to cool down the Earth’s atmosphere, until it
could stay on the surface as a liquid. Volcanic activity kept and still
keeps introducing water in the atmosphere, thus increasing the surface-
and ground-water volume of the Earth.
The water cycle has no starting point. But, we'll begin in the oceans,
since that is where most of Earth's water exists. The sun, which drives
the water cycle, heats water in the oceans. Some of it
evaporates
as vapor into the air. Ice and snow can
sublimate
directly into water vapor. Rising air currents take the vapor up into
the
atmosphere,
along with water from
evapotranspiration,
which is water transpired from plants and evaporated from the soil. The
vapor rises into the air where cooler temperatures cause it to
condense
into clouds. Air currents move clouds around the globe, cloud particles
collide, grow, and fall out of the sky as
precipitation.
Some precipitation falls as snow and can accumulate as
ice caps
and glaciers,
which can store frozen water for thousands of years. Snowpacks in warmer
climates often thaw and melt when spring arrives, and the melted water
flows overland as
snowmelt.
Most precipitation falls back into the oceans or onto land, where, due
to gravity, the precipitation 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 ground-water seepage,
accumulate and are
stored as freshwater
in lakes. Not all runoff flows into rivers, though. Much of it soaks
into the ground as
infiltration.
Some water infiltrates deep into the ground and replenishes
aquifers
(saturated subsurface rock), which store huge amounts of 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
ground-water discharge,
and some ground water finds openings in the land surface and emerges as
freshwater
springs .
Over time, though, all of this water keeps moving, some to reenter the
ocean, where the water cycle "ends" ... oops - I mean, where it
"begins."
Global Water Distribution
For a detailed explanation of where Earth's water exists, look at the
chart and data table below. By now, you know that the water cycle
describes the movement of Earth's water, so realize that the chart and
table below represent the presence of Earth's water at a single point in
time. If you check back in a thousand or million years, no doubt these
numbers will be different!
Notice how of the world's total water supply of about 332.5 million
cubic miles of water, over 96 percent is saline. And, of the total
freshwater, over 68 percent is locked up in ice and glaciers. Another 30
percent of freshwater is in the ground. Fresh surface-water sources,
such as rivers and lakes, only constitute about 22,300 cubic miles
(93,100 cubic kilometers), which is about 1/150th of one percent of
total water. Yet, rivers and lakes are the sources of most of the water
people use everyday.
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One
Estimate Of Global Water Distribution:
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Water source
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Water volume, in cubic miles
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Water volume, in cubic kilometers
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Percent of freshwater
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Percent of total water
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Oceans, Seas, & Bays
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321,000,000
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1,338,000,000
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--
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96.5
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Ice caps, Glaciers, & Permanent Snow
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5,773,000
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24,064,000
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68.7
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1.74
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Groundwater
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5,614,000
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23,400,000
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--
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1.7
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Fresh
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2,526,000
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10,530,000
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30.1
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0.76
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Saline
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3,088,000
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12,870,000
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--
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0.94
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Soil Moisture
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3,959
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16,500
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0.05
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0.001
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Ground Ice & Permafrost
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71,970
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300,000
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0.86
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0.022
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Lakes
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42,320
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176,400
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--
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0.013
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Fresh
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21,830
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91,000
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0.26
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0.007
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Saline
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20,490
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85,400
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--
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0.006
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Atmosphere
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3,095
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12,900
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0.04
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0.001
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Swamp Water
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2,752
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11,470
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0.03
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0.0008
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Rivers
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509
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2,120
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0.006
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0.0002
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Biological Water
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269
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1,120
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0.003
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0.0001
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Total
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332,500,000
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1,386,000,000
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100
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Source:
Gleick, P. H., 1996: Water resources. In Encyclopedia of
Climate and Weather, ed. by S. H. Schneider, Oxford
University Press, New York, vol. 2, pp.817-823.
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