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Core Concepts -- The Water Cycle & Groundwater |
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1.2g. Earth has continuously been recycling water since the outgassing
of water early in its history. This constant recirculation of water at
and near Earth's surface is described by the
hydrological (water) cycle. |
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> Water is returned from the atmosphere to Earth's surface by
precipitation. Water
returns to the atmosphere by evaporation
or transpiration
from plants. A portion of the precipitation becomes runoff over the
land or infiltrates
into the ground to become stored in the soil or
ground water below the
water table. |
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> The amount of precipitation that seeps into the ground or runs off is
influenced by climate, slope of the land, soil, rock type, vegetation,
land use, and degree of saturation. |
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> Porosity,
permeability and
water retention affect
runoff and infiltration. Soil capillarity
influences this process. |
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2.1p. Landforms are the
result of the interaction
of tectonic forces
and the processes of weathering,
erosion, and
deposition. |
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2.1q. Topographic maps
represent landforms through use of contour
lines (isolines connecting points of equal
elevation.) Gradients
and profiles can
be determined from changes in elevation over a given distance. |
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2.1r. Climate variations, structure, and characteristics of bedrock
influence the development of landscape features including
mountains,
plateaus,
plains,
valleys,
ridges,
escarpments, and
stream drainage patterns. |
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2.1s. Weathering is the physical
and chemical breakdown
of rocks at or near Earth's surface. Soils
are the result of weathering and biological
activity over long periods of time. |
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2.1t. Natural agents of erosion,
generally driven by gravity, remove, transport, and deposit weathered
rock particles. Each agent of erosion produces distinctive changes in
the material that it transports, and creates characteristic surface
features and landscapes. In certain erosional situations, loss of
property, personal injury, and loss of life can be reduced by effective
emergency preparedness. |
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2.1u. The natural agents of erosion
include: |
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> Streams (running
water): Gradient,
discharge, and
channel shape
influence a stream's velocity
and the erosion and deposition of sediments.
Sediments transported by streams tend to become
rounded as a result of
abrasion. Stream features include V-shaped
valleys, deltas,
flood plains, and
meanders. A
watershed is the
area drained by a stream and its tributaries. |
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> Glaciers (moving
ice): Glacial erosional processes include the
formation of U-shaped valleys,
parallel
scratches, and
grooves in bedrock.
Glacial features include moraines,
drumlins,
kettle lakes,
finger lakes, and
outwash plains. |
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>Wave Action: Erosion and
deposition cause changes in shoreline features, including
beaches,
sandbars, and
barrier islands. Wave
action rounds sediments as a result of abrasion. Waves approaching a
shoreline move sand parallel to the shore within the zone of breaking
waves. |
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2.1i. Seasonal changes can be explained using concepts of density and
heat energy. These changes include: the shifting of global temperature
zones, the shifting of planetary wind and ocean current patterns, the
occurrence of hurricanes, monsoons,
rainy and dry seasons,
flooding,
severe weather, and
ozone depletion. |
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