a few more words on humidity dewpoint is defined as the temperature to which air must be cooled for...
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A few more words on HumidityA few more words on Humidity• Dewpoint is defined as the temperature to which air must be cooled for
water condensation to begin, i.e. for air to become saturated with water vapor.
• At dewpoint temperature, the amount of water vapor present in the air ee is equal to the maximum amount of vapor air can hold eesatsat at that temperature.
• The capacity of air to hold water vapor is strongly dependant on temperature; warmer air can “carry’ more vapor.
In other wordsIn other words• If you know from your measurements the
dew point temperature, you really know how much water vapor e is in the air.
• The dew point is the temperature when that much moisture is the most that air can carry.
• The vapor pressure e is just the saturation vapor pressure es at the dew point temperature.
A useful relationA useful relation
• This means that if we have some expression, or table, for determining esat at some temperature T, we can also calculate e by using the dewpoint temperature Td for T
• Dew Point Temperature (Td) describes the actual amount of water vapor (e), which is the saturation value es at dew point temperature.
http://cires.colorado.edu/~voemel/vp.html
Freshwater SystemsFreshwater Systems
Fluvial (Latin fluvius: river)Lacustrine (lake)
Streams account for 85% of Streams account for 85% of sediment transport to the sediment transport to the oceans, glaciers 7%, waves oceans, glaciers 7%, waves 1.5%, wind 1%1.5%, wind 1%
Lab Hose, sand in beaker
Sources of Earth’s waterSources of Earth’s water
(saltwater)
freshwater
Longitudinal profile of a Longitudinal profile of a streamstream Tributaries
Trunk Stream
Drainage Divide
Distributaries And Delta
Stream capture, decapitation
Stream ChangesStream Changes• Changes from upstream to downstream
• Factors that decrease downstream– A. Longitudinal Profile is a side-view of a
stream• From head (headwaters) to mouth of
stream profile flattens out So gradient (slope) decreases downstream
– B. channel roughness (grain size) also decreases downstream
• Factors that increase downstream until the delta
– A. Discharge– B. Channel size
Base LevelBase Level• Elevation below which a stream cannot
erode
• Local and ultimate
• Ultimate usually
~ sea-level
• h=0
A waterfall results from change A waterfall results from change
in local base levelin local base level
Local change in base level affects river profiles
Graded StreamsGraded Streams
• Erosion and Deposition Equal
• When local conditions in a graded stream are disrupted, velocity changes.
• Original conditions are restored.• DEMOS• Pinched hose demo, change in velocity at restrictions• Hose and sand demo: faster water is better at erosion
http://h2o.enr.state.nc.us/nps/What_is_NPS/agr.htm
Stream - Sediment TerminologyStream - Sediment Terminology
• Transported material is called load• Types of load
– Dissolved load - ions in solution
– Suspended load - fine clays, etc
– Bed load Moves during flood - high velocity Sandy Portion – Saltation (bouncing)
Boulders – Traction (rolling)
• Capacity –maximum load stream transports
• Competence – Largest particles it can move• Proportional to velocity squared
More important definitions
Suspended load - confluence Green & Colorado Rivers in Canyonlands, Utah
• Competence • Maximum particle size a stream transports
• Proportional to velocity squared –K.E.
Deposition of sediment by a streamCaused by a decrease in velocity
Competence is reducedSediment begins to drop out
Increase velocity, increase transport and erosion for a particle size
Increase particle size, increase deposition for a particular velocity
• 1. Narrow valleys uplift or drop in base level
• V-shaped • Downcutting toward base level• Can include rapids and waterfalls
• Straighter streams• Typical of steep slopes in
uplifted areas
An Alluvial Fan in Death ValleySudden drop in competence
Alluvial fansAlluvial fansDevelop where a Develop where a high-gradient high-gradient stream leaves a stream leaves a narrow valley and narrow valley and spreads out onto spreads out onto a broad plaina broad plainSlopes outward Slopes outward in a broad arcin a broad arc
2. Wide valleys – high suspended load
–Meanders "Meandering Stream"
• Cut bank and point bar
• Cutoffs and oxbow lakes
– Floodplains, either:
• Erosional floodplains
• Depositional floodplains
The Water IcosahedronThe Water Icosahedron
• Water molecule like Mickey Mouse—two positively charged Hydrogens, one negatively charged oxygen, very polar molecule, good solvent. Angle about 105o
• Hydrogen bonding, two oxygens share a proton H+ in liquid water. Arrangement the water icosahedron Top Left
• Hydrogen bonding increases the energy required to vaporize water. About 585 calories/gram water is released to atmosphere during condensation.
Erosion and deposition along Erosion and deposition along a meandering streama meandering stream
Meanders get more extreme with time. Deposition at point bar keeps up with erosion at cutbank
Floodplain
Levee
Discussion: Crack the whip
• Deposition of sediment by a meandering stream
• Channel deposits– Point bars cover bed load as meandering Point bars cover bed load as meandering
stream’s channel loops movestream’s channel loops move
– Floodplain deposits cover point barFloodplain deposits cover point bar
Natural Levees
Natural LeveesNatural Levees
• This 700 ft section of levee slid into the east side of the This 700 ft section of levee slid into the east side of the Mississippi River on August 23, 1983 at Darrow, in AscensionMississippi River on August 23, 1983 at Darrow, in AscensionParrish, Louisiana. The slide occurred shortly after a high water Parrish, Louisiana. The slide occurred shortly after a high water stage had receded, suggesting that toe undercutting andstage had receded, suggesting that toe undercutting andrapid drawdown likely contributed to the failure. rapid drawdown likely contributed to the failure.
–form parallel to the stream form parallel to the stream channel, by successive channel, by successive floods over many years. floods over many years. Water overtops bank and Water overtops bank and slows over floodplain, slows over floodplain, competence drops, competence drops, deposition occurs. deposition occurs.
Formation of natural levees by floodingFormation of natural levees by flooding
Flood over banks, sediment carrying water into wide area, greater drag, lower velocity, load drops
Meandering Stream
Floodplain
MeanderingStream
OxBow
http://hays.outcrop.org/gallery/rivers/arid_meander?full=1
Channel moves in direction of cutbankPointbar advances as crossbed drapes
Cut off loops silt up; called oxbow lakes
Old cut-off loop fills with mud, an oxbow lake
Point Bar Sequence from Meandering StreamPoint Bar Sequence from Meandering Stream
Erosion
Gravel of bed
Crossbeds of Point Bar
Fines of Floodplain
• Incised meanders • Meanders in steep, narrow valleys
– Caused by a drop in base level or uplift of region
Delaware Water Gap
River meanders across floodplain.
Base level drops,or region uplifts. River cuts into bed, cutoffs abandon large loops,leaving oxbows
Stream less wide, uses narrower floodplain
Old floodplain is a terrace
Stream Terraces
A flight of river terraces
3. Braided Streams3. Braided Streams
• Occur where bed load is very high. Often Occur where bed load is very high. Often big boulders in the stream. At headwaters big boulders in the stream. At headwaters and near glaciersand near glaciers
• Many channels because flow is Many channels because flow is intermittent/seasonal - old channel banks intermittent/seasonal - old channel banks collapse in dry season , redirect flow next collapse in dry season , redirect flow next flood seasonflood season
• "mid-channel bars" between channels"mid-channel bars" between channels
DeltasDeltas
• Occur where stream hits slow water• Velocity, competence, bedload drop • Deposits build out into lake or sheltered
sea, extending the length of the river
• Consists of three types of beds Topset beds Foreset beds Bottomset beds
Deltas have strata deposited in a characteristic geometryTopsets, Foresets and Bottomsets
Actually much more complex: many distributary channel deposits
River delta distributary channels change location with time
General trend: Delta builds Seaward. If Floodwaters happen to reach
the sea via a new shortcut, they flow by the shorter (steeper) path cutting a
new channel, abandon old
A fan-delta in a lake
Part 2 - GroundwaterPart 2 - Groundwater
• water found in sediment, plus narrow fractures in bedrock
• Groundwater is the largest usable reservoir of fresh water available to humans, but much more in glacier ice
Distribution of Groundwater
Groundwater tablegenerally follows topography
•Water table is the upper limit of saturation•Variations in the water table
Depth is highly variable
•Varies seasonally and from year to year
•Shape is usually similar to surface topography
Factors influencing movement of Factors influencing movement of groundwater - 1groundwater - 1
• Porosity – Volume of Pore Space
• Permeability – the ability of a material to transmit a fluid through pore space
Factors influencing movement of Factors influencing movement of groundwater - 2groundwater - 2
• Aquifer – a permeable rock layer or a sediment that transmits groundwater freely (such as sands and gravels)
• Aquitard – an impermeable layer that hinders water movement (such as mudstone - clay)
• Aquiclude (Aquifuge) solid, impermeable rock.
Springs may result from a perched water tableSprings may result from a perched water table
Rollie’s Well Aquifer
GEYSERS
•Intermittent hot springs•Water erupts with great force•Occur where extensive underground chambers exist near hot igneous rock•Groundwater heats, expands, changes to steam, and erupts
Yellowstone Geyser erupting
WellsWellsTo obtain a continuous supply of water, we must To obtain a continuous supply of water, we must
place a well below the water tableplace a well below the water table
Sometimes a pump is not needed
Demo: Artesian
Discussion:Quicksand
Hydraulic head and urban water supplies
Just like an artesian, saves moneyTowns pump the water up to their water tank at night, whenelectricity is cheap. Artificial artesian.
Excessive Pumping of wells can causeExcessive Pumping of wells can causeDrawdown (lowering) of the water tableDrawdown (lowering) of the water table
Cone of depressionCone of depression in the water table in the water tableMay cause dry wellMay cause dry well
Discharge exceeds recharge
Saltwater contamination due Saltwater contamination due to excessive well pumpingto excessive well pumping
Wildwood Crest
Well design requires knowledge of local geology
Don’t fire the town engineer!
Aquatard
Geologic work of groundwaterGeologic work of groundwater
• Acidic groundwater dissolves limestone• Groundwater is often mildly acidic
– Contains weak carbonic acid, H2CO3 which forms when carbon dioxide from the air dissolves in cloud water droplets
– Groundwater becomes more acidic from decaying plants "Humic Acid""Humic Acid"
• Acid dissolves calcite in limestone, releasing CO2 gas
CaCOCaCO33 + 2H + 2H++ ↔ Ca ↔ Ca++++ + H + H22O + COO + CO22 (g) (g)
The reaction reverses, and calcite is deposited, if COThe reaction reverses, and calcite is deposited, if CO22 gas concentration gets high gas concentration gets high
Geologic work of groundwaterGeologic work of groundwater• Caverns
• Features found within caverns– Composed of dripstone (travertine)Composed of dripstone (travertine)
• Calcite deposited as dripping water Calcite deposited as dripping water evaporatesevaporates
• Includes Includes stalactitesstalactites (hanging from the (hanging from the ceiling) and ceiling) and stalagmitesstalagmites (form on the floor of (form on the floor of a cavern)a cavern)
CaCOCaCO33 + 2H + 2H++ ↔ Ca ↔ Ca++++ + H + H22O + COO + CO22 (g) (g)
Reaction reverses, and calcite is deposited, if COReaction reverses, and calcite is deposited, if CO22 gas concentration gets high gas concentration gets high
Karst Topography
– Sinkhole or sinks (formed by groundwater slowly dissolving the bedrock often accompanied by collapse)
– Disappearing (aka sinking) streams
Stream incision, cavedevelopment and karsttopography
In Xanadu did Kubla KhanA stately pleasure-dome decree:Where Alph, the sacred river, ranThrough caverns measureless to man Down to a sunless sea.
Xanadu, by Samuel Taylor Coleridge
Solution and Collapse SinkholesWinter Park, Florida. 1981 Porsche Dealership and PoolDon’t fire the town’s engineer!
Water weighs 8.34 pounds per gallon,Water weighs 8.34 pounds per gallon,and is incompressibleand is incompressibleLimestone weighs 5744 pounds/ mLimestone weighs 5744 pounds/ m33
Pool 50x25x2 meters
Foghorn Leghorn