Water Management and Pollution PowerPoint

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Transcript Water Management and Pollution PowerPoint 

“When the well is dry, we learn the worth of water.”
- Benjamin Franklin
1
 The hydrologic cycle describes the mechanisms by which
water moves throughout the Earth.
 Heat from the sun
causes water to
evaporate from
rivers, lakes,
oceans, or the soil.
 Plant roots extract
water from the soil
and release some of
it into the
atmosphere through
their leaves, a process
called transpiration.
Barron Gorge National Park, Cairns,
Australia.
3
 As the evaporated water moves up into the atmosphere,
it loses heat and condenses into clouds.
 The water then returns to the Earth as precipitation;
rain, snow, or ice.
 Some of that water will form
runoff, moving towards lower
elevations and collecting
into another body of surface
water.
 The rest of the water soaks
into the soil, a process called
infiltration.
4
Unconfined Aquifer Recharge Area
Evaporation and transpiration Evaporation
Precipitation
Confined
Recharge
Area
Runoff
Flowing
artesian well
Infiltration
Water
table
Well
requiring
a pump
Stream
Lake
Infiltration
Less permeable
material such as
clay
Fig. 13-3, p. 316
 At any given time, only
about 3% of the world’s
water supply is
freshwater. The rest is
in the oceans.
 The majority of
freshwater is frozen
within land ice
(glaciers).
 Another 20% is
underground.
 Only 1% of freshwater is
available at the surface.
6
 Water use is measured in two ways:
 Water withdrawal measures the total amount diverted or
withdrawn (taken out of) from a source.
 Example: Coolant water withdrawn by a power plant, then
returned to the river.
 Water consumption measures water permanently removed
from a source.
 Example: Water is sprayed on crops for irrigation, then
evaporates or transpires into the atmosphere.
7
 Agriculture makes up the majority of both water
withdrawal and consumption.
8
Fig. 13-6, p. 322
TRADE-OFFS
Withdrawing Groundwater
Advantages
Disadvantages
Useful for drinking
and irrigation
Aquifer depletion
from overpumping
Available year-round
Sinking of land
(subsidence) from
overpumping
Exists almost
everywhere
Renewable if not
overpumped or
contaminated
No evaporation
losses
Cheaper to extract
than most surface
waters
Aquifers polluted for
decades or centuries
Saltwater intrusion into
drinking water supplies
near coastal areas
Reduced water flows
into surface waters
Increased cost and
contamination from
deeper wells
Fig. 13-7, p. 321
 The Salton Sink is a waterless depression in southeastern
California, part of the Sonoran desert.
 At one point, the sink
was actually the bottom
of a huge freshwater lake.
Salton Sink, showing the water
line of Lake Cahuilla.
11
 The Salton Sink was an area experiencing water scarcity,
meaning there was not enough access to freshwater to
drink or grow food.
 Countries experiencing water scarcity tend to be in highly
populated and dry regions.
12
 In 1900, a development company began constructing
irrigation canals to divert water from the Colorado River
into the Salton Sink.
 The land became fertile, and crops were planted.
 In 1905, heavy rainfall and snowmelt caused the river to
swell and breach the dikes of the canals.
 Two new rivers were
carved out, causing the
entire volume of the
Colorado river to
empty into the sink,
creating the Salton Sea.
13
 Groundwater is located in a region of soil called the zone
of saturation, where all of the spaces between soil
particles are filled with water.
 The top of this region is called the water table.
14
 Aquifers are underground regions of soil or porous rock
that are saturated with water.
 If the aquifer is physically separated from the groundwater
by impermeable rock layers, it is called a confined aquifer.
 Regions where the water can infiltrate the soil and reach
the aquifer are called recharge zones.
15
 Most of the United States crop





production takes place in the
Great Plains, in areas far away
from lakes or major rivers.
Water for irrigation here is
mostly taken from the Ogallala
aquifer.
The aquifer constitutes about
174,000 square mi
Holds over 978 trillion gallons
of freshwater
About 14 bg per day is used for
agriculture
Another 332 million is
withdrawn for public usage
16

Areas of
greatest aquifer
depletion from
groundwater
overdraft in the
continental U.S.
 The Ogallala, the world’s largest aquifer, is most of the red
area in the center (Midwest).
Figure 14-8
 This is the world’s largest known aquifer, and fuels
agricultural regions in the U.S. It extends from South Dakota
to Texas. It’s essentially a non-renewable aquifer from the
last ice age with an extremely slow recharge rate. In some
cases, water is pumped out 8 to 10 times faster than it is
renewed. Northern states will still have ample supplies, but
for the south it’s getting thinner. It is estimated that ¼ of the
aquifer will be depleted by 2020.
 Excessive water withdrawal can cause a lowering of the
water table, called a cone of depression.
 This may cause nearby, shallower wells to run dry.
19
 Wells located near the ocean can experience saltwater
intrusion as the ocean water mixes with the groundwater.
20
 Only about one
inch of
precipitation
reaches the
Ogallala annually,
far less than what is
actually withdrawn.
21
 Excessive groundwater
consumption can also
lead to subsidence, a
compression and
sinking of the zone of
saturation.
 The San Joaquin
valley in California
has experienced
subsidence of up to
28 feet.
22
 Sinkholes form when
the roof of an
underground cavern
collapses after being
drained of
groundwater.
Figure 14-10
SOLUTIONS
Groundwater Depletion
Prevention
Control
Waste less water
Raise price of water
to discourage waste
Subsidize water
conservation
Tax water pumped
from wells near
surface waters
Limit number of wells
Set and enforce
minimum stream flow
levels
Do not grow waterintensive crops in
dry areas
Divert surface water
in wet years to
recharge aquifers
Fig. 13-11, p. 324
 Countries without access to groundwater or surface
water may resort to desalination, or the removal of salt
from saltwater.
 Desalinated water is much more expensive due to the high
energy costs of operating the plants.
Tampa Bay
desalination plant
(power plant in
background).
26
•Description: Removing salt from salt
water
•Benefits: Freshwater
•Problems: Uses lots of energy; costs
3-5X’s more money; what do we do
with the salt?
 Municipal tap water is regulated by the Environmental
Protection Agency (EPA).
 Standards are established within the Safe Drinking Water
Act, passed in 1974.
 Bottled water is regulated by the Food and Drug
Administration (FDA), instead of the EPA.
 Much less strict testing standards.
 The FDA has set several different types or classifications of
bottled water.
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 Artesian water – From a
confined aquifer.
 Fiji
 Distilled – Water has been
boiled and recollected.
Contains no minerals.
 Glaceau
 Purified water – Water
(probably tap) that has been
filtered by deionization or
reverse osmosis.
 Aquafina, Dasani
 Spring – From an underground
formation that naturally flows
to the surface.
 Evian
Aquafina labels used to say
“P.W.S.” instead of public water
supply, giving the impression that
it was spring water.
29
 Estimates suggest many societies could save as much as
half of current domestic water usage without great
sacrifice or serious change in lifestyle.
 What are the biggest domestic uses of water?
30
 Dual-flush toilet: Two buttons;
half-flush for liquid waste, fullflush for solid.
 High Efficiency washing machine:
Half the water use of top-loaders.
32
 Typical shower head: 2.5
gallons/minute.
 Water-saver shower head: 1.5
gallons/minute.
33
•Description: A dammed stream that can
capture & store water from rain & melted snow.
•Benefits: Hydroelectric power; provides water
to towns; recreation; controls floods downstream
• Problems: Reduces downstream flow;
prevents water from reaching the sea (Colorado
River) devastates fish life; reduces biodiversity.
 Large dams and reservoirs can produce cheap
electricity, reduce downstream flooding, and
provide year-round water for irrigating cropland,
but they also displace people and disrupt aquatic
systems.
Provides water
for year-round
irrigation of
cropland
Provides
water for
drinking
Reservoir is
useful for
recreation
and fishing
Can produce
cheap
electricity
(hydropower)
Downstream
flooding is
reduced
Flooded land
destroys forests
or cropland and
displaces people
Large losses of
water through
evaporation
Downstream
cropland and
estuaries are
deprived of
nutrient-rich silt
Risk of
failure and
devastating
downstream
flooding
Migration and
spawning of
some fish are
disrupted
Fig. 14-13a, p. 317
Powerlines
Reservoir
Dam
Intake
Powerhouse
Turbine
Fig. 14-13b, p. 317
 There is a debate over whether the advantages of the world’s
largest dam and reservoir will outweigh its disadvantages.
 The dam will be 2 kilometers long.
 The electric output will be that of 18 large coal-burning or
nuclear power plants.
 It will facilitate ship travel reducing transportation costs.
 Dam will displace 1.2 million people.
 Dam is built over seismatic fault and already has small cracks.
 Some dams are being removed for ecological reasons and
because they have outlived their usefulness.
 In 1998 the U.S. Army Corps of Engineers announced that it
would no longer build large dams and diversion projects in the
U.S.
 The Federal Energy Regulatory Commission has approved the
removal of nearly 500 dams.
 Removing dams can reestablish ecosystems, but can also rerelease toxicants into the environment.
•Description: Damming a river to
control where the water flows
•Benefits: Keeps water where we
want it- cities!
•Problems: Drains wetlands, destroys
land
Southern Florida to the Keys
 The world’s largest ecological restoration project involves
trying to undo some of the damage inflicted on the
Everglades by human activities.
 90% of park’s wading birds have vanished.
 Other vertebrate populations down 75-95%.
 Large volumes of water that once flowed through the park have
been diverted for crops and cities.
 Runoff has caused noxious algal blooms.
 As Miami develops, it encroaches on everglades. Plus, it
prompts people vs. wildlife. It is freshwater and local areas
are draining it.
 The project has
been attempting to
restore the
Everglades and
Florida water
supplies.
Figure 12-10
 Build huge aqueduct, or find other
sources of fresh water an protect it
federally under endangered species act,
etc.
 These are dams &
reservoirs that feed
from the Colorado River
all the way to San
Diego, LA, Palm
Springs, Phoenix &
Mexico. So far has
worked because they
haven’t withdrawn their
full allocations. See
pg306.
 The area drained
by this basin is
equal to more
than one-twelfth
of the land area of
the lower 48
states.
Figure 14-14
IDAHO
WYOMING
Dam
Aqueduct or
canal
Salt Lake City
Upper Basin
Denver
Grand Junction
UPPER
BASIN
Lower Basin
UTAH
NEVADA
Lake
Powell
Grand
Canyon
Las Vegas
COLORADO
Glen
Canyon Dam
NEW MEXICO
Boulder City
CALIFORNIA
Los
Angeles
ARIZONA
Palm
Springs
San
Diego
All-American
Canal
Albuquerque
LOWER
BASIN
Phoenix
Yuma
Mexicali
Gulf of
California
Tucson
0
100 mi.
0
150 km
MEXICO
Fig. 14-14, p. 318
 The Colorado River has so many dams and
withdrawals that it often does not reach the
ocean.
 14 major dams and reservoirs, and canals.
 Water is mostly used in desert area of the U.S.
 Provides electricity from hydroelectric plants for 30
million people (1/10th of the U.S. population).
 Lake Powell, is the
second largest
reservoir in the U.S.
 It hosts one of the
hydroelectric plants
located on the
Colorado River.
Figure 14-15
 Water pollution is the addition of any substance that
degrades, or lowers the quality of the water for living
organisms.
53
 The Salton Sea has seen an large amount of nutrient
pollution from excess fertilizer and manure that has
runoff from nearby farms.
 Excess nutrient
pollution causes
eutrophication,
or an overgrowth
of algae.
54
 Algae blooms caused by eutrophication block sunlight
from reaching underwater plants.
 As the plants die, the dissolved oxygen (DO) levels of the
water decline (decomposers need O too).
 A decline in dissolved oxygen causes the suffocation of
large organisms, like fish.
A boat moving
through a 2011 algae
bloom in Lake Erie.
Photo by Peter
Essick, National
Geographic.
55
 Dissolved oxygen levels can plummet when the amount
of oxygen consumed by bacterial decomposers in the
water, called biological oxygen demand (BOD), suddenly
increases.
 This tends to happen from an influx of nutrients (food)
such as raw sewage or dead algae.
56
 Fertilizer runoff is an example of nonpoint source
pollution, because it does not come from a single
discharge location. (Think agriculture…)
 Raw sewage discharged
from a large pipe would
be an example of point
source pollution.
Discharge from the Arcata Wastewater
Treatment Plant, California
57
 Nonpoint sources of pollution can enter a body of water
from anywhere across its watershed – the area of land
over which all rain and other water sources drain into it.
The Mississippi River watershed.
Source: nature-education.org
59
 Beginning with the industrial revolution and
continuing into the 1960s, water pollution was seen as
a necessary consequence of growth and industry.
 In 1969, the Cuyahoga River in Ohio caught fire, due
to a buildup of oil on its surface.
 Articles in Time Magazine
and National Geographic
spurred a movement that
gave birth the first water
pollution laws.
Cuyahoga River fire, 1952.
60
 By 1972, about two-thirds of U.S. lakes, rivers, and coastal
waters were unsafe for swimming and fishing.
 The Clean Water Act, passed in 1977, is a law that set the
allowable limits for various pollutants in surface waters.
 Any point source may not discharge pollution into surface
waters without a permit.
 States are required to develop lists of impaired waters that
are too polluted or degraded to meet water quality
standards.
61
 A large number of surface waters in the United States are
still considered impaired.
62
 Leading causes of impaired waters include:
 Pathogens; bacteria and parasites that cause disease.
 Metals (separated into Mercury and non-Mercury)
 Nutrient pollution from fertilizer runoff.
 Oxygen-depleting pollution, such as raw sewage.
 PCBs, synthetic chemicals found to be mutagenic and
carcinogenic and banned in 1979.
 Sediment pollution from soil erosion.
 Acid pollution, which lowers the pH of water.
 Pesticide runoff.
63
 This guide to Lake Michigan fish shows the persistence of PCB pollution
and its biomagnification in the food chain.
66
Principal Sources of
Groundwater
Contamination in the U.S.
Polluted air
Hazardous waste
injection well
Pesticides
and fertilizers
Coal strip
mine runoff
Deicing
road salt
Gasoline
station
Water
pumping well
Landfill
Pumping
well
Waste lagoon
Accidental
spills
Buried gasoline
and solvent tanks
Cesspool,
septic tank
Sewer
Leakage
from faulty
casing
Discharge
Confined aquifer
Groundwater flow
Fig. 20-11, p. 542
Groundwater Contamination from a
Leaking Gasoline Tank
Leaking
tank
Water
table
Groundwater
flow
Free gasoline
Gasoline
leakage plume dissolves in
(liquid phase) groundwater
(dissolved phase)
Migrating
vapor phase
Water well
Contaminant plume moves
with the groundwater
Fig. 20-12, p. 543
SOLUTIONS
Groundwater Pollution
Prevention
Cleanup
Find substitutes for
toxic chemicals
Pump to surface, clean,
and return to aquifer
(very expensive)
Keep toxic chemicals
out of the environment
Install monitoring wells
near landfills and
underground tanks
Require leak detectors on
underground tanks
Ban hazardous waste
disposal in landfills and
injection wells
Store harmful liquids in
aboveground tanks with
leak detection and
collection systems
Inject microorganisms
to clean up
contamination (less
expensive but still
costly)
Pump nanoparticles of
inorganic compounds
to remove pollutants
(still being developed)
Fig. 20-13, p. 545
 The majority of pollution in the ocean falls into two
categories:
 Oil
 Petroleum-based plastics
72
Missouri River
Mississippi
River Basin
Ohio River
Mississippi River
MS
LA
LOUISIANA
TX
Mississippi
River
Depleted oxygen
Gulf of Mexico
Gulf of Mexico
Fig. 20-B, p. 550
 The biggest sources of oil in the ocean include:
 Natural seeps from oil deposits at the ocean floor.
 Runoff from land, including leaking cars and improper
disposal of used motor oil.
 This is the largest source.
 Discharge from ships.
 Spills from offshore drilling.
 Spills from oil tanker accidents.
 Oil penetrates the fur
and feathers of animals,
destroying the natural
insulation (they freeze).
 Oil also directly
damages the tissues
of fish and other
aquatic organisms.
76
 Although oil spills from rigs and tanker ships are not the
biggest source of oil in the ocean, they have the most
severe effects in the immediate area.
 One of the worst spills to ever affect North America was
the Exxon Valdez in 1989.
77
 When the Exxon Valdez ran aground in Alaska, a
high volume of oil (11 – 38 million gal) was spilled.
 The damage was worsened by a series of other
factors:
 The remoteness
of the spill’s
location.
 A delayed cleanup
response due to a
lack of preparation
by the oil
companies.
78
 Following the Exxon Valdez spill, the Oil Pollution Act of
1990 made the following changes:
 Operators of oil tankers are responsible for all cleanup
costs.
 Increased the maximum liability for losses by businesses
and private individuals.
 Phased out single-hulled
tankers in favor of
double-hulled tankers.
 Reduces losses in an
oil spill by 4-6 times.
79
 The worst oil spill by volume occurred in 2010 when an
oil rig in the Gulf of Mexico experienced a blowout.
 The drilled well at the bottom of the sea gushed nearly 210
million barrels of oil into the sea over a period of four
months.
80
 A study by the Environmental Investigation Agency
revealed that whales in the ocean were ingesting large
amounts of plastic and fishing gear.
 A gray whale stranded near Seattle was found to have
the following in its stomach:
 Sweatpants
 Duct tape
 Surgical gloves
 Golf balls
 More than 20 plastic bags
81
 Plastic is non-degradable, meaning that it does not fully
decompose in the environment.
 Exposure to sunlight will cause it to break apart into
smaller pieces, which accumulate in systems of rotating
ocean currents called gyres.
82
 The largest collection of plastic pollution in the ocean is
the Great Pacific Trash Vortex, located in the South
Pacific gyre.
 Most of the plastic
is small and suspended
below the surface.
 The mass of plastic
pieces sampled from
this area is 6 times
greater than the
plankton biomass.
A sample of the plastic and fishing gear
caught by filmmakers of the Garbage Island
documentary.
83
SOLUTIONS
Coastal Water Pollution
Prevention
Cleanup
Reduce input of toxic
pollutants
Improve oil-spill
cleanup capabilities
Separate sewage and
storm lines
Ban dumping of
wastes and sewage
by ships in coastal
waters
Ban ocean dumping of
sludge and hazardous
dredged material
Regulate coastal
development, oil
drilling, and oil
shipping
Require double hulls
for oil tankers
Use nanoparticles on
sewage and oil spills to
dissolve the oil or
sewage (still under
development)
Require secondary
treatment of coastal
sewage
Use wetlands, solaraquatic, or other
methods to treat
sewage
Fig. 20-17, p. 551
 Human sewage is a waste product that is unavoidable,
but it can be treated to minimize environmental
impacts.
 Screening removes any trash or large objects that may
have entered the sewage stream.
Inlet Screen, Sewage
Treatment Plant, Bateau
Bay, Australia.
85
 Primary treatment holds the sewage in a large
containment vessel.
 Heavy solids that sink to the bottom are removed as
sludge.
 May also be aerated to remove as much of the smell as
possible.
 The sludge that is
leftover from these
treatments is
decomposed with
bacteria or
composted.
86
 Secondary treatment adds bacteria to decompose the
dissolved organic matter.
 The bacteria must then be killed once the process is
complete. This is usually done with chlorine.
 Tertiary treatment is any additional treatment, such as
the removal of nitrates and phosphates.
87
Solutions: Septic Tank Systems
Manhole cover
(for cleanout)
Septic tank
Gas
Distribution box
Scum
Wastewater
Sludge
Drain field
(gravel or
crushed stone)
Vent pipe
Perforated pipe
Fig. 20-18, p. 553
Removal of solids
Biological action
Primary
Bar screen
Raw sewage
from sewers
Grit chamber
Secondary
Settling tank
Sludge
Aeration tank
Settling tank
Activated sludge
Chlorine
disinfection tank
(kills bacteria)
To river,
lake,
or ocean
Air pump
Sludge
digester
Sludge drying bed
Disposed of in
landfill or ocean
or applied to
cropland,
pasture, or
rangeland
Stepped Art
Fig. 20-19, p. 554
 Sewage treatment plants have a limited amount of water
that can be processed at any given time.
 If a flood, snow melt, or other excess water event occurs,
raw sewage may be dumped directly into the nearby
water body.
Sewage overflow plume in
Milwaukee Harbor
90