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2/25/2015
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Unit 4: Water Freshwater
• How did the oceans form? • What special adaptations do saltwater organisms
have? • Where does our water come from? • How do humans affect the Earth’s water?
Freshwater
• Freshwater
– Salinity < 0.05 %
– ~ 2.5 % of earth’s water
– 79 % found as ice in glaciers
– Only 1 % available for drinking
Freshwater
• Groundwater
– Water beneath the surface of earth
– 20 % of freshwater
• Water Table
– Level of water underground
– Near/at surface in wet regions
– 100+ m below in dry regions
Freshwater
• Surface Water
– Freshwater on Earth’s surface
– Found In:
• Lakes, Rivers, Streams, Wetlands
– Communities are built near reliable sources of surface water
Water Cycle
• Water Cycle
– Water is used in many processes of life
– Water is abundant and renewable
• Freshwater is scarce
– Split between sources (ice, ocean, atmosphere, etc.) always changes
Water Cycle
• Evaporation
– Liquid to gas
– Byproduct of cell respiration
• Transpiration
– Evaporation in plants
– Through leaves, stem, etc.
• Both require heat to occur
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Water Cycle
• Condensation
– Gas to liquid
– Creates cloud formation in the atmosphere
• Precipitation
– Rain releases water in the form of rain, sleet, snow, etc.
Water Cycle
• Groundwater
– Often ends up in ocean, river, etc.
– Taken up by plants through soil
– Humans use wells for irrigation
Freshwater Ecosystems
• Freshwater Ecosystems – Often split into flowing
and standing water
– Standing
• Slow or no motion
• Ponds, wetland, etc.
– Flowing
• Near-constant motion
• Rivers, streams, etc.
Freshwater Ecosystems
• Standing Water
– Ponds, lakes, etc.
– Often have few/no nutrients available
– Inland Sea
• Very large lake
• Animals adapted for open-water
• Ex: Great Lakes
Freshwater Ecosystems
• Littoral Zone
– Near shore
– Plants grow in mud
• Much of the nutrients are found here
• Limnetic Zone
– Away from shore, but generally lit
– No rooted plants
• Like open-ocean zone
Freshwater Ecosystems
• Wetlands
– Flooded at least part of the year
– Absorb water to prevent flooding
– Home for many commercial fish
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Freshwater Ecosystems
• Marsh
– Shallow water with many high grasses
– Ex: Meadowlands
• Swamp
– Shallow water with trees
– Ex: Bayou
• Bog
– Low nutrients and acidic water
– Often due to secondary succession
Freshwater Ecosystems
• Rivers and Streams
– Shape the landscape as they run
– Most sources in mountains
• Little life due to cold temps
– End in ocean or landlocked sea
– Flood plains are often fertile
Freshwater Ecosystems
• Estuaries
– Rivers flow into sea
• Brackish water
– Organisms tolerate high range of salinity
– High production due to nutrient collection
Freshwater Ecosystems
• Salt Marsh
– Stabilize shoreline
– Rivers leave mineral-rich mud
– Many animals grow to adulthood before going out to sea
– Ex: Chesapeake Bay
Freshwater Ecosystems
• Mangrove Forest
– Tropical regions
– Mangrove trees grow out to receive oxygen
– Protect shoreline from erosion
– Ex: Everglades
Watersheds
• Watershed – Area of land where
water drains to same place
– Also called drainage basin
– Often contains many tributaries
– Ex: Mississippi River watershed (1.2 million sq. miles)
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Watersheds
• Watershed – Small watersheds
combine into larger and end at sea
– Pollution in watershed reaches all other tributaries downstream
– Water used along watershed rivers decreases water available downstream
Groundwater
• Porosity
• Amount of space between particles in rock
• More porous rock holds more water
• Permeability • Ability of a rock to allow
water to flow through it
Groundwater
• Permeable
• Material that water can flow through (ex: gravel)
• Impermeable
• Material that water cannot flow through (ex: granite, clay)
Having more space
between individual
rocks will make the
ground more
permeable
Groundwater
• Aquifer – Underground
formation containing groundwater
– Like a sponge
– Usually contain permeable materials
– May be confined between impermeable rock
Groundwater
• Aquifer – Dry, Impermeable rock forms lower boundary
– The water table forms the upper boundary
Groundwater
• Recharge Zone
– Where surface water soaks into the ground
– Refills water in aquifer
– More permeable rock
• Quicker recharge of aquifer
– Sensitive to pollution
• Easily passes into aquifer
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Groundwater
• Well – Hole dug or drilled
for groundwater
– Usually deep into saturated zone
• Prevent drying up in drought
– Dry up if water table is below depth of well
Water Use
• Water Use – 9,087,000,000,000
m3/yr – About 70 % is used on
agriculture – Amount/split varies
based on nation’s wealth
– Global Shortage of clean water • 1/3rd of people are
affected
Water Use
• Residential Water Use – 8 % of total water use – Varies widely throughout the
world • US – 80 gal/day, India – 11
gal/day – 50 % used inside home
• Ex: cleaning, washing, etc. – ~ 50 % used outside home
• Ex: watering lawn/washing cars
Water Use
• Industrial Water Use
– 22 % of total water use
• 18 billion gal/day in US
– Manufacture goods, dispose of waste, generate power
• Most water used in industry cools power plants
Water Use
• Agricultural Water Use
– 70 % of total water use
– 80 gallons of water to produce 1 ear of corn
– About 80% of water used for agriculture evaporates before being absorbed
Water Use
• Irrigation – Watering plants
– Usually uses overhead sprinklers
• Much of the water is wasted
– Drip-irrigation is becoming common
• Individual plants are watered
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Water Diversion
• Water Diversion
– Moving water from source to where needed
– Used since ancient times
– Why?
• Bring water to make a dry area habitable
• Create reservoir
• Generate electric power
Water Diversion
• Canal
– Man-made water channels
– Built to cross impossible boundaries or divert water to dry climates
– Ex: Panama Canal
Water Diversion
• Aqueducts
– Bridges that divert water
• Often to arid climates or across valleys
– Common in ancient Rome
Water Diversion
• Dam
– Any obstruction to block flow of water
– Often used to slow water movement or prevent droughts/floods
• Reservoir
– Artificial lake created by dam
– Frequently used to provide drinking water
Water Diversion
• Dam – Benefits
• Flood control • Drinking water • Irrigation • Recreation • Industry • Electrical Energy
Water Diversion
• Dam – Costs
• Land behind dam can flood
• Nutrients blocked from reaching down river
• Displace people from homes
• Potential failure
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Water Pollution
• Water Pollution – Introduction of any
chemical, physical, or biological agents into water that:
• Degrade water quality
• Adversely affect the organisms that depend on the water
Water Pollution
• Point-Source Pollution
– Pollution from a single source
• Nonpoint-Source Pollution
– Pollution from several different sources
– Difficult to identify because they enter bodies of water many different ways
– 96% of all water pollution
Pollutants
• Pathogens – Disease-causing
organisms – Mostly from nonpoint
sources • Human/animal waste
– Most human health effects
– Ex: bacteria, viruses, protozoa, and parasitic worms
Pollutants
• Nutrient Pollution – Buildup of nitrogen and
phsophorus
– Mostly nonpoint-sources
– Seen in healthy lakes to an extent
– Lower oxygen levels and block sunlight
– Create algae blooms and red tide
Pollutants
• Toxic Chemicals – Mostly from nonpoint-sources
• Farms, lawns, Wastewater
– Organic
• Pesticides, fertilizers, detergents plastics, oil, VOC (volatile organic compounds)
– Inorganic
• Acids, salts, heavy metals
• Can affect pH levels
Pollutants
• Heavy Metals
– Cadmium: burning of fossil fuels, paint, batteries and electroplating
– Chromium: air-conditioning coolants, timber treating works, leather tanning works and electroplating
– Copper: vehicle brake pads, natural minerals, copper plumbing, irrigation water and pesticides
– Zinc: vehicle tires, motor oils, galvanizing works, corrosion from galvanized iron
– Lead: mainly car exhausts and engines
– Arsenic: brake linings, fluid leaks, vehicle emissions
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Pollutants
• Sediment Pollution
– Clouds up water to prevent photosynthesis
– Lowers water quality
– Result of runoff and erosion
– Causes: mining, clear-cutting, farming
Pollutants
• Thermal Pollution – Temperature of a body
of water rises
– Warmer water holds less oxygen
– Often due to power plants discharging water from their cooling systems
– Can also be due to tree removal
Water Pollution
• Bioaccumulation
– Buildup of pollutants higher up the food chain
– Water pollution can effect an ecosystem immediately or slowly over time
Ocean Pollution
• Ocean Pollution – ≥ 85% of ocean pollution
comes from activities on land • Runoff
– In some areas ships are allowed to dump wastewater/garbage directly into the ocean
– Affects coastlines the most
Oil Spills
• Oil Spills – 5% of ocean
pollution
– Each year:
• ~37 million gal from tanker accidents
• 200-300 mil gal from nonpoint-sources on land
Oil Spills
• Treatment
– Some oil will evaporate on its own
– Controlled burns
– Skimming from surface
– Dispersants
• Break oil into droplets
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Oil Spills
• Exxon-Valdez – March 24, 1989
– Struck a reef off the coast of Alaska
– Largest spill in US at the time
• 10,000,000+ gallons
– Remote location hindered cleanup
Oil Spills
• Exxon-Valdez
– 23,000 gallons are still in the soil near the wreck
– Killed 100,000+ seabirds, 12 otters, 22 orcas, 300 seals, 247 bald eagles
Oil Spills
• Deepwater Horizon – April 20, 2010
– Methane bubble rose out and exploded, sinking platform
– 11 workers died in explosion
– Largest spill in history
• 210,000,000 gallons
Oil Spills
• Deepwater Horizon
– Not capped until July 15, 2010
– Flooded gulf coast with oil
– BP owed > $ 42 billion as a result
Water Treatment
• Wastewater
– Water polluted from home or industrial use
– Must be cleaned before returned to a river or lake
• Water Treatment
– Process of cleaning water for drinking or industrial use
Water Treatment
• Water Treatment
– Starts with filtering large solids
– Coagulants are added
• Cause solids to form clumps called floc
• Floc settles and is pumped out
– Second filtering by fine grain sand removes remaining solids
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Water Treatment
• Water Treatment
– Chlorine is added to kill pathogens and prevent future growth
– Aeration breaks down materials and drives out unwanted gases
– Chemicals may be added (Ex: Fluoride) and the water is pumped out to consumers
Wastewater
• Sewage Sludge
– Solid material that remains after water treatment
– Often contains toxic chemicals
• Disposed as hazardous waste
– Incinerated and ashes are buried
– If toxicity can be reduced, it can be used as fertilizer
– Can be combined with clay and made into bricks
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