using&laws&to&protectdrinking&& water&quality& · · 2017-04-13•...
TRANSCRIPT
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Using Laws to Protect Drinking Water Quality
• 1974: U.S. Safe Drinking Water Act – Sets maximum contaminant levels for any pollutants that affect human health
• Health scienGsts: strengthen the law
• Water-‐polluGng companies: weaken the law
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Laws Can Help Reduce Water PolluGon from Point Sources
• 1972: Clean Water Act 1987: Water Quality Act
• EPA: experimenGng with a discharge trading policy that uses market forces – Cap and trade system – Could this allow pollutants to build up?
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Water PolluGon Comes from Point and Nonpoint Sources (1)
• Water pollu+on – Change in water quality that can harm organisms or make water unfit for human uses
– ContaminaGon with chemicals – Excessive heat
• Point sources – Located at specific places – Easy to idenGfy, monitor, and regulate – Examples
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Water PolluGon Comes from Point and Nonpoint Sources (2)
• Nonpoint sources – Broad, diffuse areas – Difficult to idenGfy and control – Expensive to clean up – Examples
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Case Study: The U.S. Experience with Reducing Point-‐Source PolluGon (1)
• Numerous improvements in water quality
• Some lakes and streams are not safe for swimming or fishing
• Treated wastewater sGll produces algal blooms
• High levels of Hg, pesGcides, and other toxic materials in fish
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Case Study: The U.S. Experience with Reducing Point-‐Source PolluGon (2)
• Leakage of gasoline storage tanks into groundwater
• Many violaGons of federal laws and regulaGons
• Need to strengthen the Clean Water Act
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Water PolluGon Comes from Point and Nonpoint Sources (3)
• Leading causes of water polluGon 1. Agriculture acGviGes
• Sediment eroded from the lands • FerGlizers and pesGcides • Bacteria from livestock and food processing wastes
2. Industrial faciliGes
3. Mining
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PotenGal Pathways on Which Toxic Chemicals Move Through the Environment
Fig. 17-‐9, p. 447
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Principal Sources of Groundwater ContaminaGon in the U.S.
Fig. 20-‐13, p. 540
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Point Source of Polluted Water in Gargas, France
Fig. 20-‐3, p. 530
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Lake Polluted with Mining Wastes
Fig. 20-‐5, p. 531
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PlasGc Wastes in Mountain Lake
Fig. 20-‐6, p. 531
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Major Water Pollutants Have Harmful Effects
• InfecGous disease organisms: contaminated drinking water
• The World Health OrganizaGon (WHO) – 1.6 million people die every year, mostly under the age of 5
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Major Water Pollutants and Their Sources
Table 20-‐1, p. 532
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Common Diseases Transmided to Humans through Contaminated Drinking Water
Table 20-‐2, p. 532
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Persistent Organic Pollutants (POPS) • “Dirty Dozen” – 12 chemicals: includes DDT and 8 other chlorine containing persistent pes+cides, + PCB’s, dioxins, furans...
– Stockholm ConvenGon regulated POP’s 2009 – Can accumulate in fady Gssues of humans and other organisms that occupy high trophic levels in food webs...can be transported long distances b/c they don’t break down
– They can reach levels thousands of Gmes higher than the general environment through bioaccumulaGon and biomagnificaGon
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Some Chemicals May Affect Our Immune and Nervous Systems
• Some natural and syntheGc chemicals in the environment can weaken and harm – Immune system – Nervous system
• Neurotoxins: PCBs, arsenic, lead, some pesGcides
– Endocrine system
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Case Study: PCBs Are Everywhere—A Legacy from the Past
• Class of chlorine-‐containing compounds – Very stable – Nonflammable – Break down slowly in the environment – Travel long distances in the air – Fat soluble – BiomagnificaGon – Food chains and webs
• Banned, but found everywhere
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Science Focus: TesGng Water for Pollutants (1)
• Variety of tests to determine water quality
• Coliform bacteria: Escherichia coli, significant levels
• Level of dissolved oxygen (DO)
• Chemical analysis
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Fig. 20-‐A, p. 533
Good 8–9
Water Quality
DO (ppm) at 20°C
Slightly polluted
6.7–8
Moderately polluted
4.5–6.7
Heavily polluted 4–4.5
Gravely polluted Below 4
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Streams Can Cleanse Themselves If We Do Not Overload Them
• DiluGon • BiodegradaGon of wastes by bacteria takes Gme
• Oxygen sag curve
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Fig. 20-‐7, p. 534
Point source
Pollu+on-‐ tolerant fishes (carp, gar)
Fish absent, fungi, sludge
worms, bacteria
(anaerobic) Types of organisms
Normal clean water organisms
(Trout, perch, bass, mayfly,
stonefly)
Pollu+on-‐ tolerant fishes (carp, gar) 8 ppm
Normal clean water organisms
(Trout, perch, bass, mayfly,
stonefly)
Dissolved oxygen (ppm)
8 ppm
Biochemical oxygen demand Recovery
Zone
Clean Zone
Sep+c Zone Decomposi+on
Zone Clean Zone
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Fig. 20-‐16, p. 545
Industry Nitrogen oxides from autos and smokestacks, toxic chemicals, and heavy metals in effluents flow into bays and estuaries.
Ci+es Toxic metals and oil from streets and parking lots pollute waters; sewage adds nitrogen and phosphorus.
Urban sprawl Bacteria and viruses from sewers and sep+c tanks contaminate shellfish beds and close beaches; runoff of fer+lizer from lawns adds nitrogen and phosphorus.
Construc+on sites Sediments are washed into waterways, choking fish and plants, clouding waters, and blocking sunlight.
Farms Runoff of pes+cides, manure, and fer+lizers adds toxins and excess nitrogen and phosphorus.
Red +des Excess nitrogen causes explosive growth of toxic microscopic algae, poisoning fish and marine mammals.
Closed shellfish beds
Closed beach
Oxygen-‐depleted zone
Toxic sediments Chemicals and toxic metals contaminate shellfish beds, kill spawning fish, and accumulate in the +ssues of bohom feeders.
Oxygen-‐depleted zone Sedimenta+on and algae overgrowth reduce sunlight, kill beneficial sea grasses, use up oxygen, and degrade habitat.
Healthy zone Clear, oxygen-‐rich waters promote growth of plankton and sea grasses, and support fish.
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Science Focus: Oxygen DepleGon in the Northern Gulf Of Mexico
• Severe cultural eutrophicaGon
• Oxygen-‐depleted zone
• OverferGlized coastal area
• PrevenGve measures • Will it reach a Gpping point?
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A Large Zone of Oxygen-‐Depleted Water in the Gulf of Mexico Due to Algal Blooms
Fig. 20-‐B, p. 546
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Sewage Treatment Reduces Water PolluGon (1)
• Sep+c tank system
• Wastewater or sewage treatment plants – Primary sewage treatment
• Physical process – Secondary sewage treatment
• Biological process with bacteria – TerGary or advance sewage treatment
• Special filtering processes • Bleaching, chlorinaGon
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Sewage Treatment Reduces Water PolluGon (2)
• Many ciGes violate federal standards for sewage treatment plants
• Should there be separate pipes for sewage and storm runoff?
• Health risks of swimming in water with blended sewage wastes
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SoluGons: Primary and Secondary Sewage Treatment
Fig. 20-‐20, p. 551
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ScienGsts Use Live Lab Animals and Nonanimal Tests to EsGmate Toxicity (1)
• Mice and rats – Systems are similar to humans – Small, and reproduce rapidly – Is extrapolaGon to humans valid?
• Dose-‐response curve: median lethal dose (LD50) – Nonthreshold dose-‐response model – Threshold dose-‐response model
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ScienGsts Use Live Lab Animals and Nonanimal Tests to EsGmate Toxicity (2)
• More humane methods using animals
• Replace animals with other models – Computer simulaGons – Tissue culture and individual animal cells – Chicken egg membranes
• What are the effects of mixtures of potenGally toxic chemicals?
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HypotheGcal Dose-‐Response Curve Showing DeterminaGon of the LD50
Fig. 17-‐13, p. 453
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Fig. 12-‐10, p. 289
Natural Capital Degrada+on
Food Produc+on
Biodiversity Loss Soil Water Air Pollu+on Human Health
Loss and degrada+on of grasslands, forests, and wetlands in cul+vated areas
Erosion Water waste Emissions of greenhouse gas CO2 from fossil fuel use
Nitrates in drinking water (blue baby)
Loss of fer+lity Aquifer deple+on
Pes+cide residues in drinking water, food, and air
Saliniza+on Increased runoff, sediment pollu+on, and flooding from cleared land
Emissions of greenhouse gas N2O from use of inorganic fer+lizers
Fish kills from pes+cide runoff
Waterlogging
Contamina+on of drinking and swimming water from livestock wastes
Killing wild predators to protect livestock
Deser+fica+on Pollu+on from pes+cides and fer+lizers Emissions of
greenhouse gas methane (CH4) by cahle (mostly belching)
Increased acidity
Loss of gene+c diversity of wild crop strains replaced by monoculture strains
Algal blooms and fish kills in lakes and rivers caused by runoff of fer+lizers and agricultural wastes
Bacterial contamina+on of meat
Other air pollutants from fossil fuel use and pes+cide sprays
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Topsoil Erosion Is a Serious Problem in Parts of the World
• Soil erosion – Movement of soil by wind and water – Natural causes – Human causes
• Two major harmful effects of soil erosion – Loss of soil ferGlity – Water polluGon
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Topsoil Erosion on a Farm in Tennessee
Fig. 12-‐11, p. 289
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Reducing Surface Water PolluGon from Nonpoint Sources
• Agriculture – Reduce erosion – Reduce the amount of ferGlizers – Plant buffer zones of vegetaGon – Use organic farming techniques – Use pesGcides prudently – Control runoff – Tougher polluGon regulaGons for livestock operaGons
– Deal beder with animal waste
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Fig. 12-‐11, p. 289
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Cultural EutrophicaGon Is Too Much of a Good Thing (1)
• Eutrophica+on – Natural enrichment of a shallow lake, estuary, or slow-‐moving stream
– Caused by runoff into lake that contains nitrates and phosphates
• Oligotrophic lake – Low nutrients, clear water
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Cultural EutrophicaGon Is Too Much of a Good Thing (2)
• Cultural eutrophica+on – Nitrates and phosphates from human sources – Farms, feedlots, streets, parking lots – FerGlized lawns, mining sites, sewage plants
• During hot weather or droughts – Algal blooms – Increased bacteria – More nutrients – Anaerobic bacteria
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Cultural EutrophicaGon Is Too Much of a Good Thing (3)
• Prevent or reduce cultural eutrophicaGon – Remove nitrates and phosphates – Diversion of lake water
• Clean up lakes – Remove excess weeds – Use herbicides and algaecides; down-‐side? – Pump in air
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Cultural EutrophicaGon of Chinese Lake
Fig. 20-‐11, p. 537
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Lake Fish Killed by Water PolluGon
Fig. 20-‐10, p. 536
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Case Study: PolluGon in the Great Lakes (1)
• 1960s: Many areas with cultural eutrophicaGon • 1972: Canada and the United States: Great Lakes polluGon
control program – Decreased algal blooms – Increased dissolved oxygen – Increased fishing catches – Swimming beaches reopened – Beder sewage treatment plants – Fewer industrial wastes – Bans on phosphate-‐containing household products
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Case Study: PolluGon in the Great Lakes (2)
• Problems sGll exist – Raw sewage – Nonpoint runoff of pesGcides and ferGlizers – Biological polluGon – Atmospheric deposiGon of pesGcides and Hg
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Case Study: PolluGon in the Great Lakes (3)
• 2007 State of the Great Lakes report – New pollutants found – Wetland loss and degradaGon – Declining of some naGve species – NaGve carnivorous fish species declining – What should be done?
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The Great Lakes of North America
Fig. 20-‐12, p. 538
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