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Chapter 14 water pollution
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Pollution can come from specific sites or broad areas
Water pollution: is generally defined as the contamination of streams, fivers, lakes, oceans or groundwater with substances produced through human activities and that negatively affect organisms. There are many ecological connections b/w aquatic and terrestrial ecosystems. Water pollution has the potential to impact both aquatic and terrestrial oganisms
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Point and nonpoint sources.
Point sources- are distinct locations such as a particular factory that pumps its waste into a nearby stream or a sewage treatment plant that discharges its water from a pipe into the ocean. Nonpoint sources- are more diffuse areas such as an entire farming region, a suburban community with many lawns and septic systems or storm runoff from parking lots.
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Nonpoint and point sources
By knowing these two sources, you can help in controlling pollutant inputs to waterways. If municipality determines that the bulk of water pollution is coming from one or two point sources, It can target those specific sources to reduce their pollution out put. Nonpoint is the most difficult to control pollution.
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Pollution Pollution represents an externality.
This is because the cost to the environment is not reflected in the cost of making the products that generate pollution. Pollutants that can be found in water includes: Human and animal waste Inorganic substances Organic compounds Synthetic organic compounds Nonchemical pollutants With these groups we must consider: Where the pollutant comes from The negative effects on humans and environment How to reduce these effects
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Human wastewater is a common pollutant
Human Wastewater- is the water produced by human activities including human sewage from toilets and gray water from bathing and washing clothes and dishes. There are huge concerns with these: Wastewater dumped into bodies of water naturally undergoes decomposition by bacteria Creates a large demand for oxygen in Water The nutrients that are released from wastewater decomposition can make the water more fertile. wastewater can carry a wide variety of disease-causing organisms.
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Oxygen demand Oxygen-demanding waste- organic matter that enters a body of water and feeds the growth of the microbes that are decomposers. The more waste, the more microbes, more demand of oxygen. Oxygen-demanding waste is measured in terms of biochemical oxygen demand (BOD) Amount of oxygen a quantity of water uses over a period of time at a specific temperature.
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BOD Lower BOD indicate more polluted by wastewater
Higher BOD indicate is less polluted by waste-water. In a natural waters BOD are 5-20 mg of oxygen Decomposition from leaves, twigs and dead organisms. In domestic waste waters BOD are 200 mg of oxygen. Dead zones are zones in water where oxygen concentrations are so low that there is little life. Lower BOD’s = less oxygen for organisms= dead zone.
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Nutrient release Along with oxygen, we must think about nitrogen and phosphorus. This also a byproduct of decomposition. Soaps and detergents can add these elements With these elements added, the decomposition will cause an abundance of fertility to a water body. This is known as eutrophication. When there is an increase in fertility due to anthropogenic inputs of nutrients is called Cultural eutrophication. Anthropogenic- anything human related (fertilizer run offs, etc.)
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Euthrophication This causes a growth of algae.
This is known as algal bloom. When the algae die, microbes break down the dead algae. Increase of microbes increase the consumption of Oxygen. This creates a dead zone.
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Disease-causing organisms
In addition to wastewater, it can carry pathogens. Illness caused by viruses, bacteria and parasites. Worldwide, the well known water born diseases are Cholera and hepatitis. Cholera claims thousands of lives annually in developing countries. Hepatitis A is appearing more frequently in the U.S Lack of adequate sanitation practices in restaurants. Bacterium Cryptosporidium caused a number of outbreaks of gastrointestinal illness in the U.S.
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Access to sufficient supplies of safe drinking water
The world health organization estimates that 1.1 billion people do not have access to safe drinking water. That’s nearly one-sixth of the world’s population. Half of the 3.1 million annual deaths from diarrheal diseases and malaria could be prevented with safe drinking water. As well as, proper sanitation, and proper hygiene. Approximately 42% of the world’s population lacks access to proper sanitation and over half of the people that live in Chine and India.
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Test for unsafe drinking water.
It is not feasible to test for all of the many different pathogens that can exist in drinking water. Very expensive Low cost is looking for indicator species. An organism that indicates whether or not disease-causing pathogens are likely to be present. Best indicators are fecal coliform bacteria. Group of generally harmless microorganisms that live in the intestines of human beings and other animals. Common species are E. coli
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We have technologies to treat wastewater from humans and livestock
Treating human wastewater will reduce the risk of waterborne pathogens. The solutions are the same approach Bacteria break down of organic matter into carbon dioxide and inorganic compounds (nitrate and phosphate) 2 most widespread for treating sewage: Septic systems Sewage treatment plants. But the most prevalent system to treat waste from large livestock operations is a manure lagoon.
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Septic Systems In rural areas of low population density, houses have their own sewage treatment system. (best system for rural areas) Septic system Relatively small and simple system with two components: Septic tank and leach field. Septic tank- large container that receives wastewater from the house.
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Septic system Wastewater from the house flows into the tank at one end and leaves the tank at the other. After some time, three layers form: Scum layer- anything that is a top Sludge – anything heavier that sinks at bottom Septage- the middle that is fairly clear water layer Contains large quantities of bacteria and pathogenic organisms and inorganic nutrients (Nitrogen and phosphorus)
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Septic System Septage moves out of the septic tank by gravity into several underground pipes laid out below the lawn. The combination of pipes and lawn makes up the leach field. The pipes contain small perforations so the water can slowly seeps out and spread across the leach field. Septage that seeps out is slowly absorbed and filtered by the surrounding soil
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Septic System. Harmful pathogens can settle and become part of the sludge, be outcompeted by other microorganisms in the septic tanks. This will diminish in abundance or be degraded by soil microorganisms in the leach field. The organic matter is broken down into carbon dioxide and inorganic nutrients. Eventually, the water and nutrients are taken up by plants or enter a nearby stream or quifer.
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Advantages Because most septic systems rely on gravity, water from the house flows downhill to the septic tank. Water from the septic tank flows downhill to the leach field. No electricity is needed to run a septic system. HOWEVER, sludge from the tank must be pumped out periodically
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