1. 1 Groundwater Pollution Week 1 – 0306 Introduction to Groundwater

2. 2 Water in three states: liquid, solid (ice), and water vapor in the air. Clouds are water droplets, condensed from vapor-saturated air.

3. 3 Water changes from one state to another. So water can be solid, liquid or gas. Water also moves. We call this the Water Cycle.

4. 4 http://ga.water.usgs.gov/edu/watercyclekoreanhi.html

5. 5 http://ga.water.usgs.gov/edu/watercycleprint.html

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7. 7 [ ] Condensation[ ] Evaporation [ ] Evapotranspiration[ ] Freshwater storage [ ] Ground-water discharge [ ] Ground-water storage [ ] Infiltration[ ] Precipitation [ ] Snowmelt runoff to streams [ ] Spring [ ] Streamflow[ ] Sublimation [ ] Surface runoff[ ] Water storage in the atmosphere [ ] Water storage in ice and snow [ ] Water storage in oceans [ ] Desublimation[ ] Plant uptake

8. 8 cycle – 주기 circulation – move around something like a circle.

9. 9 1.72, Groundwater Hydrology Lecture Packet 1 Prof. Charles Harvey http://ocw.mit.edu/NR/rdonlyres/Civil-and-Environmental-Engineering/1-72Fall-2005/4F444E12-8746-459D-A6BD- 1F42F7498903/0/1_72_lecture_1.pdf

10. 10 1.72, Groundwater Hydrology Lecture Packet 1 Prof. Charles Harvey http://ocw.mit.edu/NR/rdonlyres/Civil-and-Environmental-Engineering/1-72Fall-2005/4F444E12-8746-459D-A6BD- 1F42F7498903/0/1_72_lecture_1.pdf

11. 11 1.72, Groundwater Hydrology Lecture Packet 1 Prof. Charles Harvey http://ocw.mit.edu/NR/rdonlyres/Civil-and-Environmental-Engineering/1-72Fall-2005/4F444E12-8746-459D-A6BD- 1F42F7498903/0/1_72_lecture_1.pdf

12. 12 1.72, Groundwater Hydrology Lecture Packet 1 Prof. Charles Harvey http://ocw.mit.edu/NR/rdonlyres/Civil-and-Environmental-Engineering/1-72Fall-2005/4F444E12-8746-459D-A6BD- 1F42F7498903/0/1_72_lecture_1.pdf

13. 13 A lot of water is used for agriculture 56% is used by animals and plants 20% is lost when the water is moved 24% flows back into the stream or ground A lot of water is used for making electricity 87% of all industrial water use 1.72, Groundwater Hydrology Lecture Packet 1 Prof. Charles Harvey http://ocw.mit.edu/NR/rdonlyres/Civil-and-Environmental-Engineering/1-72Fall-2005/4F444E12-8746-459D-A6BD- 1F42F7498903/0/1_72_lecture_1.pdf

14. Water can dissolve many things. Water consists of two atoms of hydrogen and one of oxygen, which give it a chemical formula of H 2 O. 14

15. Water can dissolve at least small amounts of almost all substances that it contacts. Ground water usually contains the largest amounts of dissolved solids. 15

16. The composition and concentration of substances dissolved in unpolluted ground water depend on the chemical composition of precipitation, on the biologic and chemical reactions occurring on the land surface and in the soil zone, and on the mineral composition of the aquifers and confining beds through which the water moves. 16

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23. The concentrations of substances dissolved in water are in units of weight per volume. In the International System (SI), the most commonly used units are milligrams per liter. 23

24. A milligram equals 1/1,000 (0.001) of a gram, and a liter equals 1/1,000 of a cubic meter, so 1 mg/L equals 1 gram m -3. 24

25. Because the concentration of most substances dissolved in water is relatively small, the weight per weight unit commonly used is parts per million (ppm). 25

26. Pollution of Groundwater Pollution of ground water is any loss of quality of the water because of what people do. 26

27. Most pollution of ground water comes from the disposal of wastes on the land surface, in shallow holes including septic tanks, or through deep wells and mines; the use of fertilizers and other agricultural chemicals; leaks in sewers, storage tanks, and pipelines; and animal feedlots. 27

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33. The size of any pollution problem depends on the size of the area affected and the amount of the pollutant involved, the solubility, toxicity, and density of the pollutant, the mineral composition and hydraulic characteristics of the soils and rocks through which the pollutant moves, and the effect or potential effect on ground-water use. 33

34. Affected areas range in size from point sources, such as septic tanks, to large urban areas having leaky sewer systems and numerous municipal and industrial waste-disposal sites. 34

35. Nearly all substances are soluble to some extent in water, and many chemical wastes are highly toxic even in minute (very small) concentrations. 35

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37. The density of a liquid substance - that is, the weight per unit volume of the substance relative to that of water - affects its underground movement. 37

38. Densities range from those of petroleum products that are less dense than water other substances that are denser than water. 38

39. Substances less dense than water stay at the top of the saturated zone; if, like petroleum, they are immiscible, they will tend to spread in all directions as a thin film. 39

40. Substances denser than water tend to move downward through the saturated zone to the first extensive confining bed. 40

41. The mineral composition and physical characteristics of soils and rocks through which pollutants move may affect the pollutants in several ways. 41

42. If a pollutant enters the ground at a "point," it will be dispersed longitudinally and laterally in granular materials so that its concentration will be reduced in the direction of movement. 42

43. Organic substances and other biodegradable materials tend to be broken down both by oxidation and by bacterial action in the unsaturated zone. 43

44. Certain earth materials, especially clays and organic matter, may also absorb trace metals and certain complex organic pollutants and reduce their concentration as they move through the underground environment. 44 Certain earth materials, especially clays and organic matter, may also absorb trace metals and certain complex organic pollutants and reduce their concentration as they move through the underground environment.

45. The hydraulic characteristics of the soils and rocks determine the path taken by and the rate of movement of pollutants. 45

46. Substances dissolved in water move with the water except to the extent that they are tied up or delayed by adsorption. 46

47. The movement of pollutants is most through the most permeable zones; the farther their point of origin from a ground- water discharge area, the deeper they penetrate into the ground- water system and the larger the area ultimately affected. 47

48. The factors related to the movement of pollutants discussed in the preceding paragraphs must be carefully considered in the selection of waste-disposal sites, animal feedlots, and sites for other operations that may cause ground-water pollution. 48