2. 1. Draw a pie chart that represents the distribution of water on earth. 2. Why is stewardship of our fresh water vital? Write as many reasons as possible

3. 1. 97% salt 3% fresh Majority of fresh water in ice caps & glaciers Majority of accessible fresh water found in aquifers 2. Limited supply of fresh water Fresh water is not distributed equally on the planet or in the US Water systems are connected, Contaminated water in one area will end up in another Toxins in fresh water & salt water can accumulate in food & wild life

4. 3. Describe how water moves in and out of an aquifer. 4. How do human activities and climate conditions affect an aquifer?

5. 3. Water moves in through recharge zone into aquifer Water out through wells Gravity moves water through the aquifer toward oceans or other major water source 4. Increasing the withdrawal of water from an aquifer by homes and industry lowers the water table. Without recharge (rain), water supply is depleted. Extreme drought diminishes recharge and lowers water table Pollution that enters recharge zones (animal waste/farms, landfills, illegal dumping) makes its way to groundwater

6. Aquifers are large reservoirs of ground water. These can be accessed by wells, some natural springs bring water out of aquifers through the force of gravity. Water in an aquifer is usually cleaner than surface water, b/c it filters through rocks and sand (recharge area) on it’s way to the aquifer. The water table is the top of the water in an aquifer.

7. Describe how water moves across earth’s surface. Sketching a watershed may help in your description.

8. A watershed is the large area of land the drains waters into streams, that then feed into larger and larger rivers, until draining into a major river. Watersheds are bordered by divides…high areas of land (mtns) that separate one watershed from another http://www.youtube.com/watch?v=2KCBRPEs4g4

9. Summary 97% of earth’s water is in the oceans Of the remaining 3% fresh water…most is frozen in glaciers and polar ice caps The largest % of fresh water is groundwater… aquifers Fresh water moves across earth’s surface in watersheds/riverbasins

10. Water Quality Indicators The health of a water system is determined by the balance between physical, chemical, and biological variables. Physical variables include temperature, turbidity. Chemical variables include dissolved oxygen and other gases, pH, nitrates and phosphates. Both natural and man-made forces are constantly changing these variables. Biological variables are living organisms.

11. Describe: a) How each of the following indicators affects water quality. b) What may cause each to reach an unhealthy level? Temperature Turbidity Dissolved Oxygen pH Nitrates and Phosphates

12. Water Quality Indicator Notes Turbidity Description: Murkiness of water due to suspended particles Levels: Ideal = 1NTU High = 5 NTU+

13. Turbidity Causes: Erosion from construction urban run off disturbance of stream beds from bottom feeders/livestock increased algal growth septic system leaks decaying plant matter flooding

14. Turbidity Results: Increase temperature Decrease in DO Clogs gills in some aquatic organisms, smothers aquatic plants making photosynthesis difficult

15. Temperature Definition: Amount of kinetic energy Levels: Low: cannot be tolerated below 32 0 F High: only rough fish can tolerate temperatures above 97 0 F

16. Temperature Causes: Loss of shade from removal of vegetation Thermal Pollution: industry discharge seasonal temp changes Results: Decreased levels of DO increased bacterial levels increased algae growth

17. 4. Thermal pollution from human activities Temperature increases from human activities Photo: Dominion Virginia Power – North Anna Power Station

18. pH Description: How acidic is the water Levels: 0  7 is acidic 7 is neutral 7  14 is basic Surface Freshwater: 6.0  9.0

19. pH Cause: Acid rain minerals in soils Results: Death of sensitive bio-indicators Death or damage to plants

20. What is pH? 0-7 water is acidic 7 water is neutral 7-14 water is basic

21. What is the optimum freshwater pH? Rainfall: 5 – 6.5 Most freshwater systems: 7 - 8 Most aquatic organisms: 6.5 – 8.2

22. Dissolved Oxygen Description: Oxygen gas dissolved in water O 2 enters water through photosynthesis and churning water Levels: 4-5 ppm optimal to support life

23. Dissolved Oxygen Cause: Increased Temp Decaying plant material Effect: Less diversity of bio-indicators fish-kills

24. Nitrates & Phosphates Description: Excess nutrients Level: Nitrates above 1 ppm Phosphates above.003 ppm

25. Nitrates & Phosphates Cause: Fertilizer run off Animal waste Leaking septic systems Manure pits (hog farms, etc) Clay soils (phosphates) Result: Eutrophication – overgrowth of algae (pond scum) Low DO

26. 1995 Lagoon break at Cape Fear

27. Nitrates & Phosphates

29. What are bio-indicators and how are they used to determine water quality?

30. Bio-Indicators Description: Macro-invertebrates living in water that are sensitive to pollution Healthy Level: Large numbers and diversity

31. Bio-indicators are living organisms that require specific conditions in order to survive. Their presence in waters, or lack of presence, is an indicator of the health of a water system. They can be used as sentinels of a developing problem

32. What is eutrophication? Describe the impact of human activity on eutrophication.

33. Bio-Indicators Cause: Increased levels of pollution Result: Less diversity of organisms Fewer organisms

34. EUTROPHICATION FLOW CHART Excess Nutrients  Algal Bloom (pond scum)  darkness below surface  photosynthesis stops  decomposers & other organisms use up oxygen  DEATH (gradual buildup of dying plant matter  the pond becomes a meadow)

36. Identify each of the following as point source or nonpoint source pollution: 1. 2. 3. 4. 5. 6. Runoff

37. Stewardship implies that we are caretakers of our water for future generations. The EPA established the Clean Water Act to ensure oversight and testing of surface waters

39. Intertidal Deep ocean Open ocean Neritic Ocean regions are determined by temperature and light penetration

40. Ocean RegionPropertiesAdaptations of species that live there Intertidal Neritic Open Ocean Deep Ocean

41. 1. Intertidal Shallowest area Between the low and high tide lines Changing environment

42. Buckshot Barnacles

43. 2. Neritic Zone Always underwater On continental shelf Coral reef…diversity & nutrients

44. Plankton Phytoplankton =ocean producers Zooplankton eat phytoplankton

45. Coral Sponge with brittle star

46. Oceanic Zones Open Ocean Surface – 200 meters Sunlight, warm Less plentiful nutrients

47. Deep Zone - starts at continental slope and extends to 4000 m - little or no sunlight - cold 4°C - very high pressure Brittle Stars

48. Coelacanth Deep Sea Angler Ogrefish

49. How does water move through the ocean? Water moves through the ocean, driven by currents. Surface currents are caused by waves, deep currents are caused by differences in density.

50. Nutrients move up from the ocean floor through upwelling. http://www.youtube.com/watch?v=APMzM-xYlOs How do climate patterns affect upwelling?

51. Change in climate pattern affects ocean surface temperatures. These alter wind patterns which are responsible of the location and strength of upwelling.

55. Describe the importance of estuaries to the environment.