1. Aquatic Biodiversity

2. Core Case Study Why should we care about coral reefs?
Coral reefs form in clear, costal waters of the tropics and subtropics.
In terms of biodiversity, they are the marine equivalents of tropical rain forests.
Coral reefs are formed by massive colonies of tiny animals called polyps.

3. Coral Reefs Cont.
Coral reefs are the result of mutual beneficial relationships between the polyps and tiny single-celled algae called zooxanthellae.
Economically, coral reefs produce about 1/10 of the global fish catch.
● They provide fishing and ecotourism jobs for some of the worlds poorest countries.

4. Coral Reefs In Danger
In 2009 scientists estimated that 19% of the world’s coral reefs had been destroyed.
Coral reefs are vulnerable to damage because they grow slowly and are disrupted easily.
Coral reefs must live in 64-86°F, this explains why the biggest long-term threat to coral reefs may be projected climate change.

5. 8-1 What is the general nature of Aquatic Systems

6. Most of the Earth is covered in water
Main Idea – When viewed from a certain point in outer space, the earth appears to be almost completely covered with water.
Saltwater covers about 71% of the earth’s surface and freshwater covers another 3%.

7. Facts
The Global Ocean is divided into 4 areas (Atlantic, Pacific, Indian, Arctic)
Aquatic life zones are saltwater and freshwater portions of the biosphere that can support life.

8. Most Aquatic Species Live in Top, Middle, or Bottom Layers of Water
Saltwater and Freshwater life zones contain several major types of organisms.
In most aquatic systems, the key factors determining the types and number of organisms found In these layers.

9. Factors Temperature Dissolved Oxygen Content Availability Of Food
Availability Of Light
Nutrients Acquired

10. 8-2 Why Are Marine Aquatic Systems Important?

11. Oceans Provide Vital Ecological and Economic Services
One estimate of the combined value of these goods and services from all marine coastal ecosystems is over $12 Trillion per year.
Marine aquatic systems are enormous reservoirs of biodiversity.
Most coastal zone aquatic ecosystems have a high net yielding primary production.

12. Oceans Provide Vital Ecological and Economic Services

13. Estuaries and Coastal Wetlands Are Highly Productive
Estuaries are where rivers meet the sea.
They are partially enclosed bodies of water where seawater mixes with freshwater as well as nutrients and pollutants from streams, rivers, and run off the land.
Estuaries and their associated coastal wetlands are covered with water all parts of the year.

14. Estuaries and Coastal Wetlands Are Highly Productive

15. Rocky and Sandy Shores Host Different Types of Organisms
The gravitational pull of the moon and sun causes tides to rise and fall about every 6 hours in most coastal areas.
The area of shoreline between low and high tides called the intertidal zone.
The numerous pools and other habitats in these intertidal zones contain a great variety of species that occupy different niches in response to daily and seasonal changes in environmental conditions.

16. Rocky and Sandy Shores Host Different Types of Organisms

17. Coral Reefs Are Amazing Centers of Biodiversity
Coral reefs are among the world’s oldest, most diverse, and productive ecosystems.
These amazing centers of aquatic biodiversity are the marine equivalence of tropical rainforests, with complex interactions among there diverse populations of species.
Coral reefs provide homes for ¼ of all marine species.

18. Coral Reefs Are Amazing Centers of Biodiversity

19. Open Sea and the Ocean Floor Host a Variety of Species
The sharp increase in water depth at the edge of the continental shelf separates the coastal zone from the vast volume of the ocean called the open sea.
Temperatures change in depth and we can use them to define zones that help to determine species diversity in these layers.

20. Different Zones
Euphotic Zone
Bathyal Zone
Abyssal Zone

21. Open Sea and the Ocean Floor Host a Variety of Species

22. 8-3 How Have Human Activities Affected Marine Ecosystems?

23. Human Activities Are Disrupting and Degrading Marine Ecosystems
Human activities are disrupting and degrading some ecological and economic services provided by marine aquatic systems, especially coastal marshes, shorelines, mangrove forests and coral reefs.
In this 4 year study, an international team of scientists found that human activity has heavily affected 41% of the world’s ocean area.
There are many threats to marine systems from human activities.

24. Human Activities Are Disrupting and Degrading Marine Ecosystems

25. 8-4 Why Are Freshwater Ecosystems Important?

26. Water Stands in Some Freshwater Systems and Flows in Others
Freshwater life zones include standing bodies of freshwater such as lakes, ponds, and inland wetlands, and flowing systems such as streams and rivers.
Lakes are large natural bodies of standing freshwater formed when precipitation, runoff, streams, rivers, and groundwater seepage fill depressions in the earths surface.
Freshwater lakes vary tremendously in size, depth, and nutrient content.

27. Water Stands in Some Freshwater Systems and Flows in Others

28. Some Lakes Have More Nutrients Than Others
Ecologists classify lakes according to there nutrient content and primary productivity.
Lakes that have a small supply of plant nutrients are called oligotrophic lakes.
Glaciers and mountain streams supply water to many such lakes, bringing little in the way of sediment or microscopic life to cloud the water.

29. Some Lakes Have More Nutrients Than Others

30. Freshwater Streams and Rivers Carry Water from the Mountains to the Oceans
Precipitation that does not sink into the ground or evaporate is surface water.
It becomes runoff when it flows into streams.
A watershed, or drainage basin, is the land are that delivers runoff, sediment, and dissolved substances to a stream.
In many areas, streams begin in mountainous or hilly areas.

31. Freshwater Streams and Rivers Carry Water from the Mountains to the Oceans

32. Freshwater Inland Wetlands Are Vital Sponges
Inland wetlands are lands located away from coastal areas that are covered with freshwater all or part of the time excluding lakes, reservoirs and streams.
Some wetlands are covered with water year-round others called seasonal wetlands remain underwater or are soggy for only a short amount of time a year.
Inland wetlands provide a number of free ecological and economic services.

33. Freshwater Inland Wetlands Are Vital Sponges

34. 8-5 How Have Human Activities Affected Freshwater Ecosystems?

35. Human Activities Are Disrupting and Degrading Freshwater Systems
Human activities are disrupting and degrading many of the ecological and economic services provided by freshwater rivers, lakes and wetlands.
Flood control, levees, and dikes built along rivers disconnect the rivers from there flood plains, destroyed aquatic habitats, and alter or reduce the functions of nearby wetlands.

36. Human Activities Are Disrupting and Degrading Freshwater Systems
This loss of natural capital has been an important factor in increased flood damage in the united states, which are examples of unnatural disasters.

37. Case Study – The Chesapeake Bay
Since 1960, the Chesapeake Bay – the largest estuary in the United States – has been in serious trouble from water pollution, mostly because of human activities.
Between 1940 and 2007, the number of people living in the Chesapeake Bay area grew from 3.7 million to 16.8 million, and could reach 18 million by 2020, according to 2009 estimates by the Chesapeake Bay program.

38. Case Study – The Chesapeake Bay
Phosphate and nitrate levels have risen sharply in many parts of the bay, causing algal blooms and oxygen depletion.
The EPA and Clean Water Act were directed to take charge and help restore the lake to its full potential.

39. Case Study – The Chesapeake Bay

40. Case Study - Dams, Deltas, Wetlands, Hurricanes, And New Orleans
Coastal Deltas, mangrove forests, and coastal wetlands provide considerable natural protection against flood and wave damage from coastal storms, hurricanes, typhoons, and tsunamis.
This helps to explain why the US city of New Orleans has long been 3 meters below sea level, dams and levees were built to help protect the city from flooding.

41. Case Study - Dams, Deltas, Wetlands, Hurricanes, And New Orleans
Humans have built dams and levees along most of the worlds rivers to control water flows and provide electricity.
Because the dams retain river sediments, the river deltas do not get there normal input of sediment to build them back up as they naturally sink into the sea.

42. Case Study - Dams, Deltas, Wetlands, Hurricanes, And New Orleans