1. Human Impact on the Lithosphere

2. Why is the lithosphere important?
Provides land/space on which to live
Provides necessary resources required for survival, like food and fuel

3. How Land Use Has Changed…
Over the past hundreds of years, our use of the land has changed drastically
We have changed from a largely rural area to more agriculture based, and from there to more industry-based

4. 3 major practices that affect quality of lithosphere
Deforestation
Agriculture
Urbanization

5. Deforestation
Forests are cut down for the purpose of building and agriculture
Removing plants increases the rate of erosion, because the plant roots no longer secure the soil in one place

6. urbanization
Increasing population has led to the need for more land space for homes, resulting in use of more natural resources and limiting availability of farmland.

7. AGRICULTURE
In addition to losing soil by deforestation, we also lose tons of topsoil each year through agriculture
Topsoil is the upper, outermost layer of soil, usually the top 2 inches. It has the highest amount of organic matter and microorganisms, and is where plants obtain most of their nutrients

8. agriculture
Traditional agriculture techniques, like plowing, remove topsoil and require replanting each year. The United States alone loses almost 3 tons of topsoil per acre per year.

9. Sustainability is based on a simple principle: Everything that we need for our survival and well-being depends, either directly or indirectly, on our natural environment.  Sustainability creates and maintains the conditions under which humans and nature can exist in productive harmony, that permit fulfilling the social, economic and other requirements of present and future generations.
Sustainability is important to making sure that we have and will continue to have,  the water, materials, and resources to protect human health and our environment.

10. Sustainability is about treating all parties fairly
Sustainability is about treating all parties fairly. Farmers getting a fair market price for their goods, consumers paying prices reflecting reasonable profits set by producers of goods/services, workers receiving appropriate wages for the job done under safe, acceptable working conditions. All the while, the underlining concern is being responsible for our use of natural resources, being fair to the environment as well.

12. Sustainable agriculture
Preserving fertile topsoil is essential to feeding the world’s rapidly growing population. This can be done through:
(1) Windbreaks
(2) Terracing hillsides
(3) Contour plowing
(4) Crop rotation

13. WINDBREAKS
Windbreaks are located along crop field borders or within the field itself
How do windbreaks help to reduce erosion rates?

14. TERRACING HILLSIDES
Terracing is the building of wide flat rows of terraces on mountainside and hillsides. The terraces look like big staircases. They hold rainwater so that it will not wash away the soil.

15. CONTOUR PLOWING
Instead of plowing up and down, farmers plow across a slope. In this way, the soil forms a ridge that slows down the flow of water, so soil is not carried away.

16. CROP ROTATION
Crop rotation is the practice of growing a series of different types of crops in the same area in back to back seasons. It maintains a balance of nutrients in the soil.

17. Effect of development on shoreline
Construction along the shoreline increases the rate of erosion beyond the already high rate of erosion experienced along shorelines due to the ocean.

18. Artificial stabilization: Shoreline structures
Structures can be built to protect a coast from erosion or to prevent movement of sand along a beach:
Groins
Breakwaters
Seawalls

19. Artificial stabilization: groins
Groins are barriers built at right angles to the beach to trap sand that is moving parallel to the shore. Groins are built to maintain or widen beaches that are losing sand.

20. Artificial stabilization: breakwaters
Breakwaters are built parallel to the shoreline off the coast to limit the force of oncoming waves.

21. Artificial stabilization: SEAWALLS
Structure designed to prevent impact of tides and waves on property, built directly along the shoreline.

22. Artificial stabilization: SEAWALLS
Structure designed to prevent impact of tides and waves on property, built directly along the shoreline.

23. Artificial stabilization: beach nourishment
Beach nourishment projects add large quantities of sand to the beach system. It is an attempt to stabilize shorelines without adding protective features.

25. Beach nourishment: disadvantages
Temporary fix; waves will eventually erode the replacement sand as well
Expensive: costs lots of money to transport sand to the beach from offshore areas
Negative effects on marine life: dredging sand off the coast replaces natural, coarse sand with softer, muddier sand that increases the cloudiness (turbidity) of the water and can kill offshore coral reefs

26. Effect of development on mountainsides
Construction along mountainsides can decrease the stability of the land, allowing for a greater rate of erosion. Mass movements (ex: rockslides) are more probable.

27. Types of mass movements
Slopes/mountains change constantly in response to natural processes; in this case, gravity. The transfer of rock and sediment downslope due to gravity is called mass movements. Examples:
1. Falls
2. Slumps
3. Flows
4. Creeps

28. Falls
A Rockfall is a type of landslide where pieces of rock move downhill. Quickest mass movements (>200km/hour).

29. Slumps
A slump is the downward movement of a block of material along a concave surface. The material in a slump moves very suddenly and not very far.

30. Flows
Mudflows are mass movements of material that contain large amounts of water that move downslope as a thick mud. Mudflows move very quickly. Earthflows move relatively slow and may continue for years.

31. Creep is the slowest type of mass movement – only a few mm or cm/year
Creep is the slowest type of mass movement – only a few mm or cm/year. Cause structures that were once straight to tilt downward.

32. Artificial stabilization: slope revetment
Screen mesh, or slope revetment draped over a steep slope keeps rocks loosened by an earthquake from bouncing onto the road. This is a cheap and effective method of protecting the roadway.

33. Artificial stabilization: retaining walls
Road or mountainside construction and natural processes can remove some of the base of a slope making the upper part of the slope less stable. A retainment wall can support the upper part of a slope, stopping or slowing mass wasting.

34. Artificial stabilization: slope vegetation
While harvesting trees, Selective Cutting can thin the forest but still leave enough mature trees to anchor the slope and protect sediment from rainfall and runoff. Enough large trees remain to anchor and protect the slope from severe mass wasting.