2. Landscapes and Landscape Development Topic 14 in Review Book

3. A. ESRT page 2 used with page 3 shows the landscape regions of NYS and the associated bedrock.  Be familiar with the use of these pages

6. B. Factors that influence landscape formation 1. Climate: a. Type and amount of precipitation:  arid vs humid

7.  Arid climates result in angular features with steep slopes  Humid climates result in rounded features with gentle slopes

8. b. Type and amount of vegetation:  Vegetation prevents excessive weathering and erosion resulting in more gentle slopes

9. c. Range in temperature d. Duration and velocity of winds

10. 2. Rock Type  Resistance to weathering influences landscape development  Resistant bedrock results in steep, angular slopes  Nonresistant bedrock results in gentle, rounded slopes

11.  Variations in resistance creates unique landscape formations such as escarpments (cliffs) waterfalls

12. 3. Geologic Structures  Used to classify landscape regions  Are tied to changes in bedrock  Indicate landscape boundaries

13.  Faulted and/or folded bedrock create characteristic landscape features

14. C. Drainage Patterns  Bedrock and its various structures result in characteristic patterns of ground and surface water drainage  See Review Book page: 274 & 275

17. D. Landscape Features  See definitions  See the pictures throughout topic 14 that illustrate the different landscape formations and rock types.

18. V. Hydrology  The study of water in, on and around the earth. A. The water cycle  A model of the movement and changes in phase of water at and near the surface of the earth.

19. 1. Evapotranspiration:  A combination of:  The evaporation of surface and subsurface water and  the release of water vapor through the pores of leaves.  The source of atmospheric water vapor!

20. 2. Precipitation  The source of water for the earth 3. Water and Climate:  ET > PPT = dry or arid  ET < PPT = wet or humid

21.  Storage:  Ground water and surface waters  Surplus:  Excess water  Deficit:  Insufficient water

22. 4. Concepts of the Water Cycle  Infiltration:  The process by which water soaks into the ground under the influence of gravity  The water table is the limit of infiltration

23.  If the ground is saturated (holding all of the water it can hold) infiltration cannot occur.  If the ground is frozen, infiltration will not occur.  If precipitation is rapid and/or intense, infiltration is less likely to occur.

24.  If the slope is steep, infiltration is less likely to occur.  If the ground is covered with pavement and/or buildings, infiltration is not likely to occur.  If the soil is impermeable, infiltration cannot occur.

25.  Permeable soil or sediment allows water to flow down through it.  Porosity is the percentage of open space within a soil sample and indicates the ability of a material to hold water in those open spaces. Porosity depends upon the interconnectedness of the spaces between the sediment.

26.  Well-sorted sediments with around grains have a high porosity.  Size does NOT affect porosity!  Shape and degree of sorting does!  Porous sediment is very permeable.

27.  As porosity increases, permeability increases  As degree of sorting increases, porosity increases and permeability increases  As roundness increases, porosity increases and permeability increases.

28. B. Water Table  The interface between the zone of aeration and the zone of saturation.  Its depth fluctuates and is dependent on the amount of available moisture.

29.  At times of moisture surplus, the water table is located closer to the surface… the depth of the water table decreases!

30.  At times of moisture deficit: the water table is located farther from the surface… the depth of the water table increases!

32. Zone of saturation Zone of aeration Zone of aeration Normal water table Surplus depth Deficit depth

33. The end!