Presentation is loading. Please wait.

Presentation is loading. Please wait.

HOW DOES THE LAND- BASED PORTION OF THE HYDROLOGIC CYCLE WORK?

Published byAllen Gilbert Heath Modified over 8 years ago

Similar presentations

Presentation on theme: "HOW DOES THE LAND- BASED PORTION OF THE HYDROLOGIC CYCLE WORK?"— Presentation transcript:

1 HOW DOES THE LAND- BASED PORTION OF THE HYDROLOGIC CYCLE WORK?

2 ATMOSPHERE OCEANSCONTINENTS 1,338,000 12.9 47,660 97%2.999% 0.001% 84% 16% 77% 23% -7% +7% Global Runoff 7%

3 ATMOSPHERE OCEANSCONTINENTS 1,338,000 12.9 47,660 97%2.999% 0.001% 84% 16% 77% 23% -7% +7% Global Runoff 7%

4 PrecipitationEvaporation Runoff

5 PrecipitationEvaporation Runoff

6

7

8 SURFACE TENSION Water Surface

9 SURFACE TENSION Water Surface

10 SURFACE TENSION Water Surface Weaker attraction Fewer surrounding molecules Stronger attraction Sphere is the shape which has the lowest ratio of surface area (weaker attraction) to volume (stronger attraction). Without other forces water forms spheres

11

12 Hydrogen bonding with containing material stronger than bonding between water molecules Hydrogen bonding with containing material weaker than bonding between water molecules

13 Water “beads” on surface Water “repelled” from surface Capillary Hydrophobic

14 LEAF

15 SOIL INTERCEPTION Tree Canopy Shrubs and Bushes Grasses

16 SOIL Time into rain storm Rain per unit time Rain reaching soil per unit time

17 SOIL Store 1 Input 1 Time into rain storm Rain per unit time Rain reaching soil per unit time

18 SOIL Store 1 Input 1 Time into rain storm Rain per unit time Rain reaching soil per unit time

19 SOIL Store 1 Input 1 Output 1 Input 2 Store 2 Time into rain storm Rain per unit time Rain reaching soil per unit time

20 SOIL Store 1 Input 1 Output 1 Input 2 Store 2 Time into rain storm Rain per unit time Rain reaching soil per unit time

21 SOIL Store 1 Input 1 Output 1 Input 2 Store 2 Time into rain storm Rain per unit time Rain reaching soil per unit time

22 SOIL Store 1 Input 1 Output 1 Input 2 Store 2 Out. 2 Store 3 Input 3 Time into rain storm Rain per unit time Rain reaching soil per unit time

23 SOIL Store 1 Input 1 Output 1 Input 2 Store 2 Output 2 Store 3 Input 3 Out 3 Time into rain storm Rain per unit time Rain reaching soil per unit time

24 SOIL INTERCEPTION UP TO 20% OF ANNUAL PRECIPITATION SOIL CASCADE OF STORES Store 1 Input 1 Output 1 Input 2 Store 2 Output 2 Store 3 Input 3 Out 3

25 SOIL INTERCEPTION UP TO 20% OF ANNUAL PRECIPITATION SOIL CASCADE OF STORES Store 1 Input 1 Output 1 Input 2 Store 2 Output 2 Store 3 Input 3 Out 3 DELAYS WATER REACHING SOIL

26 Precipitation Evaporation Runoff Latent Heat Flux

27 Precipitation Transpiration Runoff Carbon Dioxide Carbon Dioxide Water Sunlight Photosynthesis

28 TRANSPIRATION Carbon Dioxide STOMATA Water Stomata open and shut to control diffusion of molecules in and out

29 Global Vegetation and Oceanic Chlorophyll

30 Precipitation Evapotranspiration Evaporation and Transpiration Runoff Latent Heat Flux

31 HUBBARD BROOK Experimental Forest, New Hampshire Source: G. Bonan, 2008. Ecological Climatology, Cambridge University Press

32 Simulation Using Hubbard Brook Characteristics Source: G. Bonan, 2008. Ecological Climatology, Cambridge University Press

33 Average = 1300mm Avg. Dev. = 125 Dev/Avg = 9.6% Average = 800mm Avg. Dev. = 100 Dev/Avg = 12.5% Average = 500mm Avg. Dev. = 25 Dev/Avg = 5%

34 Source: Bonan, 2008: Ecological Climatology 2012 Forest Fires 2013 Floods Front Ranges, Colorado 2012-13.

Download ppt "HOW DOES THE LAND- BASED PORTION OF THE HYDROLOGIC CYCLE WORK?"

Similar presentations

4. INTERCEPTION. Precipitation P Evapo- Transpiration ET Dripping P D Stemflow P S Throughfall P T SS.

4. INTERCEPTION. Precipitation P Evapo- Transpiration ET Dripping P D Stemflow P S Throughfall P T SS.
Watershed Hydrology, a Hawaiian Prospective: Evapotranspiration Ali Fares, PhD Evaluation of Natural Resource Management, NREM 600 UHM-CTAHR-NREM.

Watershed Hydrology, a Hawaiian Prospective: Evapotranspiration Ali Fares, PhD Evaluation of Natural Resource Management, NREM 600 UHM-CTAHR-NREM.
Runoff Processes. What happens when we go from a landscape that looks like this … Photo credit: Vermont Land Trust to this? Photo credit: Stowe Mountain.

Runoff Processes. What happens when we go from a landscape that looks like this … Photo credit: Vermont Land Trust to this? Photo credit: Stowe Mountain.
Precipitation Interception Throughfall Stemflow Evaporation Transpiration Evaporation Ocean Lake Ground water Overland flow Return flow Infiltration Redistribution.

Precipitation Interception Throughfall Stemflow Evaporation Transpiration Evaporation Ocean Lake Ground water Overland flow Return flow Infiltration Redistribution.
Lecture 3 Introduction to Global Hydrological Cycle Basic Processes Global Water Reservoirs Global Water Transport Terms to Remember.

Lecture 3 Introduction to Global Hydrological Cycle Basic Processes Global Water Reservoirs Global Water Transport Terms to Remember.
CHAPTER 3 -part 2- Biogeochemical Cycles

CHAPTER 3 -part 2- Biogeochemical Cycles
THE WATER CYCLE Water moves from the oceans to the atmosphere, from the atmosphere to the land, and from the land back to the oceans.

THE WATER CYCLE Water moves from the oceans to the atmosphere, from the atmosphere to the land, and from the land back to the oceans.
Hydrologic Abstractions

Hydrologic Abstractions
Lecture 5 - 1 ERS 482/682 (Fall 2002) Interception ERS 482/682 Small Watershed Hydrology.

Lecture ERS 482/682 (Fall 2002) Interception ERS 482/682 Small Watershed Hydrology.
Climatic variability, land-cover change, and forest hydrology in the Pacific Northwest David W. Peterson JISAO Climate Impacts Group Forest Hydrology.

Climatic variability, land-cover change, and forest hydrology in the Pacific Northwest David W. Peterson JISAO Climate Impacts Group Forest Hydrology.
WHERE IS ALL THE WORLD’S WATER?. ATMOSPHERE OCEANSCONTINENTS GLOBAL HYDROLOGIC STORES.

WHERE IS ALL THE WORLD’S WATER?. ATMOSPHERE OCEANSCONTINENTS GLOBAL HYDROLOGIC STORES.
Jefferson High School Compton Creek Research Project UCLA and Los Angeles Waterkeeper Funded by the Environmental Protection Agency.

Jefferson High School Compton Creek Research Project UCLA and Los Angeles Waterkeeper Funded by the Environmental Protection Agency.
Earth’s Cycles Vocabulary

Earth’s Cycles Vocabulary
Global Environments Introducing Physical Environments.

Global Environments Introducing Physical Environments.
The Water Cycle May 2013. The Water Cycle There are 5 processes at work in the water cycle. Condensation Precipitation Infiltration Runoff Evapotranspiration.

The Water Cycle May The Water Cycle There are 5 processes at work in the water cycle. Condensation Precipitation Infiltration Runoff Evapotranspiration.
Hydrosphere. What will we look at in this unit? The Hydrological Cycle The River Course The Characteristics at each stage Hydrographs.

Hydrosphere. What will we look at in this unit? The Hydrological Cycle The River Course The Characteristics at each stage Hydrographs.
BIOGEOCHEMICAL CYCLES. Bio: life Geo: Earth Chemical Cycle: repeats WHAT IS A BIOGEOCHEMICAL CYCLE?

BIOGEOCHEMICAL CYCLES. Bio: life Geo: Earth Chemical Cycle: repeats WHAT IS A BIOGEOCHEMICAL CYCLE?
Environment Chapter 2: Cycles in Nature

Environment Chapter 2: Cycles in Nature
Land Surface Processes in Global Climate Models (1)

Land Surface Processes in Global Climate Models (1)
I. The Water Cycle- movement of water between the oceans, atmosphere, land, and living things.

I. The Water Cycle- movement of water between the oceans, atmosphere, land, and living things.

Similar presentations

Ads by Google