Hydrosphere I

Question 1

Give 5 examples of the influence of soil water on ecosystems.

Answer 1

• Creates wetlands
• Causes soil particles like clay to swell and shrink
• Provides water for plants and soil organisms
• Part of chemical reactions that release and tie up plant nutrients
• Influences the flow of gases and solutes
• Affects rate of organic material decomposition
• Impacts erosion and weathering rates

Question 2

Name the 2 major properties of water as a result of its polarity.

Answer 2

Cohesion and adhesion

Question 3

What is water cohesion?

Answer 3

Attraction forces between the same molecules

Question 4

What is water adhesion?

Answer 4

Attraction forces between two different molecules (i.e. water and something else)

Question 5

What is the consequence of cohesion on water movement in soil?

Answer 5

Water molecules tend to group together, and can form drops.

Question 6

What is the consequence of adhesion on water movement in soil?

Answer 6

Since water is polar and organic matter and soil particles are negative (especially clay), water is attracted and held in soil.

Question 7

Describe two features of soil that will increase water retention.

Answer 7

More clay and more organic matter due to their negative charge.

Question 8

What are the 3 main types of water found in soil?

Answer 8

Gravitational, capillary, and hygroscopic

Question 9

Describe what hygroscopic water is.

Answer 9

It is water held in the soil by adhesion in a thin film around the particles. It is strongly attracted to the particles such that the water is not accessible to plants.

Question 10

How can hygroscopic water be removed from soil?

Answer 10

The only way is by oven-drying. It will not leave on its own or be taken up by plants.

Question 11

Describe what capillary water is.

Answer 11

Capillary water is held by both adhesive and cohesive properties. It stays and moves in the soil, as the forces keeping it there outweigh gravity. It is available to plants.

Question 12

Capillary water moves through the soil via […]

Answer 12

Capillary action

Question 13

What is capillary action?

Answer 13

It is the movement of a liquid through or along the surface of another material in spite of other forces, such as gravity. It depends on adhesion and cohesion.

Question 14

Capillary action moves water from […] areas to […] areas.

Answer 14

Wet, dry

Question 15

What is the primary force moving water through unsaturated soil?

Answer 15

Capillary action.

Question 16

What two factors affect how far soil water will move via capillary action?

Answer 16

The diameter of the capillary tube (soil pore) and the total amount of water in soil (in wetter soils, gravity will be more relevant)

Question 17

How does pore diameter affect capillary rise? Why?

Answer 17

Water will rise higher in smaller pore diameters, as the cohesive and adhesive forces in small pores have a stronger pull.

Question 18

How does pore diameter affect speed of capillary rise? Why?

Answer 18

Because in smaller pores, adhesion and cohesion forces are stronger, which cause more friction on the water’s up, slowing its ascent.

Question 19

Compare sand and clay in terms of capillary rise behaviour.

Answer 19

In sand, the water will rise faster but less high, while in clay, the water will rise slower but higher.

Question 20

Describe what gravitational water is.

Answer 20

It is freely moving water in soil right after rain or irrigation. It is not always available to plants because it spends a short time in the soil before being drained out by gravity through macro pores.

Question 21

What type og pores are most likely to support gravitational water?

Answer 21

Macropores.

Question 22

Explain the conditions that allow for gravitational water.

Answer 22

Soil gravitational water occurs when soil particles are too far apart, such as in macropores, to support adhesion and cohesion to counteract gravity. It also occurs when pores are saturated or in large earthworm burrows or root channels

Question 23

How do soil conditions vary under poor drainage vs good drainage?

Answer 23

Water moves slower, there tends to be high surface runoff and groundwater levels, saturated conditions and lack of oxygen, and buildup of excess salts.

Question 24

Name 3 ways to improve soil drainage.

Answer 24

Build aggregates, rooting channels, and reducing compaction

Question 25

Explain how soil texture affects the movement of soil water through the soil.

Answer 25

In soils with larger pores, gravity is more dominant, so water moves downward first and foremost rather than sideways. In soils with smaller pores, capillary action is more dominant, so water will move laterally rather than downwards right away.

Question 26

What is a benefit of increase capillary action versus gravity for plants?

Answer 26

Water travelling further sideways provides plants with access to nutrients that are further away.

Question 27

Name the major critical levels of water in the soil and their consequences on plants.

Answer 27

Saturation: the soil is completely full of soil, which will cause the plant to wilt.
Field capacity: there is the perfect amount of water for growth, which will lead to healthy plant.
Wilting point: there is not enough water for growth, so the plant will wilt.

Question 28

What is plant available water with relation to critical levels of water in soil?

Answer 28

It is the amount of water between field capacity and wilting point.

Question 29

When soil is saturated, what type of water is dominant?

Answer 29

Gravitational water

Question 30

When soil is at wilting point, what type of water is dominant?

Answer 30

Hygroscopic water

Question 31

What is field capacity?

Answer 31

The amount of water in soil after free drainage has removed gravitational water. It is the maximum of water held in the soil that’s available for plants.

Question 32

Explain why field capacity is ideal for plants.

Answer 32

There isn’t gravitational water, which isn’t available due to its short residence time, Also, there is optimal aeration, where micropores are filled with water but macropores are filled with air.

Question 33

Compare sand and clay in terms of plant available and unavailable water and explain why.

Answer 33

Clayey soils hold more water overall and have more plant-available water than sand. However, they also hold more plant unavailable water than sand, as the water in the micropores is often strongly held by adhesion and cohesion.

Question 34

What type of soil has the highest amount of available water?

Answer 34

Loam

Question 35

What effect does organic matter have on available water?

Answer 35

It increases it

Question 36

Explain how cover crops affect water infiltration into soils.

Answer 36

Having cover crops prevents soils from getting flooded when there’s heavy precipitation, allows them to more effectively hold water without flooding.

Question 37

Explain how an increase in no-till practices can allow for decreased summer-fallow.

Answer 37

No till leaves residues on the soil surface, which keeps the soil covered. This increases water content in the soil. On the other hand, summer fallow increases erosion and leaves the soil vulnerable to flooding, as it is bare. So, no till eliminates the need for summer fallow, whose primary goal is to increase soil water for the next round of crops.

Question 38

What is the formula for soil water storage?

Answer 38

(Precipitation + irrigation) - (runoff + evapotranspiration + percolation)

Question 39

Why isn’t infiltration considered an input for soil water storage?

Answer 39

Because percolation is the movement of this water through the soil. Infiltration is just the rate at which this water enters, and is not itself an input.

Question 40

Describe the relationship between rainfall, infiltration, and flooding when rainfall is less than or equal to infiltration.

Answer 40

When rainfall is less than or equal to infiltration capacity, there is no runoff. The infiltration rate will be the same as the rainfall rate.

Question 41

Describe the relationship between rainfall, infiltration, and flooding when rainfall is greater than infiltration.

Answer 41

When rainfall is greater than the infiltration capacity, the infiltration rate is equal to the infiltration capacity and any excess rainfall will be converted to runoff.

Question 42

Describe how prairie potholes interplay with water infiltration rates and percolation.

Answer 42

When rain falls faster than infiltration capacity, water can pond on the soil surface and stay in depressions. If the rate of infiltration is very low, the water can remain in depressions for a long time.

Question 43

Name 4 consequences of runoff.

Answer 43

1. Contributes to non-point pollution if runoff contains contaminants
2. Erodes soil and landscapes
3. Flooding
4. Rapidly increases river flow

Question 44

Describe a solution to runoff and its contribution to pollution.

Answer 44

By having a vegetated buffer zone along which runoff can flow, the plants can uptake some of the excess nutrients in the water to lessen their impact on the rest of the environment.

Question 45

Give 2 examples of urban solutions to decreasing runoff.

Answer 45

Using permeable pavers or redirect runoff from parking lots into rain gardens.

Question 46

Name 2 examples of farming solutions to decreasing runoff and increasing soil retention.

Answer 46

1. Planting buffer strips at the edge of a field to reduce runoff and catch nutrients
2. Leaving last year’s crop residue on the surface to protect the soil from water erosion and increase OM, which improves water infiltration by encouraging soil aggregation.

Question 47

How do soil fauna affect soil water retention and infiltration?

Answer 47

They improve it by creating tunnels, thus increasing the amount of water soil.

Question 48

Name and describe the 3 steps of soil erosion by water.

Answer 48

1. Detachment: raindrop impact destroys soil aggregates and detaches soil particles
2. Transport: particles are transported downslope by water
3. Deposition

Question 49

What are the 3 types of water erosion?

Answer 49

Splash, sheet, rill and gully.

Question 50

What is splash erosion?

Answer 50

Splash erosion is the displacement of soil particles due to the impact of raindrops.

Question 51

What is sheet erosion?

Answer 51

It is the movement of water downslope, weathering the soil as it goes.

Question 52

What is rill and gully erosion?

Answer 52

It is when erosion causes grooves in the soil along which water can move. These can end up as permanent features if they are not managed. Rills becomes larger gulleys.

Question 53

What is the impact of the presence of roots and grasses on runoff and erosion?

Answer 53

It will decrease the amount of erosion from runoff, as the soil will be held in place by the plants.

Question 54

What is contour farming and what is its purpose?

Answer 54

Creates contours, which are perpendicular to the slope, help retain water in a field and slow its movement down a slope.