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Moisture-Holding Capacity of Soil

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Presentation on theme: "Moisture-Holding Capacity of Soil"— Presentation transcript:

1 Moisture-Holding Capacity of Soil
Lesson Plan: NRES B2-8

2 Anticipated Problems What is moisture-holding capacity?
What primary factor determines how much moisture a soil can hold? How do you determine the amount of moisture a soil profile can hold?

3 Terms available soil moisture available water- holding capacity
capillary moisture gravitational moisture hygroscopic moisture infiltration leaching moisture-holding capacity percolation permeable soil moisture tension unavailable soil moisture

4 Moisture-Holding Capacity
Moisture-holding capacity is the ability of the soil within a soil profile to retain water. Water accounts for about 25% of an average soil. It occupies part of the pore space in the soil. When it rains, water enters the soil or flows off the soil’s surface.

5 Infiltration & Percolation
The process of water soaking into the soil is known as infiltration. Once water is in the soil, it moves downward in a process known as percolation.

6 Permeable A quality soil allows both kinds of water movement and is said to be permeable. Water in the soil may be one of three types: Gravitational Capillary Hygroscopic

7 Three Types of Moisture

8 Gravitational Moisture
Gravitational moisture is the water that moves downward through the soil as a result of gravity. It may help replenish groundwater supplies. It is also available to plants.

9 Leaching Gravitational water flows quickly through soil that has large pores and slowly through soil that has small pores. As water moves through the soil, it carries dissolved minerals, chemicals, and salts. This loss of water-soluble nutrients, chemicals, and salts from the soil is referred to as leaching.

10 Capillary Moisture Capillary moisture is the water held within the pore spaces between soil particles against the forces of gravity. It is available to plants. It may move upward or sideways by capillary action. Clay soils hold more capillary water than sandy soils because they have more pore spaces.

11 Hygroscopic Moisture Hygroscopic moisture is the water that tightly clings to the soil particles. It forms a thin film around individual soil particles. This moisture is usually unavailable to plants. Water may be available or unavailable for plant use.

12 Available Moisture Available soil moisture is the water in the soil that can be used by plants. When moisture levels are high, plants can easily extract moisture from the soil. As the water is used, soil moisture tension increases. Soil moisture tension is the force by which soil particles hold on to moisture.

13 Hygroscopic Moisture Hygroscopic moisture has high soil moisture tension. Although the water is present in the soil, it is considered unavailable soil moisture for plant use.

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15 How Much Moisture? Moisture-holding capacity is determined primarily by the soil’s texture. As a rule, the finer the texture of the soil, the more moisture it will hold. A soil with a high percentage of sand holds less water than one with a low percentage of sand.

16 How Much Moisture? Water percolates rapidly through the large pore spaces created by sand. Plants growing in sandy soils experience water stress more quickly than those growing in loam and clay soils.

17 How Much Moisture? Soils with a high percentage of clay hold water and keep it from percolating out of the root zone. Some of the water is held too tightly for plant use. This means less water is available to plants than if silt were present. A good silt loam holds the most moisture available for plants.

18 Available Water-Holding Capacity
The amount of moisture a soil can hold for plants is referred to as available water-holding capacity.

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20 Available Water-Holding Capacity
Available water-holding capacity depends on: 1. How deep the soil profile is. 2. The type of soil texture found throughout the soil profile.

21 Moisture Per Inch of Soil
On average, each of the following textures will hold the designated amount of moisture per inch of soil: Fine textured—0.20 inches of water Moderately fine textured—0.25 inches of water Medium textured—0.30 inches of water Moderately coarse textured—0.20 inches of water Coarse textured—0.10 inches of water

22 Calculate Water-Holding Capacity
To determine the available water-holding capacity for a given area: Multiply the depth of each horizon, to a maximum depth of 60 inches, by the amount of water the texture within that horizon can hold Add the totals of all the horizons to calculate total water-holding capacity.

23 Review What is term for the process of water soaking into the soil?
What are the three types of moisture in soil? What is the primary factor that determines moisture-holding capacity of soil?

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