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Dryland Farming Techniques - Dry Farming Principles and Practices, Crop Production | Crop Production Notes- Agricultural Engineering PDF Download

Increase Water Absorption Prevent a Crust at the Soil Surface. Probably the greatest deterrent to a high rate of water absorption is the tendency for soils to puddle at the surface and form a seal or crust against water intake. The beating action of raindrops tends to break down clods and disperse the soil.
• By tillage, create a rough, cloddy surface which lengthens the time necessary for the rain to break down the clods and seal the surface. For seed bed preparation in general, small seeds should have a finer, mellower bed than large seeds.
• After harvest, create a stubble mulch on the surface. Such material not only prevents raindrops from impinging directly on the soil, but impedes the flow of water down the slope, increasing absorption time. 

Reduce the Runoff of Water. To the extent that waterlogging is not a problem, the runoff of water and its attendant erosion must be stopped.
• Cropland should be as level as possible.
• All tillage and plantings must run across (or perpendicular to) the slope of the land. Such ridges will impede the downward movement of water.
• For every two feet of vertical drop or 250 feet of horizontal run, the field should either have bunds or contour strips (details of these practices are discussed later). 

Reducing the Loss of Soil Moisture Reducing Soil Evaporation. Water in the soil exists as a continuous film surrounding each grain. As water near the surface evaporates, water is drawn up from below to replace it, thinning the film. When it becomes too thin for plant roots to absorb, wilting occurs.
• Shelter belts of trees or shrubs reduce wind speeds and cast shadows which can reduce evaporation 10 to 30 percent by itself and also reduce wind erosion.
• Mulching reduces the surface speeds of wind and reduces soil temperatures.
• Shallow tilling can create a dirt mulch 2 to 3 inches deep which dries out easily but is discontinuous from the subsurface water, preventing further loss. Tillage must be repeated after each rain to restore the discontinuity. This is most workable where rainfall occurs in a few major rainfalls with relatively long intervals in between. 

Reducing Transpiration. All growing plants extract water form the soil and evaporate it from their leaves and stems in a process known as transpiration. 

• Weeds compete not only for soil nutrients, but water as well and so their control is critical.
• Selection of crop is significant as well. Dwarf varieties have less surface and so lose less water. Some plants close their stomas when it is hot, reducing their water loss. Others, like corn, curl their leaves during hot afternoon and open them at night, effectively changing their surface area in response to conditions.
• In dry farming, the number and spacing of plants is reduced so that fewer plants compete for soil moisture. The exception to this occurs when allowances for insect, bird, and rodent loss must be made at planting.
• Where rainfall is frequently marginal to insufficient, drought "insurance" can be obtained by clear fallowing a sufficient area. An area clear of growing vegetation with a properly maintained stubble and soil mulch can retain 20 to 70 percent of the precipitation received until the next year. Where 5 to 6 acres each year per family have been so set aside in India, the specter of famine due to drought has been eliminated.
• Post harvest tillage will create stubble and dirt mulches and destroy weeds before the onset of the dry season.

The document Dryland Farming Techniques - Dry Farming Principles and Practices, Crop Production | Crop Production Notes- Agricultural Engineering is a part of the Agricultural Engineering Course Crop Production Notes- Agricultural Engineering.
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FAQs on Dryland Farming Techniques - Dry Farming Principles and Practices, Crop Production - Crop Production Notes- Agricultural Engineering

1. What are the principles of dryland farming?
Ans. Dryland farming is based on certain principles that help in maximizing crop production in areas with limited rainfall. These principles include moisture conservation, soil fertility management, crop rotation, and use of drought-resistant crop varieties. By implementing these principles, farmers can optimize water use and enhance the productivity of their dryland farms.
2. What are some common dryland farming techniques?
Ans. There are several techniques that can be utilized in dryland farming to improve crop production. Some common techniques include contour farming, terracing, mulching, minimum tillage, and soil conservation measures such as bunding and contour plowing. These techniques help in reducing soil erosion, conserving moisture, and maximizing the utilization of available water resources.
3. How can crop production be increased in dryland areas?
Ans. Increasing crop production in dryland areas requires a combination of strategies. Some effective methods include selecting crop varieties that are adapted to drought conditions, implementing effective irrigation systems, improving soil fertility through organic matter addition, and practicing crop rotation. Additionally, adopting appropriate agronomic practices like timely sowing, proper spacing, and balanced nutrient management can also contribute to increased crop yields.
4. What is the significance of moisture conservation in dryland farming?
Ans. Moisture conservation is crucial in dryland farming as it helps in retaining and utilizing the limited rainfall effectively. Techniques like mulching, contour farming, and terracing aid in reducing water runoff and soil erosion, allowing more water to infiltrate the soil and be available for plant uptake. Adequate moisture conservation ensures better plant growth and improved crop yields in dryland areas.
5. How does crop rotation benefit dryland farmers?
Ans. Crop rotation is beneficial for dryland farmers as it helps in managing soil fertility, controlling pests and diseases, and reducing weed pressure. By rotating crops, farmers can break pest and disease cycles, prevent the depletion of specific nutrients, and improve overall soil health. This practice also helps in maximizing the utilization of available moisture and improving the resilience of the farming system to drought conditions.
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