How can agricultural irrigation practices be altered to decrease loss of fresh water?

What will be an ideal response?


Farmers can use technology to improve efficiency in a number of ways, including lining irrigation canals to prevent leaks and leveling fields to minimize runoff. Furthermore, some methods of applying irrigation water are more efficient than others. We can increase irrigation efficiency by using low-pressure spray irrigation that sprays water downward toward plants and by using drip irrigation systems that target individual plants and introduce water directly onto the soil. Both methods reduce the amount of water lost to evaporation and surface runoff. In addition, choosing crops to match the land and climate in which they are being farmed can save huge amounts of water. Presently, crops that require a great deal of water, such as cotton, rice, and alfalfa, are often planted in hot and arid areas where irrigation is government subsidized. The true cost of water, therefore, is not taken into account as part of the costs of growing the crop. Eliminating subsidies and growing crops in climates that provide adequate rainfall could greatly reduce water use in many parts of the world. In addition, the selective breeding and/or genetic modification of crops is resulting in some varieties that require less water.

Environmental & Atmospheric Sciences

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Totality during a solar eclipse is not totally dark because

A) most of the Earth is basking in sunlight. B) of light from the solar corona. C) the Moon is smaller than the Sun. D) the line between umbra and penumbra is not sharp. E) the Moon is directly in front of the Sun.

Environmental & Atmospheric Sciences

Compare and contrast the cleanup and control of nonpoint and point sources of water pollution.

What will be an ideal response?

Environmental & Atmospheric Sciences

As the temperature of a body increases, it will radiate energy at ____ wavelengths

a. the same b. longer c. shorter d. only ultraviolet e. only infrared

Environmental & Atmospheric Sciences

The force that keeps patterns and activities stable on the landscape is called

A) persistence. B) infrastructure. C) cultural landscape. D) inertia. E) development.

Environmental & Atmospheric Sciences