IRRIGATION WITH POOR QUALITY WATER

Supplies of good quality irrigation water are expected to decrease in the future because the development of new water supplies will not keep pace with the increasing water needs of industries and municipalities . Thus, irrigated agriculture faces the challenge of using less water, in many cases of poorer quality, to provide food and fiber for an exp anding population. Some of these future water needs can be met by usin g available water supplies more efficiently, but in many cases it will prove necessary to make increased use of municipal wastewaters and ir rigation drainage waters. Aside from increased levels of nitrogen, pho sphorus, and potassium, the salinity (total salt content) and sodicity (sodium content) of these waters will be higher than that of the orig inal source water because of the direct addition of salts to the water and the evapoconcentration that occurs as water is used. While the us e of these waters may require only minor modifications of existing irr igation and agronomic strategies in most cases, there will be some sit uations that will require major changes in the crops grown, the method of water application, and the use of soil amendments. Use of poor qua lity waters requires three changes from standard irrigation practices: (1) selection of appropriately salt-tolerant crops; (2) improvements in water management, and in some cases, the adoption of advanced irrig ation technology; and (3) maintenance of soil-physical properties to a ssure soil tilth and adequate soil permeability to meet crop water and leaching requirements (LR). This paper looks at farmers' experiences, research, and computer modelling in these areas, and concludes with a discussion of examples of farm experiences with waters that caused pr oblems with infiltration rates and soil tilth and the practices used t o mitigate these problems.