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<br />24 Estimating Evonomic Impacts of Salinity,.. <br /> <br />f\) <br />CJ <br />1-'" <br />~ <br /> <br />While these tolerance levels must be con- <br />sidered as estimates and sbould serve only as a <br />general guide, researcb into crop yields in tbe <br />lower Colorado River Basin indicates tbat sucb <br />thresbolds are not unreasonable. It is notewor- <br />thy tbat tbe U ,S. Soil Conservation Service c1as- <br />silies soil salinity in the upper soil layer (above 8 <br />incbes) as sligbtly saline if tbe saturation level is <br />less tban 4,000 nllcrombos per centimeter <br />(I'-mhos/cm) - about 2,560 mgfL TDS, sbowing <br />bow tbe differing requirements of tbe soil-water <br />users can lead to different kinds of delinition for <br />soil salinity. <br /> <br />Salinity Effects on Crop Yields <br /> <br />While Maas bas determined approximate <br />threshold levels above wbich salinity damage <br />may beg;n, Dr, James Rboades, also of tbe U.S. <br />Salinity Laboratory in Riverside, bas set bimself <br />to the task of dealing with growing crops in salty <br />water or soil. While bis test programs often <br />require the availabilty of very high quality water <br />during germination (water not available to <br />farmers in the Lower Colorado Basin), be has <br />tested a variety of crops witb a variety of more <br />readily available farm management practices to <br />conclude tbat it is possible to grow crops at <br />mucb bigher salinity levels present in irrigation <br />water and soil than previously thought possible, <br />Tbe historical record of crop yield per acre <br />seems to support tbe position of Dr. Rhoades <br />that some crops can be grown with fairly salty <br />irrigation water. <br /> <br />Crop production at higher salinity levels <br />presupposes fairly sophisticated irrigation and <br />management practices, tn reality, only 20 per- <br />cent of the Imperial Irrigation District is under <br />sprinkler irrigation. Throughout that area and in <br />mucb of the Lowcr Colorado Basin, flood irriga- <br />tion is still the method of cboice, sincc it re- <br />quires less capital investment and lower <br />operation and maintenance costs than sprinkler <br />irrigation. However, naod irrigation is more dif- <br />licult to schcdule at the precise time Jcmambl <br />by the condition of the soil water, so crop yield <br />may be reduced compared with yields using <br />sprinkler irrigation. Moreover, highly saline <br />water, under flood irrigation, requires more fre- <br />quent applications to accomplish needed leach- <br />ing. The more frequently a farmer must irrigate, <br />the higher are his labor costs. Since so few <br /> <br />farms are automated, farmers are very happy <br />witb water below 600 mgfL TDS since it requires <br />many fewer labor-intensive irrigations. <br /> <br />Other Factors Affecting Crop <br />Yields <br /> <br />Clearly, salinity can affect crop yield, accord- <br />ing to tbe U.S. Department of Agriculture. <br />Most farmers and agricultural agents agree, A <br />former Imperial County Agricultural Commis- <br />sioner states that lower TDS levels increase the <br />suitability of soil structure for crops and allow <br />for better leaching and thus a more complete use <br />of irrigation water for crop growth. Yet, as <br />Maas reiterates, it is not clear at what precise <br />salinity level crop yield is affected. There ap- <br />pears to be an inverse relationship between yield <br />and salinity levels in the period 1971-1984 but <br />tbis relationship is far from regular. What <br />relationship can be drawn between TDS and <br />yield is subject to distortion by the other factors, <br />such as variations in rainfall and temperature, <br />the presence of pests, and variations in farm <br />management practices. <br /> <br />Economics of crop prices also can affect <br />yield, as a former County Commissioner points <br />out. When market prices are down, not all crops <br />are harvested, thus skewing the acreage yields <br />reported in some places. <br /> <br />Recognizing that these other faclors affect <br />the salinity/yield relationship, it is believed that <br />their impact can be largely overcome by use of <br />empirical data from all of the major agricultural <br />counties in the Lower Colorado River Basin over <br />a period of 14 years (1971-84) which will include <br />variation in climatic conditions, market coodi. <br />lions, and farm management practices <br />throughout the region, <br /> <br />Estimating Current and Future <br />(1987-2010) Salinity Damages <br />to Agriculture <br /> <br />For purposes of estimating current anJ <br />future salinity damages to agriculture from use <br />of Colorado River water for irrigation, an empiri- <br />cal model was developed which relates crop <br />losses to the differential yield that can be <br />expected at two levels of salinity: the lirst, a <br />