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<br />II <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br /> <br />002099 <br /> <br />Energy (developed by Black and Veatch as part of the <br />Study Element B-8) <br /> <br />Labor <br /> <br />. Production technology assumptions and input quantity <br />projections forll <br />Soil fertilization <br /> <br />Pest control <br /> <br />Seeding <br /> <br />Machinery and equipment utilization <br /> <br />Irrigation <br /> <br />Energy type and efficiency <br />Labor efficiency <br /> <br />. 2/ <br />. Model constraints to lnclude- <br /> <br />Rangeland conversion <br /> <br />Production of a particular crop <br /> <br />Irrigated acreage <br /> <br />Government (Federal) policy <br />- Water availability (developed by the A-3a researchers <br />in each state) <br /> <br />Except where this information was developed outside of the B-7 <br /> <br /> <br />work (e.g., energy prices under the B-8 element), each of these areas <br /> <br /> <br />of information will be discussed in turn as to (1) the approach generally <br /> <br /> <br />employed to generate the results, (2) the data or information resources <br /> <br />used for projections or decisionmaking, (3) the final projections or <br /> <br />decisions made for use as a bench reference for the states, and (4) the <br /> <br />1/Deve1oped for each of the crops cited above. <br />ij Constraints may entan any of the following: a rate of change, an absolute <br />limit, a limit in any particular time period. Constraints will often include <br />both an upper and lower bound, or an increase or decrease in the rate of change. <br /> <br />4 <br /> <br />Arthur 0 Little. Joe <br />