02503oam 2200529 450 991069861560332120150922103519.0(CKB)5470000002436492(OCoLC)915150891(EXLCZ)99547000000243649220150730d2015 ua 0engurcn|||||||||rdacontentrdamediardacarrierAgricultural productivity growth in the United States measurement, trends, and drivers /Sun Ling Wang ; Paul Heisey ; David Schimmelpfennig ; and Eldon Ball[Washington, D.C.] :United States Department of Agriculture, Economic Research Service,[2015]1 online resource (6 unnumbered pages, 72 pages) color illustrationsEconomic research report ;number 189"July 2015."Title from title screen (viewed on July 30, 2015).Accompanied by summary report.Includes bibliographical references (pages 58-67).Trends and Compositional Shifts in U.S. Agricultural Outputs and Inputs -- Yield, Land Productivity, Labor Productivity, and Total Factor Productivity -- Is U.S. Agricultural Productivity Growth Slowing? -- Drivers of U.S. Agricultural Productivity Growth -- Projections of 2050 U.S. Agricultural Productivity: Alternative Scenarios of Public Research Funding.Agricultural productivity growth in the United States Agricultural productivityUnited StatesMeasurementAgricultural productivityUnited StatesForecastingMathematical modelsIndustrial productivityUnited StatesMathematical modelsEconomic developmentUnited StatesMathematical modelsAgricultural productivityMeasurement.Agricultural productivityForecastingMathematical models.Industrial productivityMathematical models.Economic developmentMathematical models.Wang Sun Ling1267336Heisey Paul W.Schimmelpfennig DavidBall V. EldonUnited States.Department of Agriculture.Economic Research Service,OREOREOCLCOGPOBOOK9910698615603321Agricultural productivity growth in the United States3508537UNINA