98 records matched your query
03214aam a22003857a 4500 001 25C3761419C611E7BD0085CCDAD10320 003 SILO 005 20170405010226 008 160923s2016 wiua b 000 0 eng d 010 $a 2016954887 020 $a 0891183515 020 $a 9780891183518 035 $a (OCoLC)962552146 040 $a BTCTA $b eng $c DLC $d BTCTA $d ORE $d YDX $d OCLCF $d OCLCQ $d IWA $d SILO 042 $a lccopycat 050 00 $a S600.7 C54 I467 2016 245 00 $a Improving Modeling Tools to Assess Climate Change Effects on Crop Response / $c Jerry L. Hatfield and David Fleisher, editors. 260 $a Madison, Wisconsin : $b American Society of Agronomy, Crop Science Society of America, Soil Science Society of America, $c 2016. 300 $a xiv, 218 pages : $b illustrations ; $c 23 cm. 490 1 $a Advances in agricultural systems modeling ; $v v. 7 504 $a Includes bibliographical references. 505 0 $a Testing Approaches and Components in Physiologically Based Crop Models for Sensitivity to Climatic Factors -- Wheat Responses to a Wide Range of Temperatures: The Hot Serial Cereal Experiment -- Rice Free-Air Carbon Dioxide Enrichment Studies to Improve Assessment of Climate Change Effects on Rice Agriculture -- Climate Change and Potato: Responses to Carbon Dioxide, Temperature, and Drought -- Farm Simulation Can Help Dairy Production Systems Adapt to Climate Change -- Sentinel Site Data for Crop Model Improvement: Definition and Characterization -- Evapotranspiration: Evolution of Methods to Increase Spatial and Temporal Resolution -- Variable Atmospheric, Canopy, and Soil Effects on Energy and Carbon Fluxes over Crops. 520 $a Understanding how crops will respond to climate change is essential to agriculture's ability to adapt and have the greatest probability of continuing to meet societal needs. Crop model intercomparison and improvement are required to advance understanding of the impact of future climate change on crop growth and yield. Initial efforts undertaken in the Agriculture Model Intercomparison and Improvement Project (AgMIP) led to several observations where crop models were not adequately simulating growth and development. Enhanced efforts are required to quantify the carbon dioxide temperature water interactions in plant growth and yield. This volume in the Advances in Agricultural Systems Modeling series presents progress in that area, with experimental observations across crops, simulation modeling outcomes, and future challenges in improving crop simulation models.-- $c Source other than the Library of Congress. 650 0 $a Crops and climate $x Mathematical models. 650 0 $a Climatic changes $x Mathematical models. 700 1 $a Hatfield, Jerry L., $e editor. 700 1 $a Fleisher, David H., $e editor. 710 2 $a American Society of Agronomy, $e issuing body. 710 2 $a Crop Science Society of America, $e issuing body. 710 2 $a Soil Science Society of America, $e issuing body. 830 0 $a Advances in agricultural systems modeling ; $v v. 7. 941 $a 1 952 $l USUX851 $d 20170405035525.0 956 $a http://locator.silo.lib.ia.us/search.cgi?index_0=id&term_0=25C3761419C611E7BD0085CCDAD10320 994 $a C0 $b IWAInitiate Another SILO Locator Search