<mods:mods version="3.3" xsi:schemaLocation="http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-3.xsd" xmlns:mods="http://www.loc.gov/mods/v3" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"><mods:titleInfo><mods:title>Coping with drought: Resilience versus risk. Targeting the most suitable G*E*M options by crop simulation modeling*</mods:title></mods:titleInfo><mods:name type="personal"><mods:namePart type="given">V</mods:namePart><mods:namePart type="family">Vadez</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">J</mods:namePart><mods:namePart type="family">Kholova</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:abstract>Crop production is axiomatically related to water consumption of transpiring leaves.&#13;
Crop adaptation to water limitation then becomes an exercise of matching water&#13;
supply and demand in away that the crop has enough water to complete its cropping&#13;
cycle. Weather conditions vary greatly across years within environments while both&#13;
weather and soil conditions vary across locations, which means that drought&#13;
scenario are extremely variable and these need to be properly characterized as a&#13;
pre-requisite to undertake drought research. Once the weather scenarios are&#13;
defined, traits contributing to the crop adaptation to any of these scenarios need to be&#13;
identified.We believe that much of these traits revolve around the need to optimize&#13;
plant water use and make it efficient, together with the need to maximize water&#13;
capture from the soil.Optimization of plant water use consist in identifying traits that&#13;
will ensure maximum crop growth while keeping sufficient water for the grain filling&#13;
period, and it deals with controlling water losses, and minimizing leaf canopy&#13;
development. While tapping more water is surely important, the timing of water&#13;
extraction to critical crop stages, e.g. the grain filling stage, is even more critical. It&#13;
depends in great part on the way water has been managed by the plant at earlier&#13;
stages, in particular to the capacity to develop a smaller crop canopy, or the capacity&#13;
to restrict plant transpiration, especially under high evaporative demand. Clearly,&#13;
the development of cultivars capable of better performance under water limited&#13;
conditions is the result of many possible characteristics that interact with one another&#13;
andwith the environment, and it is difficult to experimentally determinewhich among&#13;
these traits has a predominant effect on yield in a given situation. Crop simulation&#13;
modeling comes in to help to navigate biological complexity by allowing to test the&#13;
effect of traits on yield acrossmany years of weather andmany locations. It also helps&#13;
combining both agronomic and genetic options to maximize crop production at the&#13;
plot level.</mods:abstract><mods:classification authority="lcc">Agriculture-Farming, Production, Technology, Economics</mods:classification><mods:originInfo><mods:dateIssued encoding="iso8061">2013</mods:dateIssued></mods:originInfo><mods:originInfo><mods:publisher>John Libbey Eurotext</mods:publisher></mods:originInfo><mods:genre>Article</mods:genre></mods:mods>