Assessing soil water trajectories and WUE: A multi-year modeling approach to design resilient cereal-legume rotations in the dry areas
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Hélène Marrou, Michel Edmond Ghanem, Hatem Belhouchette, Carina Moeller, Thomas R. Sinclair. (10/9/2015). Assessing soil water trajectories and WUE: A multi-year modeling approach to design resilient cereal-legume rotations in the dry areas. Montpellier, France: Emmanuel S. Gritti (Curator), Jacques Wery.
Abstract
Cropping system simulation can address the complex and interactive nature of resilience and allows for biological (crop
growth and development), physical (soil-water dynamics), chemical (soil carbon and N turnover), and managementrelated
(e.g. crop choice, applications of nitrogen fertilizer, timing of sowing) aspects of resilience to be quantified.
Soltani & Sinclair (2012) recently presented a non-calibrated, mechanistic, simple model, called Simple Simulation
Model (SSM), which uses a generic approach for simulating the growth and yield of cereal and legume crops. The
robustness of the legume and cereal versions of SSM has been demonstrated for a wide range of environments and
various species including wheat (Soltani et al., 2013) and chickpea (Vadez et al. 2013). In cropping systems of the
semi-arid Mediterranean region, variable and deficient rainfall and drought episodes are primary constraints to
productivity. Under these conditions, maximizing water-use efficiency (WUE, defined as the ratio of yield per unit
evapotranspiration) is critical. Hence the accurate prediction of soil-water dynamics and crop–water relations is required
to identify management strategies that increase the use of scarce rainfall and its conversion into grain yield. We applied
SSM to examine rotations including wheat and chickpea that are representative of rainfed environments of the southern
and eastern Mediterranean.
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Author(s) ORCID(s)
Ghanem, Michel Edmond https://orcid.org/0000-0003-0626-7622