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      Comparison of the morphogenesis of three genotypes of pea ( Pisum sativum) grown in pure stands and wheat-based intercrops

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          Abstract

          In intercropping systems, plant morphology highly determines the amount of resources captured by each component species. However, morphogenesis of cultivated species has been mainly described in mono-specific growing conditions, although plasticity can occur in multi-specific stands. This paper reports on the variability of the morphogenesis of three pea genotypes grown in pure stands and mixed with wheat. Most morphogenetic parameters of pea were dependent on the genotype. However, there was low variability of pea morphogenesis between sole and mixed stands, except for plant height and branching of the long cycle cultivar.

          Abstract

          Cereal–legume intercrops represent a promising way of combining high productivity and agriculture sustainability. The benefits of cereal–legume mixtures are highly affected by species morphology and functioning, which determine the balance between competition and complementarity for resource acquisition. Studying species morphogenesis, which controls plant architecture, is therefore of major interest. The morphogenesis of cultivated species has been mainly described in mono-specific growing conditions, although morphogenetic plasticity can occur in multi-specific stands. The aim of the present study was therefore to characterize the variability of the morphogenesis of pea plants grown either in pure stands or mixed with wheat. This was achieved through a field experiment that included three pea cultivars with contrasting earliness (hr and HR type) and branching patterns. Results show that most of the assessed parameters of pea morphogenesis (phenology, branching, final number of vegetative organs and their kinetics of appearance) were mainly dependent on the considered genotype, which highlights the importance of the choice of cultivars in intercropping systems. There was however a low variability of pea morphogenesis between sole and mixed stands except for plant height and branching of the long-cycle cultivar. The information provided in the present study at stand and plant scale can be used to build up structural–functional models. These models can contribute to improving the understanding of the functioning of cereal–legume intercrops and also to the definition of plant ideotypes adapted to the growth in intercrops.

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          R: a language and environment for statistic computing

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            Functional-structural plant modelling: a new versatile tool in crop science.

            Plants react to their environment and to management interventions by adjusting physiological functions and structure. Functional-structural plant models (FSPM), combine the representation of three-dimensional (3D) plant structure with selected physiological functions. An FSPM consists of an architectural part (plant structure) and a process part (plant functioning). The first deals with (i) the types of organs that are initiated and the way these are connected (topology), (ii) co-ordination in organ expansion dynamics, and (iii) geometrical variables (e.g. leaf angles, leaf curvature). The process part may include any physiological or physical process that affects plant growth and development (e.g. photosynthesis, carbon allocation). This paper addresses the following questions: (i) how are FSPM constructed, and (ii) for what purposes are they useful? Static, architectural models are distinguished from dynamic models. Static models are useful in order to study the significance of plant structure, such as light distribution in the canopy, gas exchange, remote sensing, pesticide spraying studies, and interactions between plants and biotic agents. Dynamic models serve quantitatively to integrate knowledge on plant functions and morphology as modulated by environment. Applications are in the domain of plant sciences, for example the study of plant plasticity as related to changes in the red:far red ratio of light in the canopy. With increasing availability of genetic information, FSPM will play a role in the assessment of the significance towards plant performance of variation in genetic traits across environments. In many crops, growers actively manipulate plant structure. FSPM is a promising tool to explore divergent management strategies.
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              A Versatile Growth Model with Statistically Stable Parameters

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                Author and article information

                Journal
                AoB Plants
                AoB Plants
                aobpla
                aobpla
                AoB Plants
                Oxford University Press
                2041-2851
                2014
                2 April 2014
                : 6
                : plu006
                Affiliations
                [1 ]LUNAM Université, Groupe Ecole Supérieure d'Agriculture, UPSP Légumineuses, Ecophysiologie Végétale, Agroécologie , 55 rue Rabelais, BP 30748, F-49007 Angers Cedex 01, France
                [2 ]Present address: INRA, Centre de Versailles-Grignon, U.M.R. INRA/AgroParisTech Environnement et Grandes Cultures , 78850 Thiverval-Grignon, France
                [3 ]INRA, UR4 P3F, Equipe Ecophysiologie des plantes fourragères , Le Chêne – RD 150, BP 6, F-86600 Lusignan, France
                Author notes
                [* ]Corresponding author's e-mail address: abraham.escobar@ 123456lusignan.inra.fr
                Article
                plu006
                10.1093/aobpla/plu006
                3974333
                e68e3b74-f583-4571-9bd1-875737770312
                Published by Oxford University Press on behalf of the Annals of Botany Company.

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/3.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 11 September 2013
                : 7 February 2014
                Page count
                Pages: 15
                Categories
                Research Articles

                Plant science & Botany
                morphogenesis,pisum sativum,plant architecture,plasticity,triticum aestivum,wheat–pea intercropping.

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