Ontogenetic-based sequential path analysis of grain yield and its related traits in several winter wheat cultivars |
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| Authors: | Wies?aw M?dry Jan Rozbicki Jan Golba Dariusz Gozdowski Alicja Pecio |
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| Institution: | 1. Department of Experimental Design and Bioinformatics, Warsaw University of Life Sciences, Warsaw, Poland;2. Department of Agronomy, Warsaw University of Life Sciences, Warsaw, Poland;3. Department of Plant Nutrition and Fertilization, Institute of Soil Science and Plant Cultivation in Pu?awy, Pu?awy, Poland |
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| Abstract: | Studies that provide representative insights for determining yield through its related traits during the ontogeny of modern cultivars subjected to sources of environmental variation are limited for different crops, including wheat. Most of the empirical evidence on the relationships between the yield of small grain cereal crops and its contributing traits has been obtained under dry or semidry conditions. The aims of this paper were to (1) illustrate how an path analysis can be used to clarify and interpret the relationships between grain yield (GY), yield components, and other yield-related traits of 25 winter wheat cultivars subjected to sources of environmental variation and (2) determine how the yield-related traits contribute to the yield variation. The data used in this analysis were generated from multi-environment trials across wheat-growing areas in Poland. Using Ward’s clustering procedure was capable of identifying the most critical predictor traits of the yield components and their contributions to cultivar-focused GY variation. Our findings document, confirm, and improve the basic biological understanding of how to grow modern wheat cultivars for high GY through effectively stimulating the improvement of yield-related traits through the optimization of developmental stage-based agronomic strategies. Our results confirmed empirically that modern European wheat cultivars grown in a temperate climate require favorable conditions, the use of appropriate N fertilizer and growth regulators, and the application of fungicide to protect against leaf diseases and to provide conditions that effectively increase the time to anthesis, the Leaf Area Index per spike at anthesis, and the grain filling duration, and reduce plant height and flag leaf disease severity, thus leading to a high GY. A high yield level is obtained by the performance of preferred yield-related traits that can maintain the three yield components at relatively high levels. |
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| Keywords: | cultivars environmental variation morpho-physiological traits phenological traits postregistration trials yield components |
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