Physico-Mechanical Properties and Architectonics of Stems as Indicators of Cereal Plants Resistance to Lodding

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Abstract

The increase in the yield of cereals, the main food product of the planet’s population, is the result of a modern approach to the process of growing and harvesting, the introduction of new techniques of breeding work, based, among other things, on the methods of mathematical modeling of the “ideal” variety – high-yielding and resistant to various unfavorable factors. Lodging of crops leads to significant losses of the crop, deterioration of its quality. Since ancient times, famous scientists have tried to describe the behavior of the stem as an elastic rod from the point of view of mathematics and technical mechanics. The article describes the methods we developed for determining the most important physical and mechanical properties of tissues (Young’s modulus, elasticity and yield strength limits) and the parameters of the architectonics of cereal plants (stem length, outer and inner diameters of the stem at the root and at the ear or panicle, weight of the ear, panicle or cob), which are statistically reliable and are used to build a lodging model. The obtained long-term data of field, vegetation and laboratory experiments are recommended to be used in breeding new varieties and hybrids resistant to lodging. Interdisciplinary research was conducted at the junction of biological and mathematical sciences to find the features of resistance to lodging of stems of winter and spring cereals depending on the variety and species. Stress-strain diagrams were constructed for all crops, all varieties and hybrids in three phases of vegetation, with the help of which we compiled an algorithm for selecting the optimal parameters of resistance to lodging of cereal plants.

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About the authors

I. V. Arinicheva

Kuban State Agrarian University

Author for correspondence.
Email: loukianova7@mail.ru

Grand PhD in Biological Sciences, Professor

Russian Federation, Krasnodar

V. G. Griguletsky

Kuban State Agrarian University

Email: loukianova7@mail.ru

Grand PhD in Technical Sciences, Professor

Russian Federation, Krasnodar

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2. Fig. 1. Installation for determination of stem sample deflection: 1 - tripods; 2 - legs; 3 - weight; 4 - stem sample; 5 - thread; 6 - table; f - stem sample deflection in the middle under the influence of force P.

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3. Fig. 2. General stress-strain diagram for rye stems (all phases, field experiment, 2011-2019).

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4. Fig. 3. Algorithm of selection of optimal parameters of resistance to lodging of cereal plants. L - stem length, D0 - stem outer diameter at the root, D - stem outer diameter at the ear (panicle).

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5. Fig. 4. Average physical and mechanical properties of cereal stem tissue by vegetation phases.

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