RU2740216C1 - Method of selecting genotypes of buckwheat and soya, responsive to high content of carbon dioxide in air - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention relates to the field of biotechnology. Invention is a method of selecting genotypes of buckwheat and soya, responsive to high content of carbon dioxide in air, comprising measuring photosynthesis intensity of leaves, wherein measurement is carried out from 9:00 to 11:00 a.m. using a portable gas analyzer of LI-6400 XT or an analogue, measuring chamber of which is attached to a plant sheet, for measurement, leaves of the first fruit-bearing node are selected during the fruit-forming phase, according to the invention, in a measuring chamber of a portable gas analyzer, a normal concentration of carbon dioxide corresponding to an average annual value in the earth's atmosphere, and an increase in concentration of carbon dioxide by 4 times, are set, wherein the genitive types of buckwheat and soya are considered responsive, in which concentration of carbon dioxide is increased by 4 times, photosynthetic intensity increases by at least 2.3 times.

EFFECT: using this method, it is possible to estimate genotypes of buckwheat and soya by reaction of their plants to concentration of carbon dioxide in air with high accuracy and minimum time expenditures and to allocate among them the most responsive to the raised maintenance of carbonic gas in air.

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Description

The invention relates to agriculture, in particular to the field of plant growing and selection.

One of the main tasks of modern breeding and plant growing is the creation of varieties of agricultural plants that form a high and stable yield in different growing conditions. In this case, the efficiency of using carbon dioxide from the air by plants is of great importance.

Over the past half century, due to global warming, there has been a rapid increase in atmospheric carbon dioxide (Kerr, RA: It's official: humans are behind most of global warming. Science. 2001. Vol. 291, Issue 5504, pp. 566. Doi: 10.1126 / science.291.5504.566A) [1], which positively affects the increase in photosynthesis and productivity of most agricultural crops (Jablonski, LM, Wang, X. And Curtis, PS Plant reproduction under elevated CO2 conditions: a meta-analysis of reports on 79 crop and wild species. New Phytologist. 2002, 156: 9-26. Doi: 10.1046 / j.1469-8137.2002.00494.x) [2].

At present, systems have been developed for enriching air with carbon dioxide in crops both in protected ground (RF Patent No. 2402 898 A01G 31/00, published 10.11.2010 bul. No. 31) [3], and on production crops in natural conditions Environment (Ainsworth E.A. & Long SP What have we learned from 15 years of free-air CO2 enrichment (FACE)? A meta-analytic review of the responses of photosynthesis, canopy properties and plant production to rising CO2. New Phytologist. 2005, 165, 351-371 Doi: https://doi.org/10.1111/j.1469-8137.2004.01224.x) [4].

Therefore, purposeful selection aimed at creating genotypes of agricultural crops that are responsive to the increased content of carbon dioxide in the air will make it possible to more effectively use the biological potential of the culture in the context of the ongoing global climate change.

The closest to the claimed method is a method for assessing the breeding material of seed peas for the intensity of photosynthesis (RF Patent No. 2626586 А01Н 1/04, published on July 28, 2017, bul. No. 22) [5].

The disadvantage of this method is that it does not allow the assessment and selection of genotypes of crops (in particular buckwheat and soybeans), responsive to the increased content of carbon dioxide in the air.

The objective of this invention is to develop a method for evaluating and selecting genotypes of buckwheat and soybeans that are responsive to an increased content of carbon dioxide in the air.

The technical result of the invention is to determine the limit values of the intensity of photosynthesis of buckwheat and soybean plants, depending on the concentration of carbon dioxide in the air.

The task and the specified technical result is achieved due to the fact that in the inventive method for the selection of buckwheat and soybean genotypes responsive to the increased content of carbon dioxide in the air, which consists in measuring the intensity of photosynthesis of leaves from 9:00 to 11:00 a.m. using a portable gas analyzer brand LI-6400 XT or similar, the measuring chamber of which is attached to the leaf of the plant, the leaves of the first fruiting node are selected for measurement in the fruiting phase, according to the invention, in the measuring chamber of the portable gas analyzer, alternately the normal concentration of carbon dioxide is set corresponding to the average annual value in the earth's atmosphere, and increased by 4 times, while the genotypes of buckwheat and soybeans are recognized as responsive, in which, with a 4-fold increase in the concentration of carbon dioxide, the intensity of photosynthesis increases by at least 2.3 times.

The essence of the proposed solution is illustrated by drawings, which show the intensity of photosynthesis depending on the concentration of carbon dioxide in the measuring chamber: Fig. 1 - for different varieties of buckwheat; fig. 2 - in different soybean varieties.

Previously, it was experimentally found that the most significant genetic differences are recorded in the fruiting phase (RF Patent No. 2626586 А01Н 1/04, published on July 28, 2017 bul. No. 22) [5], therefore, selection is proposed to be carried out, first of all, in the fruiting phase in terms of intensity photosynthesis of leaves of the first fruiting node, which bears the main load in providing plants with photoassimilates (Bartkov, B.I. Distribution of assimilates during the fruiting period of leguminous plants (on the principle of duplication in photosystems) / B.I.Bartkov, E.G. Zvereva // Physiology and biochemistry of cultivated plants. - 1974. - T. 6. - Issue 5. - P. 502-505) [6].

A high dependence of the intensity of photosynthesis of plant leaves on the concentration of carbon dioxide in the measuring chamber in buckwheat and soybean plants was experimentally established (Figs. 1, 2). The correlation coefficient between IF and the concentration of carbon dioxide in the air in the studied cultures was from 0.78 to 0.87.

Accounting for the intensity of photosynthesis is carried out in the morning hours - from 9 to 11, when the weather conditions are most favorable for the maximum manifestation of photosynthesis activity: the intensity of illumination reaches a saturating level, and the air temperature does not have a stressful effect on plants - there is no dehydration and overheating of leaf cells, as is occurs in the midday and afternoon hours. The method is carried out as follows.

The measurement of the intensity of photosynthesis of leaves is carried out at different levels of carbon dioxide concentration in the measuring chamber: the average annual value in the earth's atmosphere and increased by 4 times, using a portable gas analyzer brand LI-6400 XT or an analogue, which allows you to set the required level of carbon dioxide concentration in the measuring chamber, which attached to the leaf of the first fruiting node of the plant, and after stabilizing its operating mode (1-1.5 minutes), the values of the photosynthesis intensity are recorded on the digital screen of the device. For measurement, 5-7 plants typical for the genotype are selected, growing in the middle of the plot, in which the leaves are not damaged by pests and diseases.

According to the results of the assessment during the subsequent analysis of the obtained experimental data, the experimental varieties are ranked according to the increase in the values of the intensity of photosynthesis with a 4-fold increased concentration of carbon dioxide compared to the concentration in natural conditions (the average annual value in the earth's atmosphere). The genotypes of the culture are considered responsive, in which the intensity of photosynthesis increases by at least 2.3 times with a 4-fold increase in the concentration of carbon dioxide.

Experiments have confirmed that the intensity of photosynthesis of buckwheat and soybean plants has a pronounced response to changes in the concentration of carbon dioxide in the air. With an artificial increase in the content of carbon dioxide in the measuring chamber, the intensity of photosynthesis increases both in buckwheat and soybean varieties, while the genotypes of crops react differently to changes in the concentration of carbon dioxide, and the greatest differentiation is observed at a 4-fold increase in the concentration of carbon dioxide ( Fig. 1, 2).

Assessment of the genotypes of buckwheat and soybeans by the intensity of photosynthesis at different concentrations of carbon dioxide in the measuring chamber made it possible to establish their reaction to a change in this factor and to differentiate them by an increase in the intensity of photosynthesis at an increased (4 times) concentration of carbon dioxide (table).

In 2011, 2014-2015 years of research, the average annual value of the concentration of carbon dioxide in the earth's atmosphere is 250 ppm.

As a result, 2 cultivars of buckwheat culture were isolated (K-406 and Dozhdik), in which, with a 4-fold increased concentration of carbon dioxide, the intensity of photosynthesis increased 2.34 and 2.30 times, respectively, and 2 cultivars in soybean culture ( Mageva "and" Lancetnaya "), in which the intensity of photosynthesis increased 2.47 and 2.57 times, with a 4-fold increase in the concentration of carbon dioxide, respectively, which can be recommended for selection as sources responsive to the increased content of carbon dioxide in the air.

Using this method, it is possible: with high accuracy and minimal time expenditure, to assess the genotypes of buckwheat and soybeans by the reaction of their plants to the concentration of carbon dioxide in the air and to distinguish among them the most responsive to the increased content of carbon dioxide in the air.

Claims (1)

A method for selecting buckwheat and soybean genotypes that are responsive to an increased content of carbon dioxide in the air, which consists in measuring the intensity of leaf photosynthesis, while measurements are carried out from 9:00 to 11:00 a.m. using a portable gas analyzer LI-6400 XT, the measuring chamber of which attached to a leaf of a plant, for measurement, the leaves of the first fruiting node are selected in the fruiting phase, characterized in that in the measuring chamber of the portable gas analyzer, the normal concentration of carbon dioxide is set in turn, corresponding to the average annual value in the earth's atmosphere, and increased by 4 times, while genotypes are recognized as responsive buckwheat and soybeans, in which the intensity of photosynthesis increases by at least 2.3 times with a 4-fold increase in the concentration of carbon dioxide.

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