RU2626586C1 - Method of assessing selection material of pea by leaf photosynthesis rate - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention represents a method of assessing breeding pea material by the leaf photosynthesis rate, comprising measuring the absorption rate of carbon dioxide molecules per surface area unit of the leaves of the first fruiting node at the fruiting stage, wherein the measurement is carried out from 9:00 am to 11:00 am via a portable gas analyzer of the brand LI-6400 XT, which records and displays the photosynthesis rate value at the digital screen, wherein the measuring chamber is attached to the plant leaf, and the stabilization of gas exchange in the measuring chamber is waited for 1.5-2 minutes.

EFFECT: invention allows to reduce time costs and to improve the accuracy compared with known methods.

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Description

The invention relates to agriculture, in particular to the field of crop production and selection.

One of the urgent tasks of modern crop production is to increase the yield of agricultural plants. Selection work to create new high-yielding varieties should be based on deep knowledge of the internal physiological and biochemical nature of the production process (Nikolaeva E.K. Features of the primary photosynthesis reactions in highly productive varieties of winter wheat: abstract of dissertation ... candidate of biological sciences: 03.00.12. Nikolaeva Elena Konstatinovna. - Moscow, 1983) [1]. The value of productivity, determined by the intensity and duration of the integral process of accumulation of dry matter, depends on many external and internal factors and is primarily closely related to the efficiency of photosynthesis, the most important link in the metabolism of green plants (A. Nichiporovich, Energy efficiency of photosynthesis and plant productivity / A. A. Nichiporovich // Pushchino: Scientific Center of Biology, Academy of Sciences of the USSR. - 1979. - 37 p.) [2].

In addition, photosynthesis is the energetic basis for adaptation of plants to adverse external conditions (Rakhmankulova ZF The ratio of photosynthesis and respiration as the energetic basis for adaptation of plants to adverse external conditions: abstract of thesis ... doc. Biol. Sciences: 03.00.12 Rakhmankulova Zulfira Fauzievna. - Moscow, 2002) [3].

A known method for determining the intensity of photosynthesis of plants in a cultivation structure and installation for its implementation. The method is based on an estimate of the rate of decrease in the concentration of СО ₂ in a structure when its supply is turned off, and this speed depends on the intensity of photosynthesis and the magnitude of leaks through uncontrolled exits of the structure. The method is implemented in the installation for determining the intensity of photosynthesis, equipped with an additional carbon dioxide concentration meter installed on the outside of the cultivation facility, a time interval meter and a setpoint for maximum and minimum concentration values (RF patent No. 2030855, publ. March 20, 1995) [4].

A known method for determining the parameters of H ₂ O and CO ₂ gas exchange of plant leaves, according to which conduct simultaneous and differentiated determination of the kinetic parameters of H ₂ O and CO ₂ gas exchange of the upper and lower sides of amphistomatic leaves (leaves having stomata on the upper and lower sides ) plants. Using a known gasometric device, the transpiration and assimilation rates of CO _{2 of the} upper and lower sides of the sheet are measured in a stationary mode at controlled concentrations of H ₂ O-vapor and CO ₂ in the air above both sides of the sheet. Then, on one of the sides of the sheet change arbitrarily concentration of H ₂ O vapor and CO _2, and changing the total rate of transpiration and assimilation of CO ₂ to compensate to their initial values by increasing or decreasing concentrations, respectively, H ₂ O vapor and CO ₂ in the air above the other side of the sheet. The second values of the rates of transpiration and assimilation of CO _{2 of the} upper and lower sides of the sheet and the corresponding concentrations of H ₂ O-vapor and CO ₂ in the air above both sides are measured, and the desired kinetic parameters are calculated by the formulas (RF patent No. 20112193, publ. 05.15.1991) [5].

A disadvantage of the known methods is that they are intended for use in stationary conditions and are not suitable for evaluating selection and collection material in the field.

A known method for remotely determining the functional state of the photosynthetic apparatus of plants is that they send laser radiation pulses in the dark, thereby exciting chlorophyll fluorescence radiation, measure the fluorescence levels F0 and Fm, and determine the maximum quantum yield of the primary charge separation in the PSII photosystem ( RF patent No. 2453829, Bull. No. 17, publ. 20.06.2012) [6].

A known method for assessing the photosynthetic intensity of plant organisms, which includes measuring the optical parameters of photosynthetic tissues of plants and fruits, by recording changes in light scattering intensity of photosynthetic tissues of plants or fruits under the influence of quasi-monochromatic radiation in the visible spectrum (RF patent No. 2352104, Bull. No. 11, publ. 20.04 .2009) [7].

A disadvantage of the known methods is the use of complex and expensive equipment.

A known method for determining the intensity of the photosynthetic apparatus of various plant varieties by measuring indicators reflecting the physiological state of chloroplasts (RF patent No. 2098948, publ. 12/20/1997) [8].

The disadvantage of this method is the time-consuming and lengthy preparation of plants for analysis, which does not allow to assess the state of the plant organism at the time of sampling from a large number of collection and selection samples.

The objective of the invention is to determine the intensity of photosynthesis of leaves to assess the selection material of pea in the field with the preservation of plants while reducing the complexity of the measurements.

The technical result of the invention is to reduce the time spent and increase accuracy in comparison with known methods.

The problem and the technical result are achieved due to the fact that in the inventive method of evaluating the selection material of pea seeds on the intensity of leaf photosynthesis, including measuring the intensity of absorption of carbon dioxide molecules per unit surface of the leaves of the first fruiting node in the fruiting phase, the measurements are carried out from 9: 00 to 11:00 a.m. using a portable gas analyzer of the LI-6400 XT brand, which records and displays the value of photosynthesis intensity on a digital screen, at that the measuring chamber is attached to the leaves of the plant and during 1,5-2 minutes awaiting stabilization of gas exchange in the measuring chamber.

The essence of the proposed solution is illustrated by drawings, where in FIG. 1 is a graph of photosynthesis rate of plant pea plants depending on the development phase, and FIG. Figure 2 shows the genotypic range of variation in the photosynthesis rate of plant pea plants in the fruiting phase.

It was experimentally established that modern highly productive genotypes of planting peas have a high intensity of photosynthesis of leaves on the first fruiting node in the phase of fruit formation (Fig. 1). In this phase, pea plants are characterized by the maximum need for assimilants for seed formation, which makes it possible to assess the intensity of photosynthesis in genotypes and to identify promising ones for involvement in crop selection for high photosynthesis intensity (Fig. 2).

The measurements included leaves located on the first fruiting node. This is due to the fact that they are physiologically the most mature and make the greatest contribution to the formation of plant yields (Bartkov, B.I. Zvereva // Physiology and biochemistry of cultivated plants. - 1974. - T. 6. - Issue 5. - P. 502-505) [9].

Assimilants formed in these leaves due to photosynthesis are used by the plant primarily for the formation of fruits and seeds (table).

The optimal measurement time is from 9:00 a.m. to 11:00 p.m., since at this time of day the photosynthesis rate of the leaves reaches the maximum value in plants, and it is not affected by the increase in air temperatures at noon, as well as dehydration and overheating of the leaf and plants.

The method is as follows.

In the field on intact plants of the genotypes of seed peas, the intensity of photosynthesis is estimated using a portable gas analyzer. Measurements are taken on leaves located on the first fruiting node in the fruiting phase from 9:00 to 11:00. A measuring chamber of a portable gas analyzer (LI-6400 XT or equivalent) (LI-6400 XT Portable Photosynthesis System, LI-COR: Biosciences, www.licor.com) is attached to the plant leaf [10]. Within 1.5-2 minutes, stabilization of gas exchange in the measuring chamber is expected. After that, the value of photosynthesis intensity is fixed, which is displayed on the digital screen of the instrument computer by pressing a button.

Example

Assessment of breeding material is carried out on modern promising lines of peas, when the plants have reached the phase of development of fruit formation. In the field on intact plants in breeding sowing, measurements begin at 9:00 local time and continue until 11:00. On the experimental plot, healthy, typical plants are noted for the evaluated variety or line of sowing peas, without visible damage to the leaves located on the first fruiting node. Attach the measuring chamber of a portable gas analyzer of the LI-6400 XT brand to the plant leaf. Within 1.5-2 minutes, stabilization of gas exchange in the measuring chamber is expected. After that, the value of photosynthesis intensity is fixed, which is displayed on the digital screen of the instrument computer by pressing a button. Detach the measuring chamber and proceed to measure the photosynthesis rate of the next plant. The sequence of actions is repeated. According to the results of statistical processing of the obtained experimental data on the assessment of breeding material (varieties and lines) (Fig. 2), varieties and lines with a high intensity of leaf photosynthesis are distinguished. In our studies, Ras 657/7 - 16.57 μmol СО ₂ m ² / s, Orlovchanin - 11.56 μmol СО ₂ m ² / s and Lu D-60 - 11.24 μmol СО ₂ m turned out to be promising for the selection of seed peas. ² / s

The technical result of the invention is that with high accuracy and minimal time it is possible to evaluate the intensity of photosynthesis of peas in the field using the express method with preservation of plants for subsequent evaluation by economically useful signs: yield, grain quality, resistance to biotic and abiotic stressors ; and due to the wide range of variation of the trait (Fig. 2), high-yielding varieties and lines with a high intensity of plant photosynthesis can be distinguished for inclusion in the breeding process of culture.

Claims (1)

A method for evaluating the selection material of planting peas for the intensity of leaf photosynthesis, including measuring the intensity of absorption of carbon dioxide molecules per unit surface of the leaves of the first fruiting node in the fruiting phase, the measurements being carried out from 9:00 to 11:00 pm using a portable gas analyzer brand LI- 6400 XT, which captures and displays the value of photosynthesis intensity on a digital screen, while the measuring chamber is attached to the leaf of the plant and stabilization is expected for 1.5-2 minutes azo exchange in the measuring chamber.

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