RU2343697C1 - Method for determination of coccomycosis-resistant cherry and sweet cherry types - Google Patents

Abstract

FIELD: agricultural industry.

SUBSTANCE: leaf analysis of the cherry or sweet cherry type being studied is made during active period of leaf growing by determining the quantitative content of magnesium, calcium, caffeic and amber acids in leaves. Resistance of the types to coccomycosis depends on a certain ratio of those compounds.

EFFECT: reducing the time required for determining infection-resistant types, and improving method reliability owing to objective data on physiological state of the type being studied.

1 tbl, 2 ex

Description

The invention relates to agriculture, in particular to fruit growing, and can be used to determine the immune and highly resistant to coccomycosis forms of cherries, cherries and stocks for these crops.

Over the past two decades, the area of cultivation of cherries and cherries (the genus Cherry (Cerasus Mill.)) Has significantly decreased in our country. One of the reasons for this is the severe defeat of varieties and stocks of coccomycosis (pathogen Coccomuces' hiemalis Higg. Sun. Blumeriella jaapii Rehm.v.Arx. - marsupial stage, Cylindosporium hiemalle Higg - conidial stage), therefore the creation and introduction of forms resistant to this infection is one of the main areas in fruit growing.

Known, for example, is a method of selecting immune varieties against an artificial infectious background, recommending the use of a prefabricated inoculum consisting of a large number of monospore clones or biotypes of the fungus from different varieties and from different geographical areas. Accounting for lesions in the cells is carried out after 8-11 days. (Study of the resistance of cherries and cherries to coccomycosis: Guidelines / Comp .: MS Chebotareva. - L .: Publishing House of VNIIR named after N.I. Vavilov, 1985 - 29 pp.). Isolation and cultivation of artificial clones of a pathogen on artificial media or even simple collection of a large number of affected samples (populations) significantly complicates the procedure of artificial infection. In cases where the degree of resistance at a young age is not adequate to the resistance of plants during the fruiting period, selection against an artificial background is used with great care, sometimes as a preliminary; the final assessment is given later, after 2-3 years in the garden (Zhdanov V.V., Ogoltsova T.P. Selection for resistance to diseases and pests // Program and method for selection of fruit berry and nut-bearing crops. - Orel: Publishing House of the All-Russian Research Institute for Selection of Fruit Crops, 1995. - P.58-67).

Closest to the claimed is a method for determining the immune and highly resistant to coccomycosis forms of cherries and cherries in the field when studying the same set of varieties for at least 3 years, and at least 1 year should be epiphytotic. First, leaf diagnostics is carried out by selecting from each variety 3-4 normal growth trees of the same age. Leaves are viewed in 100 pieces. on the growth of the current year from different sides of the trees at a height of 1.5-2 m during the growing season, starting in May, the number of leaves affected by the disease is counted, and then on a six-point scale of damage accounting they give an assessment of resistance (Zhukov O.S., Kharitonova E.N. Cherry selection, - M.: Publishing house of the Higher Agricultural Institute, 1988 - P.142).

The disadvantages of the above methods are: the significant duration and complexity of the process, as well as the inaccuracy of determining the degree of stability of forms due to the fact that the development of the disease and the susceptibility of the studied samples largely depends on the prevailing weather conditions, subjective factors, for example, on the degree of preparation of a specialist phytopathologist, on the complex the composition of pathogen populations and the strong dependence of the structure of these populations on environmental conditions, as evidenced by differences in the external manifestation of diseases and different types of cherries, morphological and cultural differences of fungal colonies and varying degrees of damage in different ecological and geographical areas.

The technical result when using the proposed method is a significant reduction in the duration of the process of determining forms resistant to infection, as well as a significant increase in its reliability by taking into account objective data on the physiological state of the test sample.

The claimed technical result is achieved due to the fact that in the method for determining coccomycosis resistant forms of cherries and cherries, which includes leaf diagnostics of the test sample, followed by determination of resistant forms to infection, leaf diagnostics is carried out during the period of active leaf growth by determining the quantitative content of magnesium and calcium in them , caffeic and succinic acids, and the resistance of forms to coccomycosis is judged under the conditions under which

0.1015 M c.k. + 5.2659 M c.k. + 0.0122 M _Mg +0.0277 M _Ca - 12.1629> 0.01997 M c.k. - 7.46984 M c.k. + 0, 0095 M _Mg +0.02763 M _Ca - 5.90917

Where:

M K. to - the content of caffeic acid, mg / DM ³

M ya.k - succinic acid content, mg / dm ³

M _Mg - magnesium content, mg / DM ³

M _Ca - calcium content, mg / dm

Based on scientific research and analysis of long-term observation data obtained on the production base of SKZNIISiV, while studying five representatives of the genus Cerasus Mill .: Lyubskaya cherry (C.vulgaris); sweet cherry (C.avium); seedling (C.serrulata Hally Tolivetta); hybrids Immune No. 5 C.lannisiana No. 2 × Franz Joseph) and immune No. 6 (C.lannisiana No. 2 × Franz Joseph) determined various biochemical parameters: the content of phenolic compounds, organic acids and metal cations in the leaves of previously known resistant and unstable coccomycosis forms.

For three years (one of which was epiphytotic) in different periods of vegetation and in different soil and climatic conditions of the Krasnodar Territory, the following biochemical parameters were measured:

1. The potassium content (mg / DM ³ );

2. The sodium content (mg / DM ³ );

3. The content of magnesium (mg / DM ³ );

4. The content of calcium (mg / DM ³ );

5. The content of chlorogenic acid (mg / DM ³ );

6. The content of caffeic acid (mg / DM ³ );

7. The content of malic acid (mg / DM ³ );

8. The content of succinic acid (mg / DM ³ );

9. The content of citric acid (mg / DM ³ ).

It was found that the greatest difference in the content of the studied substances was revealed during the period of active plant growth, i.e. in May.

As a result of statistical processing of the obtained data using standard Student t-test methods (Lakin G.F. Biometrics. - M., 1990. - 293 p.) And discriminant analysis (Klekka UR. Discriminant and cluster analysis // Factor, discriminant and cluster analysis. Moscow, 1989, p. 215) a mathematical dependence was established, expressed as inequality, which revealed the effect of the content of 4 substances from all studied (table) on the stability of the forms of cherries and cherries. All calculations were performed using the Statistic for Windows 5.5 software package.

Examples of specific performance.

Leaf diagnostics began with a quantitative assessment of biochemical parameters during the period of active leaf growth of various representatives of the genus Cerasus Mill. using capillary electrophoresis.

Then, using Student's t-test, the average values of biochemical parameters were compared, which proved that the forms resistant and unstable to coccomycosis statistically significantly differ in the content of 4 substances (table).

Comparison of the average values of biochemical parameters using the t-criterion in forms of the genus Cerasus Mill resistant to coccomycosis and unstable. The content of substances, mg / DM ³ Sustainable forms Unstable forms Student t-test Ratio Potassium 2544.2 ± 109.7 2514.47 ± 150.9 0.16 1: 1.01 Magnesium 4b1.8 ± 49.8 220.3 ± 23.7 4.04 * 2.09: 1 Sodium 68.7 ± 10.3 70.5 ± 8.2 0.13 1: 1,03 Calcium 440.4 ± 23.1 319.9 ± 28.0 3.35 * 1.38: 1 Chlorogenic acid 1529.14 ± 246.2 1359.29 ± 222.5 0.49 1.12: 1 Coffee acid 26.09 ± 3.11 10.7 ± 2.36 3.76 * 2.42: 1 Apple acid 4.46 ± 0.52 3.15 ± 0.34 1.99 1.42: 1 succinic acid 0.50 ± 0.04 0.13 ± 0.03 7.64 * 3.85: 1 Lemon acid 2.05 ± 0.22 2.03 ± 0.65 0.04 in the table, * indicates the signs that showed statistically significant differences between the average values at a significance level of less than 0.05

Given these 4 features, i.e. biochemical parameters, a discriminant analysis was subsequently carried out to finally confirm the separation of various forms into resistant and unstable to coccomycosis.

As a result of discriminant analysis, classification functions and inequality were also obtained, which made it possible to isolate resistant samples from unknown forms at the very early stage of plant development. Substitution in the inequality of the numerical values of signs, i.e. the quantitative content of biochemical parameters in an unknown sample during the period of active growth, allows you to attribute it to resistant forms to coccomycosis only under the conditions under which:

0.1015 M q.k. + 5.2659 M y.a. + 0.0122 M _Mg +0.0277 M _Ca - 12.1629 more

0.01997 M q.o. - 7.46984 M y.a. + 0.00950 M _Ca +0.02763 M _Ca - 5.90917

Example 1. Leaf diagnostics was carried out by examining an extract of leaf forms with previously known properties resistant to coccomycosis: Hybrid Immune No. 5 (C. lannesiana × Franz Joseph), immune No. 6 (C. lannisiana No. 2 × Franz Joseph), seedling (C. serrulata Hally Tolivetta) from 1 year to 10 years, (genus Cherry (Cerasus Mill.).

Samples were taken from different parts of the Krasnodar Territory in May. Leaf diagnostics was carried out by selecting leaves on growths of the current year from different sides of trees at a height of 1.5-2 m in May. The measurements were carried out using the method of capillary electrophoresis (N.V. Komarova, Ya.S. Kamentsev. A practical guide to the use of Capillary electrophoresis systems. - SPb .: Veda LLC, St. Petersburg, 2006, pp. 79-93 ) Capillary electrophoresis is a method of analysis of complex mixtures, one of the purposes of which is the separation and determination of biochemical components of plant materials. However, for this purpose it is possible to apply any of the known methods for determining the quantitative content of chemical elements and substances in plant material.

Determination of calcium, magnesium, caffeic and succinic acids in the extract was carried out on a Capill-103P capillary electrophoresis device using appropriate boric acid-based buffer solutions. After substituting the obtained data into the inequality, we obtained the following result:

0.1015 × 48.42 + 5.2659 × 0.50 + 0.0122 × 100.13 + 0.0277 × 300.9-12.1629> 0.01997 × 48.42

7.46984 × 0.50 + 0.0095 × 100.13 + 0.02763 × 300.9-5.90917 or: 4.93991> 0.5879 - for the Hybrid Immune No. 5 (C. lannesiana × Franz Joseph) ;

0.1015 × 23.878-5.2659 × 4.62 + 0.0122 × 2481.9-0.0277 × 1276.5-12.1629> 0.01997 × 23.878-7.46984 × 4.62-0, 0095 × 2481.9-0.02763 × 1276.5-5.90917 or 80.2279> 18.905 - for the hybrid immune No. 6 (C. lannisiana No. 2 × Franz Joseph).

For the seedling (C.serrulata Hally Tolivetta), after substituting data into the inequality, we obtained: 14.23977> 10.865559

Thus, the obtained data confirm the correspondence of the studied samples to forms of the genus Cerasus Mill resistant to coccomycosis.

Example 2

We studied leaf extracts of forms: Lyubskaya cherries, Krasnodar sweet cherries, Franz Joseph cherries (genus Cherry (Cerasus Juss.)) With previously known infection-resistant properties. The measurements were performed analogously to example 1.

Samples were taken in May from different parts of the Krasnodar Territory. Substituting the numerical values of the biochemical parameters contained in the extract into the proposed inequality, we obtained the following result:

20.9836 <22.116835 - for cherries Krasnodar sweet;

3.17974 <5.799828 - for sweet cherry Franz Joseph (genus Cherry (Cerasus Juss.));

3.368978 <6.258378 - for Lyubskaya cherries, confirming the compliance of the studied samples with forms unstable to coccomycosis.

Example 3

Three new samples of hybrids obtained on the production base of SKZNIISiV were investigated: hybrid 1-71, hybrid Krupnoplodnaya × Nord star and seedling of immune stock ORP-1, which are currently at the stage of studying their resistance to infection in the field (using the prototype method ) The example was carried out analogously to example 1. Studies of the hybrid 1-71 by the field method were completed in 2006 after a 6-year test (the first three years did not give a clear answer). The final result allowed us to attribute this hybrid to a form unstable to coccomycosis. Using the proposed method, the same result was obtained in a short period of time, because after substituting into the inequality the numerical values of the biochemical parameters contained in the extract, the following result was obtained: 1.21835 <4.633845.

Three-year studies of the Krupnoplodnaya × Nord old hybrid by the field method also did not give a definite answer, which suggests further continuation of field studies of the Krupnoplodnaya × Nord old hybrid. Using the proposed method, when substituting into the inequality the numerical values of the biochemical parameters contained in the extract, the following result was obtained: 8.1025 <9.86327, which made it possible to attribute this hybrid to a form unstable to coccomycosis.

Determination of stability by the proposed method, the seedling of the immune stock OVP-1, which is currently undergoing field trials (2nd year), allows to attribute it to a stable form, because After substituting into the inequality the numerical values of the biochemical parameters contained in the extract, the following result was obtained: 18.9278> 16.8633.

Thus, the proposed method made it possible to reliably and reproducibly determine the forms of cherries and cherries resistant to coccomycosis in May, regardless of the age of the plants, weather conditions, the current year of observation, and the presence of a year with the epiphytotic development of coccomycosis.

Claims (1)

A method for determining coccomycosis-resistant forms of cherries and cherries, comprising leaf diagnostics of the test sample, followed by determination of infection-resistant forms, characterized in that the leaf diagnostics are carried out during the period of active leaf growth by determining the quantitative content of magnesium, calcium, coffee and succinic acids in them, and the resistance of forms to coccomycosis is judged under the conditions under which
Kk + 0.1015 M 5.2659 M YK + 0,0122M _Mg +0,0277 M _Ca - 12,1629> 0,01997 M kk - 7.46984 M i.a. + 0.0095 M _Mg +0.02763 M _Ca - 5.90917,
where M c.k. - the content of caffeic acid, mg / DM ³ ;
M y.k. the content of succinic acid, mg / DM ³ ;
M _Mg — magnesium content, mg / dm ³ ;
M _Ca - calcium content, mg / DM ³ .