RU2475020C2 - Method of selection of best pollinating varieties for apple tree planting - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, in particular, to gardening. In the method, in the pollen of varieties under study, exposed over calcium chloride to constant weight, the content of water-soluble substances is determined. A variety which pollen contains more water-soluble substances is considered the best pollinator. The most preferable pollinators are the varieties of apple tree which pollen contains more water-soluble substances than 50% of its dry weight.

EFFECT: method enables to accelerate and simplify the accurate selection of compatible combinations of apple tree varieties at cross-pollination.

2 cl, 9 dwg, 4 tbl, 2 ex

Description

The method of selection of varieties (forms) (hereinafter in the text we use the term “variety”, which is taken as a synonym for the phrase “breeding form”) of pollinators for planting an apple tree refers to agriculture, namely gardening, and can be used for breeding apple varieties.

The purpose of the invention is to increase the reliability, simplification, acceleration and reduction of the selection process for the selection of new forms and varieties of pollinators for a given production varietal plantings of apple trees. This is achievable because the fertilizing ability of the apple variety depends on the content of water-soluble substances in the mature pollen of the proposed pollinator variety (Tables 2, 3, 4).

The invention relates to agriculture, in particular to horticulture, and in particular to methods for evaluating varieties of pollinators of apple trees, and is intended to select the most effective varieties of pollinators.

A known method of selection of varieties of pollinators of apple trees, including compulsory controlled experimental pollination of garden varieties of apple trees with mature pollen of the studied varieties of apple trees [9].

However, assessing the tendency of apple varieties to cross fertility (compatibility), only by forced pollination of the flowers of one apple variety with pollen from another variety, is not always convincing enough. Negative results on fruit set during cross-pollination can be obtained in dry years, when the reproductive organs are underdeveloped, in addition, in the absence of moisture, the pollen that has fallen on the stigma of the pestles does not germinate, and bursts with excess moisture [2, 3, 4, 8, 12]. So the judgment on compatibility between varieties of fruit crops, based on only cross-compulsory experimental pollination, sometimes develops over several years.

The aim of the invention is to accelerate and simplify the reliable selection of compatible combinations of apple varieties in cross-pollination.

This goal is achieved by the fact that the tendency of apple varieties to compatibility during pollination is judged primarily by the endogenous factor, namely, the percentage of water-soluble substances in pollen from pollinator varieties.

It was found that water extracts from plant pollen contain enzymes, amino acids, glycosides of flavonoids, glycoproteins [1, 5, 14]. They provide germination of pollen grains (the formation and growth of pollen tubes).

In addition to the content of water-soluble substances (HRB) in pollen from pollinator varieties, other endogenous factors, such as the content of florizin in the pistils of the pollinated variety, can influence the compatibility of apple varieties during pollination. Florizin in high concentrations is an inhibitor of growth processes [11], including the germination of pollen tubes.

Despite the fact that the compatibility between varieties of apple trees during pollination, according to our data, is directly proportional to the percentage of water-soluble substances in pollen of the pollinator variety (Tables 2, 3 vertically) and inversely proportional to the percentage of florizin in the columns of the pollinated variety (Tables 2, 3 horizontally), the determining factor for compatibility of varieties during pollination is still the content of water-soluble substances in pollen of the pollinator variety.

This is explained by the fact that water-soluble substances of pollen, if sufficient, neutralize the inhibitory effect of florizin pestles and promote its use on the growth of pollen tubes.

A quantitative indicator of the compatibility of varieties during pollination is the percentage of fruit set in a pollinated variety. When evaluating pollinating varieties, the best pollinators are considered those varieties that provided a percentage of established fruit that is higher than free pollination (control) equal to or close to it. Varieties that provide fruit setting are lower than the best pollinators, but not less than 60% in relation to the control, are allocated to the group of permissible pollinators. Varieties that gave a fruit set rate below 60% with respect to the control should be considered as poor pollinators [9].

When comparing different combinations of the pollinated variety and pollinator variety (Tables 2, 3, 4), poorly compatible (absolute setting of 0-3%, and relative setting of 0-42%) are combinations of varieties in which the pollinated variety has the maximum florizin content ( 25-30% of dry weight (pistils are dried to constant weight over KOH or NaOH, and pollen is dried to constant weight over CaCl ₂ ), and pollen from pollinator varieties contains a minimum amount of water-soluble substances (33-42% of dry weight) (Table. 3).

The highest percentage of fruit setting (absolute setting is 28-31%, and relative to the control 172-186%), i.e. The greatest compatibility is observed if the pollinated apple variety has a minimum florizin content (11-13% of dry weight) at the base of the column, and pollen of the pollinator variety contains the maximum amount of water-soluble substances (53-58% of dry weight) (Table 3).

In combination with a high (25-30%) content of florizin in the columns of the pollinated variety and a high (53-58%) content of water-soluble substances in pollen of the pollinator variety, a high percentage of fruit setting (absolute 8-23%; rel. 160- 228%) (Table 3). A similar dependence of fruit set on the quantitative content of water-soluble substances in pollen is also observed according to tables 2 and 4.

The graphic dependence of fruit setting on the content of water-soluble substances in pollen of pollinator varieties is more obvious. This can be seen in Figs. 1–9, compiled according to the data of Tables 3 and 4. According to these data, there is a clear tendency that the fruit set is directly dependent on the content of water-soluble substances in pollen, and the fruit set, in all pollinated varieties, increases sharply if pollen pollinators contain water-soluble substances more than 50% of their dry weight.

The absence in some cases of a strictly consistent dependence of fruit setting on the content of water-soluble substances in pollen of pollinators is explained by the fact that factors such as, for example, the different quality of pollen grains and pistils of various varieties of apple trees can influence fruit set.

In general, from the data in Tables 2, 3 and 4, it can be concluded that pollen of the best pollinator varieties contains water-soluble substances more than 50% of its dry weight, and the higher the content, the higher the pollinative properties of the variety, and the pollen of bad pollinators contains less than 50% its dry mass.

It follows that the content of water-soluble substances in pollen can be used as a parameter when choosing a pollinator variety of apple plantings.

The method consists in the fact that when choosing an apple pollinator variety from several studied varieties in their mature pollen, dried to a constant weight over calcium chloride, the content of water-soluble substances is determined and the best pollinator is the variety whose pollen has a higher content of water-soluble substances, preferably above 50% of its dry weight.

Pollen grains, devoid of water-soluble substances after washing with clean water, do not germinate either on an artificial nutrient medium or on the stigmas of pistils [13].

Tables 2, 3 and 4 present the results of determining the pollination ability of some tested apple varieties. The application of the proposed method for the selection of pollinator varieties, based on the use of water-soluble substances in pollen as a marker, will provide an objective characterization of the pollination ability of any known varieties and forms of apple trees in one season, i.e. will significantly reduce over time a targeted breeding process to identify forms of apple trees with specified pollination properties.

Long-term studies have shown that differences in the content of water-soluble substances in pollen, like florizin in pistils taken from the same varieties in different years, are usually less than differences in the same indices for different varieties (Table 1).

Table 1 The content of water-soluble substances in pollen and florizin at the base of the columns of different varieties of apple trees in 1984, 2001, 2007. No. Apple varieties The content of water-soluble substances in pollen,% The content of florizin in the base of the columns in% of dry weight 1984 2001 2007 1984 2001 2007 one Folk 46 47 - eighteen 22 - 2 Melba 51 fifty - 16 fifteen - 3 Saffron Pepin 42 46 48 17 16 eighteen four Zorenka fifty 45 - 17 eighteen - 5 Welsey 40 38 38 fourteen fifteen 16 6 North synap 51 49 52 fifteen 17 17 7 Papier 46 48 49 28 thirty thirty 8 Borovinka 39 42 - 32 29th - 9 Cinnamon new 40 38 - thirty 32 - 10 Antonovka com. 45 47 fifty 32 31 thirty eleven Dessert Isaeva 32 33 - 26 28 - 12 Bessemyanka Michurinskaya 33 31 35 31 29th 28

The results indicate that the content of water-soluble substances in pollen and florizin in the pistils of the apple tree, the values are quite stable and are characteristic for specific varieties.

Example 1. The study of the content of water-soluble substances in pollen and the content of florizin in the bases of the flower pistil columns of simultaneously flowering apple varieties: Lobo, Spartan, Martovskoye, Zelenaya May, Orlik, Sinap Orlovsky, Bessemyanka Michurinsky and conducting cross-forced pollination between these varieties.

The selection of flowers, pollen harvesting and field experiments on forced pollination of the studied varieties are carried out according to the methods adopted in breeding practice [9]. Harvested pollen intended for analysis is kept in a desiccator over calcium chloride at room temperature 18-20 ° C to constant weight for 2-3 days.

Weighed samples of 10-15 mg are prepared from pollen samples matured in a desiccator. Then the content of water-soluble substances in them is determined by a known weighting method [7]. Harvesting of columns from pestles of flowers of apple varieties and determination of the content of florizin in their bases is also carried out by the previously described method [6]. The repetition of the analysis for each sample of pollen and pistils is three times.

The values of the content (in% by weight) of water-soluble substances in pollen of pollinator varieties and the content (in% by weight) of florizin in the bases of dry columns of pollinated apple varieties and the corresponding percentage of fruit sets from the number of pollinated for two years (2009 and 2010). flowers are presented in tables 2, 3 and Fig. 1-6.

From the two-year experiments obtained, it follows that all the studied pollinated varieties showed the highest percentage of fruit set when pollinated by pollen of the varieties Lobo and Spartan, i.e. varieties containing the largest amount of water-soluble substances (52-58%). Therefore, these varieties should be used in planting schemes for multi-varietal plantings of apple trees as pollinating varieties.

Example 2. Determine the best pollinating varieties for apple varieties: Papirovka, Bessemyanka Michurinsky, Antonovka vulgaris. The best pollinator variety is distinguished according to the content of water-soluble substances in pollen of the following nine varieties: Bessemyanka Michurinsky, Antonovka vulgaris, Welsey, Renet Chernenko, Zhigulevskoye, Melba, Lobo, Northern Sinap, Bogatyr. The content of water-soluble substances in the pollen samples and the content of florizin in the flower columns are found as described in example 1.

From the results of the analysis (Tab. 4) and Figs. 7–9, it follows that pollen grains of the following varieties have the highest content of water-soluble substances: Melba, Northern Sinap, Kitayka, and Bogatyr, 55, 53, 57, and 61%, respectively. In other varieties, the content of water-soluble substances does not exceed 50%.

Based on the value of this physiological parameter, it was determined that of the varieties of apple trees considered for pollination, the best pollinators are Melba, Northern Sinap, Kitayka and Bogatyr. To confirm this conclusion, pollen of all experimental varieties was carried out by forced trial manual pollination of varieties Bessemyanka Michurinskaya, Antonovka vulgaris and Papirovka. The percentage of tied removable fruits of the number of pollinated flowers, for all three varieties, was the highest of pollinating varieties: Melba, Northern Sinap, Kitayka and Bogatyr. The fruit setting of these varieties exceeds free pollination, mainly 1.5-3.0 times (Table 4). Consequently, these varieties can be used in mass planting schemes of varieties Bessemyanka Michurinskaya, Antonovka vulgaris, Papirovka as pollinating varieties. The high pollination qualities of these varieties are also confirmed by the results of observations of them in production and experimental stands [10, 12]. From pollen of other varieties containing water-soluble substances less than 50% of the dry weight, the absolute percentage of fruit setting was mainly no more than 5%, which is less than 60% of the relatively free pollination and allows attributing them to poor pollinators.

Literature

1. Golubinsky I.N. Biology of pollen germination / I.N. Golubinsky. - Kiev: Naukova Dumka, 1974.- 368 p.

2. Zayets V.K. The study of self-pollination and cross-pollination in fruit trees in connection with the selection of the best pollinators / V.K. Zaets: Dis. Work. - Michurinsk, 1939 .-- 95 s.

3. Male F. Scientific foundations of fruit growing. / F.Kobel. ML: OGIZ - 1934 .-- 340 p.

4. Lichonos F.D. Apple tree selection. / F.D. Likhonos. - M.-L .: 1936. - 191 p.

5. Minaev V.G. Fluonoids in plant ontogenesis and their practical use. / V.G. Minaev. Novosibirsk: Science 1978, 256 pp.

6. Palfitov V.F. Diagnosis of self-fertility and growth power of apple trees. / V.F. Palfitov. Michurinsk: MichGAU, 2003, 198 p.

7. Palfitov V.F. Weight determination of water-soluble substances in pollen of plants. / V.F. Palfitov, T.V. Ermachkova. // Vestnik MichGAU / Michurinsk: - 2008 No. 2, p.120-122.

8. Ro L.M. Cross pollination and self-pollination in various fruit trees. / L.M. Ro - Mleev, 1929 .-- 101 p.

9. The program and methodology of variety studies of fruit, berry and nut-bearing crops. - Eagle VNIISPK, 1999 .-- p. 290 - 295.

10. Pomology. Apple tree. - Eagle: VNIISPK, volume 1, 2005.

11. Sarapuu L.P. The physiological role and metabolism of florizin in the apple tree. Doctoral dissertation. - Tartu, 1971. - 282 p.

12. Selection and cultivation of fruit and berry crops. / Under. ed. prof. A.S. Tatarintseva. M .: Kolos, 1981. - 368 p.

13. Branscheidt, P. Zur Physiologie der Pollen Keimung und Ihrer experimentellen Beeinflussung. - Planta, 1930.2, 2. S.368.

14. Wiermann R. Untesuchungen zum Phenylpropan - stoffwechsel des Pollens I. Ubersicht uber die bei Gymnospermen and Angiospermen isolierten flavonoiden Verbindungen. - Ber. Dtsch. Bot. Ges., 1968 .-- Bd. 81. S.3 - 16.

Claims (2)

1. The method of selecting the best varieties of pollinators of apple trees, characterized in that the pollen of the studied varieties, aged over calcium chloride to a constant weight, determines the content of water-soluble substances and the best pollinator is a variety whose pollen contains more water-soluble substances. 2. The method according to claim 1, characterized in that the most preferred pollinators are apple varieties, the pollen of which contains water-soluble substances in excess of 50% of their dry weight.

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