MD1042Z - Process for treating young pear trees - Google Patents

Abstract

The invention relates to agriculture, and in particular to a method for processing young pear trees. The method according to the invention includes foliar treatment of trees with a 0.01% aqueous solution of glycosides obtained from Verbascum phlomoides L. by boiling extraction with an 80% aqueous methanol solution, extraction ethyl acetate, precipitation with chloroform and chromatographic separation of the fraction with Rf of 0.64 ... 0.5, while processing is carried out 2 ... 3 weeks after flowering with a total flow of 800 ... 1000 l / ha.

Description

The invention relates to agriculture, in particular to a process for treating young hair trees.

The process of treating fruit trees during the period of intensive vegetative growth with an aqueous solution of the steroidal flavonoid glycoside 5,4-dimethylchempferol 3-O-β-D (6′′-α-L-rhamnopyranosyl)-glucopyranoside (linaroside) in a concentration of 0.01%, with a consumption of 0.20…0.25 L/tree is known [1]. However, this process is characterized by low efficacy.

The problem solved by the proposed invention consists in intensifying physiological processes, in particular the processes of photosynthesis and pigment accumulation, as well as the growth and development of trees, which can greatly contribute to increasing the productivity of hair trees and the quality of the fruit harvest.

The process for treating young mullein trees, according to the proposed invention, includes extra-radicular treatment of the trees with a 0.01% aqueous solution of glycosides obtained from Verbascum phlomoides L. by boiling extraction with 80% hydromethanolic solution, extraction with ethyl acetate, precipitation with chloroform and chromatographic separation of the fraction with Rf 0.64…0.5, at the same time the treatment is carried out 2…3 weeks after flowering with a total consumption of 800…1000 L/ha.

The technical result consists in intensifying the processes of photosynthesis and pigment accumulation, increasing the vegetative growth of shoots, which will contribute to the initiation of fruit buds on trees of late hair varieties for next year's harvest.

The glycosides obtained from Verbascum phlomoides L. (called verbascosides) were obtained in the following way: the aerial part of the Verbascum phlomoides plant was crushed and extracted with 80% hydromethanolic solution 3 times by boiling. The extracts were combined and concentrated by vacuum distillation. The aqueous residue was extracted with ethyl acetate, and the extracts obtained were concentrated to an aqueous residue by vacuum distillation. From the aqueous residue, the summary flavonoid glycosides, called verbascosides, were precipitated with chloroform, which were chromatographed multiple times on polyamide columns. The columns were eluted with chloroform, then with a mixture of chloroform: methanol in a volumetric ratio of 13:7, the eluates were analyzed by thin layer chromatography, those with identical content were combined and concentrated by evaporation to dryness. As a result, flavonoid glycosides - verbascosides were obtained. The fraction with a predominant content of glycosides with the values of the chromatographic constants Rf ranging from 0.64…0.50 was concentrated by vacuum distillation to dryness. In the dry result, two major flavonoid glycosides were detected using silica gel thin layer chromatography, the structure of which was established after separation by chromatography on polyamide columns, using physicochemical procedures, H and BC NMR spectroscopy. Thus, the following substances were identified in the summary extract by comparison with bibliographic data: 3-chempferol (Gang Chen, Huiri Lin, Xuefend Li et al. Химия природных соединения, p. 607, 2009) and apigenin-7-O-glucopyranoside (Lhu X.F., Zhang H.X. Химия природных соединения, p. 801, 1972).

The advantages of the proposed process over the known process are: intensification of photosynthesis processes of the leaf apparatus with an increase in the content of chlorophyll pigments, enhancement of vegetative growth of shoots and, especially, of the processes of laying flower buds for next year's fruit.

Examples of embodiments of the invention

The experiments were set up in a 3-year-old apple orchard with young trees of the Noiabriskaia variety, until they began to bear fruit. Some of the apple trees after flowering were treated extra-radicularly with 0.01% aqueous solution of verbascoside. For comparison, another part of the trees of the same variety were treated with 0.01% aqueous solution of linaroside. Trees treated with distilled water served as controls. The solution consumption was 0.20…0.25 L/tree.

In the dynamics of the vegetation period, the action of the growth regulator verbascoside (the proposed procedure) and linaroside (the closest solution) on the intensity of photosynthesis processes, accumulation of chlorophyll pigments and carotenoids, as well as on the growth of annual shoots during the estimation period was determined. The results obtained are presented in the table.

Table

Estimation date, variant Some physiological indices evaluated during vegetation Photosynthesis, µmol/dm-2/sec-1 Chlorophyll pigments, mg/ dm-2 Carotenoid pigment content, mg/ dm-2 Apical shoot growth, cm Annual shoot growth in relation to initial dimensions, % a b sum 14.05.2015 1. Control 2. Linaroside 0.01% 3.Verbascoside 0.01% - - - - - 8.0±1.7 14.0±4.3 7.0±2.7 0.00 0.00 0.00 04.06.2015 1. Control 2. Linaroside 0.01% 3.Verbascoside 0.01% 3.08±0.45 2.49± 0.45 2.32± 014 1.65±0.08 1.82±0.04 1.84±0.03 0.35±0.05 0.46 ±0.02 0.45 ±0.02 2.00±0.02 2.28±0.01 2.29±0.05 0.69±0.05 0.71±0.06 0.75±0.02 14.2±5.5 24.0±4.3 21.0±1.5 77.5±43.6 71.4±49.7 200.0±78.8 18.06.2015 1. Control 2. Linaroside 0.01% 3.Verbascoside 0.01% 1.85± 0.06 2.33 ±0.04 3.38± 0.35 2.21±0.05 2.47±0.06 2.61±0.09 0.41±0.02 0.57±0.03 0.60±0.03 2.64±0.07 3.04±0.04 3.21±0.11 0.92±0.03 1.00±0.04 1.03±0.04 14.5±6.7 26.0±4.8 23.1±1.9 81.3±51.0 85.7±46.6 230.0±97.7 02.07.2015 1. Control 2. Linaroside 0.01% 3.Verbascoside 0.01% 1.83± 0.60 1.10± 0.08 3.14± 0.08 2.25±0.01 2.40±0.08 2.72±0.05 0.54±0.06 0.55±0.01 0.75±0.03 2.79±0.01 2.95±0.03 3.47±0.00 0.88±0.07 0.80±0.03 1.09±0.04 14.5±9.4 33.8±9.9 23.3±0.6 81.3±70.6 141.4±10.5 233.0±81.1 17.07.2015 1. Control 2. Linaroside 0.01% 3.Verbascoside 0.01% 1.55 ±0.19 2.57±0.16 2.94±0.15 2.37±0.02 2.32±0.04 2.85±0.08 0.64±0.08 0.55±0.01 0.75±0.04 3.01±0.07 2.87±0.06 3.06±0.14 1.18±0.03 1.01±0.02 1.17±0.04 14.5 ±9.4 33.8±9.9 23.3 ±0.6 81.3±70.6 141.4±10.5 233.0±81.1

From the data presented in the table it results that the use of glycosides obtained from Verbascum phlomoides in the treatment of mullein trees of the Noiabriskaia variety contributed significantly to the intensity of photosynthesis processes, accumulation of chlorophyll and carotenoid pigments, as well as to the growth of apical shoots during the vegetation period. Therefore, the intensity of photosynthesis in the variant using the proposed process (invention) was the most increased, making up 0.37…1.05 µmol/dm-2/sec-1 compared to the closest solution and by 0.39…1.4 µmol/dm-2/sec-1 compared to the control. Similar results were obtained when determining the content of carotenoid pigments, which was higher compared to the closest solution by 0.04…0.029 mg/dm2, and compared to the control variant by 0.06…0.21 mg/dm2. The use of the proposed growth regulator (invention) also contributed to the intensification of the vegetative growth of the apical shoots during the estimation period, which was increased compared to the closest solution by 92.6% and compared to the control by 151.7%.

Therefore, treating fruit trees with an aqueous solution of 0.01% verbascosides contributes to the intensification of the photosynthesis processes of hair trees, the synthesis of chlorophyll pigments and their sum, carotenoid pigments, as well as the intensive vegetative growth of annual shoots, which can greatly contribute to increasing the productivity of hair trees and the quality of the fruit harvest.

1. Русу М.М., Балмуш Г.Т., Машченко Н.Е. The effect of Linarozid preparation on the pigment complex of apple leaves. Сборник Растения в условияных гобальных и логаных придоро-климатических и anthropogennyh vozdeystvii, Petrozavodsk, 2015, p. 459

Claims (1)

Process for treating young mullein trees, which includes extra-radicular treatment of the trees with an aqueous solution of 0.01% glycosides obtained from Verbascum phlomoides L. by boiling extraction with 80% hydromethanolic solution, extraction with ethyl acetate, precipitation with chloroform and chromatographic separation of the fraction with Rf 0.64…0.5, at the same time the treatment is carried out 2…3 weeks after flowering with a total consumption of 800…1000 L/ha.