MD566Z - Process for cultivation of apricot plants - Google Patents

Abstract

The invention relates to agriculture, particularly to fruit growing, namely to a process for cultivation of apricot plants.The process, according to the invention, comprises the above-ground treatment of apricot plants in the intensive vegetative growth period with 0.01% aqueous solution of 5, 4'-dimethylcampherol 3-O-β-D-(6´´-α-L-rhamnopyranosyl)-glucopyranoside, obtained from plantsof Linaria vulgaris Mill. by extraction with ethanol and butanol and chromatographic separation, at the same time the treatment is carried out with a total consumption of 0.15…0.20 L/plant.The result is to activate the metabolic and photosynthesis processes in the leaves.

Description

The invention relates to agriculture, in particular to fruit growing, namely to a process for cultivating apricot plants.

A process for cultivating fruit plants is known, which includes treating them during the period of intense vegetative growth with an aqueous solution of the steroid glycoside Moldstim [1].

The disadvantage of this process is its low efficiency.

The problem solved by the proposed invention consists in optimizing photosynthetic productivity, drought resistance and increasing the yield of apricot plants.

The apricot plant cultivation process includes extra-radicular treatment of apricot plants during the period of intensive vegetative growth with a 0.01% aqueous solution of 5, 4 ́-dimethylkaempferol 3-O-β-D-(6 ́ ́-α-L-rhamnopyranosyl)-glucopyranoside, obtained from Linaria vulgaris Mill. plants by extraction with ethanol and butanol and chromatographic separation, at the same time the treatment is carried out with a total consumption of 0.15…0.20 L/plant.

The glycoside is obtained from Linaria vulgaris Mill. and has the chemical structure determined by various spectroscopic methods: 5, 4 ́-dimethylkaempferol 3-O-β-D-(6 ́ ́-α-L-rhamnopyranosyl)-glucopyranoside, (GLYCOSIDES FROM LINARIA VULGARE MILL. Natalia Mashcenko, Pavel Kintia, Angela Gurev, Alexandra Marchenko, Carla Bassarello, Sonia Piacente, Cosimo Pizza//Chemistry J. of Moldova, 2008, t.3, № 2, p. 98-100), hereinafter referred to as Linaroside. Linaroside is of natural origin, cheap and accessible.

The result is the activation of metabolic and photosynthetic processes in the leaves.

The result is due to the fact that the growth and development processes of the leaf apparatus are stimulated, which contributes to the accumulation of organ biomass, the optimization of photosynthetic intensity and productivity, which ensures a considerable increase in the harvest.

Example of embodiment of the invention

The experiments were carried out in the lysimeters of the vegetable house complex of the Institute of Genetics and Physiology of Slopes of the Academy of Sciences under controlled conditions during the years 2010-2011 with apricot plants of the Kostiujenskii variety (apricot rootstock MVA), age 4 years. During the intensive growth phase in May-June, some of the plants were treated with 0.01% aqueous solution of 5, 4 ́-dimethylkaempferol 3-O-β-D-(6 ́ ́-α-L-rhamnopyranosyl)-glucopyranoside, (Linaroside). Solution preparation method: 10 mg Linaroside were dissolved in 100 ml of water. For comparison, at the same time, other plants were treated with 0.025% aqueous solution of Moldstim (the closest solution). Plants treated with water served as a control. The experiments were set up in 3 replicates, each including 7…10 plants.

After 10…15 days after treatment and during the vegetation of the plants, the following parameters were determined:

- the intensity of photosynthesis and respiration with the apparatus RTM - 48A (Balaur N.S., Vorontsov V.A., Kleiman E.I., Ton Yu.D. Физиология растений. Новая технология многокомпентного мониторинга CO2 -обмена у растений. 2009, т. 56, с. 466-470);

- qualitative and quantitative indices of the assimilatory pigments in the leaves by the spectrophotometric method (Shlyk A.A. Биохимические методы в физиолии растение. Одерение хлорофиллов и каротеноидов в экрастах зеленых листьев. Москва, Наука, 1977, с. 154-163);

- qualitative and quantitative indices of the harvest of the studied plants.

The results obtained were statistically interpreted using the Student criterion (t-test) and the authenticity of the differences was equal to or greater than 95%, P≥0.05.

The high sensitivity of apricot plants during the period of fruiting initiation to the action of Linaroside was highlighted. This was manifested by the activation of the intensity of photosynthesis, respiration and transpiration in the leaves of plants treated according to the invention in comparison with the control and the closest solution. The data obtained demonstrated (tab. l) that the treatment of apricot plants with an aqueous solution of 0.01% Linaroside greatly increased the intensity of photosynthesis and is: in the control - 2.30; in the variants with Moldstim (the closest solution) and Linaroside (invention) correspondingly 2.47 and 5.79 µmol CO2·m-2·s-1. Photosynthesis, respiration and transpiration in June concern all plants and equally and clearly reflect changes in temperature, light and relative humidity. At the end of June, in the driest period, the differences between the variants were more essential.

Table 1

Influence of the steroidal glycoside Linaroside on the intensity of photosynthesis of apricot plants s. Kostiujenskii (µmol CO2·m-2·s-1)

Indices/ Variant Control Moldstim Linaroside Photosynthesis intensity, µmol CO2·m-2·s-1 2.30 2.47 5.79 Photosynthesis: respiration ratio 1.32 2.04 2.45

Treatment of apricot plants with Linaroside increases the intensity ratio of photosynthesis and respiration in the dark (tab. l), which contributes to the accumulation of photosynthetic products in the leaves and ensures higher plant productivity. For example, the amount of carbohydrates in the leaves in the control is 1.47% in dry mass, in the variant with Moldstim and Linaroside - 1.94 and, correspondingly, 2.59%.

It is known that the state of the pigment fund is an important factor in the realization of the photosynthetic function in plants and serves as an indicator of the rapid reaction to the action of exogenous factors. The results of the analysis of the accumulation of assimilatory pigments confirm the stimulating action of the proposed treatment on the synthesis of chlorophyll and carotenoids, which contributes to the optimization of photosynthesis (tab. 2).

Table 2

Influence of the steroidal glycoside Linaroside on the pigment content in the leaves of apricot plants s. Kostiujenskii (mg·dm-2)

Variants/Indications Chlorophyll Carotenoids Ratio a b a + b a/b a+b car. June 9 Control 2.93 0.76 3.69 1.15 3.85 3.26 Moldstim 2.94 0.75 3.69 1.21 3.92 3.05 Linaroside 3.18 0.87 4.05 1.26 3.65 3.21 July 1 Control 3.38 0.90 4.28 1.45 3.75 2.58 Moldstim 3.37 0.87 4.24 1.35 3.87 3.14 Linaroside 4.04 1.10 5.14 1.52 3.67 3.38 July 19 Control 2.98 0.78 3.76 1.23 3.82 3.05 Moldstim 3.35 0.88 4.23 1.40 3.81 3.02 Linaroside 3.63 1.00 4.63 1.42 3.63 3.17

The presented data show the stimulating effect of Linaroside on the accumulation of green and yellow pigments in the leaves of apricot plants. Within 10 days after spraying (June 9), the amount of pigments increased by 9…10% compared to the control. Determinations in July, during the period of active growth and fruit ripening, demonstrated a more pronounced influence.

The yield of plants is largely determined by the assimilation fund. It was found that treating the foliar apparatus with the preparation Moldstim, used in the closest solution, and especially with Linaroside increases the mass of fruits and the total production of a plant by 7% and, respectively, 29%. So the Linaroside solution was 20% more effective than the Moldstim one (tab. 3).

Table 3

Influence of the steroidal glycoside Linaroside on fruit mass and yield in apricot plants in Kostiujenskii village

Variant Control Moldstim Linaroside Weight of one fruit, g 48.4 51.6 62.3 Yield per plant, % to control 100 107 129

As a result of the research conducted, we can conclude that treating plants according to the proposed procedure activates photosynthetic and metabolic processes, which contributes to a fuller realization of the photosynthetic potential of plants and, respectively, to increasing the harvest. Based on the results obtained, the proposed procedure can be recommended as an effective procedure for increasing the photosynthetic activity and productivity of apricot plants.

1. Shishkanu G., Titova N., Pyntya M. Effect of mold growth and photosynthesis of apricot plants. Research in fruit growing, Institute of fruit growing, Chisinau 2007, p. 222-225

Claims (1)

Process for cultivating apricot plants, which includes extra-radicular treatment of apricot plants during the period of intensive vegetative growth with an aqueous solution of 0.01% of 5,4 ́-dimethylkaempferol 3-O-β-D-(6 ́ ́-α-L-rhamnopyranosyl)-glucopyranoside, obtained from plants of Linaria vulgaris Mill. by extraction with ethanol and butanol and chromatographic separation, at the same time the treatment is carried out with a total consumption of 0.15…0.20 L/plant.