Productivity of apple variety Majesti in the foothill zone of Dagestan

The article presents the results of studying the productivity of the parameters of the introduced apple variety Majesti on the clonal rootstock M9 in the agro-ecological conditions of the southeastern foothill sub-province of Dagestan. The purpose of the research is to identify the biological potential of the variety, the adaptive potential for the construction of intensive-type orchards in the industrial horticulture zone. It is especially important to choose the optimal variety-rootstock combinations of apple trees, which should be distinguished by early maturity, annual productivity, high commercial quality of fruits and environmental sustainability. The southeastern foothill sub-province has great prospects for the development of industrial horticulture. Of the unfavorable environmental factors that negatively affect the vital activity of fruit crops, the most often noted are return colds in spring and early frosts in autumn, when fruit plants are still growing. In accordance with the research program of the Federal Agrarian Scientific Center of the Republic of Dagestan, it is envisaged to study the influence of different rootstocks (M9, SK-2, SK-7, MM106) on the productivity of the Majesti variety. Based on the research results, biometric indicators of the growth and productivity of trees in a young garden were determined, depending on the type of planting design. It was noted that at the age of three, the condition of trees on a 5-point scale is good. The height of the trees, depending on the rootstock, reached an average of 2.3 to 2.9 m. On dwarf rootstocks M9, the stem diameter of the Majesti variety was 4.2 cm, of the control variety Renet Simirenko — 3.5. The growth of annual shoots clearly reflects the growth activity of trees with different varieties of rootstock combinations. It has been established that the growth of dwarf rootstocks provides a weakening effect and allows growing lowgrowing trees with a compact crown, a strong stem, that are convenient for earning and harvesting. The largest number of fruit formations was noted in the introduced cultivar Majesti with a 3.0x1.5 planting pattern on a dwarf stock M9 (67 pieces) then in comparison on the control variety Renet Simirenko it was46 pieces. Productivity per tree was 7.1 kg, in the control variety Renet Simirenko — 5.3 kg. Calculated per hectare, productivity of the Majesti variety is 15.7 tons, Renet Simirenko — 11.7 tons.

Productive and adaptive potentials of Renet Simirenko variety on rootstocks with different growth rates in arid conditions

This article presents the results of the economic and biological assessment of the Renet Simirenko variety grown on rootstocks of different growth rates under conditions of insufficient moisture and high thermal stress in the arid zone of the Northern Caspian region. The purpose of the research is to study and identify scion-rootstock combinations of the Renet Simirenko variety, which most fully realize the potential of productivity, early maturity, and resistance to unfavorable environmental factors. Studied variety grew more intensively on dwarf rootstocks (SK4, SK7), semi-dwarf (SK2, SK5), and average height 54-118, restrained growth of tree-holes was provided by dwarf rootstocks SK3, P16, P59, P60. In most combinations of dwarf and semi-dwarf rootstocks, flowering began in the year of planting, fruiting - in the second year of garden growth, which indicates the potential of early maturity. Rootstocks SK3, SK4, SK2, and 54-118 provided the maximum average and total yield of marketable fruiting in comparison with the control for 7 years. In the Astrakhan region, it is advisable to grow the Renet Simirenko variety on low-growing rootstocks SK3, SK4, SK2, and average growth 54-118, the most resistant to the destabilizing factors of the climate of the arid zone and providing high regularity.

Biological potential of the Carmen apple variety in the South of Dagestan

The article provides a pomological estimation of the Carmen apple variety cultivated in the southeastern foothill sub-province of Dagestan. The purpose of the research is to study the biological potential of the variety and to reveal the best in productivity apple scion/stock combinations that combine high adaptive capabilities for constructing intensive-type orchards in the commercial horticultural zone. The establishment of such orchards is associated with high material costs; therefore, improving the technology plays a crucial role. Especially important is the selection of scion/stock combinations in the production of apple planting material, which in the intensive horticulture should be characterized by precocity, stable productivity, high fruit quality and environmental sustainability. In Dagestan, fruit zones are sharply heterogeneous in terms of soil and climate conditions, which prevents the unification of the technology of intensive apple plantations. The most promising for the development of commercial horticulture is the South-Eastern foothill sub-province. Among the unfavorable environmental factors that negatively affect the vital activity of fruit crops in Dagestan, the first place is occupied by recurrent cold in spring and early frosts in autumn. In accordance with the Program of scientific research of the Federal Agrarian Scientific Center of the Republic of Dagestan, it is planned to study the influence of different stocks – dwarf M9, SK7 and medium-tall SK2, MM106 on the productivity of the Carmen variety. Based on the research results, biometric parameters of tree growth in a young orchard were studied depending on the design of the plantings. It is noted that at the three-year-old, the condition of the trees estimated on a 5-point scale is good. The height of the trees, depending on the stock, reached an average of 1.9 to 2.6 m. On dwarf rootstocks M9 and SK7, the diameter of the tree stem in the Carmen variety was 3.0-3.3 cm; on stocks SK2 and MM106, respectively 3.6-4.0 cm. The most prominent growth activity of trees of various scion/stock combinations reflects the total length of shoots. The smallest shoot length was observed in stands with dwarf rootstocks M-9 and SK-7, the largest – on medium-sized rootstocks MM-106. The largest number of fruit formations was on the dwarf rootstock SK7 (24.7 PCs.), with a planting scheme of 3.0×1.5 m; per square meter of food area, the number of fruit formations was 4.3-5.4 PCs./m2, and on stocks SK-2 and MM-106 with a planting scheme of 5.0×2.0 m their number was 2.1-2.2 PCs./m2.

Intensive Fruit Cultivation Technology of Citrus Fruits: High Density Planting: A Brief Review

Sweat orange, grape fruit, lime, lemon and mandarin are the major citrus fruit cultivated in most of the countries. Less land and traditional citrus cultivation practice result low production as well as productivity especially in developing countries. This paper is reviewed with the aim of calling attentions of the concerned sectors by explaining benefits of high density planting technology over traditional system of planting in citrus fruit. More than forty research technical papers were critically reviewed focus on pruning practices, planting distance, dwarf rootstocks of citrus spp. and possible uses of plant growth regulators (retardants) used in citrus fruit. Annual pruning in recommend technique, use of dwarf rootstocks viz. trifoliate, troyer citrange, assam lemon etc, appropriate planting distance, use of plant growth regulators (Paclobutrazol and GA3) and nutrient management are the basic components for successful high density planting(HDP). HDP technology is gaining popularity in citrus because of earlier production and net returns, increasing land values and higher taxes of land, efficient use of nutrient and water due to greater root densities, efficient pesticidal application and easier weed control.

Dwarfing-canopy and rootstock cultivars for fruit trees

As fruit trees generally have a large size, the production of small or even dwarf trees is of great interest for most of fruit crops. In this review, some of the main tropical, subtropical and temperate fruit trees that have small or even dwarfing cultivars are approached. The causes of dwarfism, although the use of dwarfing rootstocks, is the main theme of this review. The factors that affect the size of the fruit trees are also approached, as well the dwarf cultivars of banana, papaya and cashew, and the dwarf rootstocks for guava, mango, anonaceae, loquat, citrus, apple and peach trees.

The effect of rootstock on apple tree bearing stability in a cooler climate

The effect of rootstock on apple yield, productivity and alternate bearing was investigated at the Institute of Horticulture, Lithuanian Research Centre for Agriculture and Forestry during a six-year period in a full bearing orchard. Apple cultivars ‘Ligol’ and ‘Auksis’ grafted on M.26 semi-dwarf rootstock; M.9, B.396, P 66, P 67 and Pure 1 dwarf rootstocks; and P 59, P 22, P 61, P 62 and PB.4 super-dwarf rootstocks were tested. Rootstock had a significant effect on apple tree growth, average yield and cumulative yield efficiency. Alternate apple bearing did not depend on rootstock vigour. Constant correlations between bearing regularity, average yield and cumulative yield efficiency were not established and differed on a cultivar or rootstock level. On the average of both tested cultivars, a more regular apple yield was recorded on Pure 1, P 59 and B.396 rootstocks. A significantly higher alternate bearing index was established on P 67, P 62 and M.9 rootstocks.