MD1076Z - Process for cultivation of walnut trees - Google Patents

Abstract

The invention relates to fruit growing, namely to a process for cultivation of walnut trees.The process, according to the invention, involves the planting of trees in the form of a rectangle formed of two right-angled triangles, each with an angle of 30° adjacent to the side which is the distance between the rows, the opposite side is the distance between the trees, at the same time the distance between the rows (L) is calculated using the formula L=Htgφ, where H is the predetermined height of the tree crown, and φ - the geographic latitude of the area; afterwards at the age of 15…20 years is carried out thinning of trees to produce a planting scheme in the form of an equilateral triangle with the side equal to the diagonal of the initial rectangle at planting.

Description

The invention relates to fruit growing, namely to a process for cultivating walnut trees.

Walnut plantations require large capital investments with a long payback period, therefore an error in tree placement is a long-term and, practically, irreparable problem.

When growing walnut trees, to determine the planting distance, it is necessary to determine the crown diameter during the tree production period and the distance between the crowns of 1.5...3 m, and based on the obtained values, the distance between rows and between trees in a row is calculated [1,2]. In the Republic of Moldova, to obtain high yields during the young period, it is rational to plant trees at distances of 8x8 m or 10x10 m, followed by the first thinning at the age of 15...20 years, ensuring the nutrition space of the remaining trees of 16x8 m, and later the second thinning, increasing the planting distances up to 16x16 m [3,4].

The disadvantages of placing trees in a square, during the young period of the trees, consist in the relatively rare placement of trees with significant intervals between rows and between trees in the row, accompanied by insufficient use of nutritional space and respectively of ecological, biological, technological resources to obtain possible fruit harvests on each orchard sector.

Suppression of trees over one row leads to irrational use of ecological factors in tree ontogenesis, because in specific environmental conditions there is only one planting area, which ensures the highest agro-productive potential of ecological resources. At the plant level, the production potential is more fully manifested in the case when the planting area has the shape of a square and a circle. However, fruit plants, in their youth, are able to effectively use the planting area in the shape of a rectangle, which allows for the thickening of trees in a row, increasing the level of production and mechanization of various works.

There is also a known method of establishing the distance between tree rows by measuring the crown height (H), the width at the bottom of the crown (B), the angle of inclination of the lateral surface of the crown (α) to the vertical and the geographical latitude of the locality (φ) and according to the values obtained, the distance between the rows (L) is calculated using the formula

L = H tanφ - H tanα + B

The angle of incidence, at which the sun's rays fall on the crown, changes depending on latitude and determines the distance between rows of trees [5]. The method in question does not allow for determining the distance between trees in a row.

There is also a known method of walnut cultivation, in which the method of establishing the planting distance between rows ensures easy movement of tractors and equipment. The maximum width between rows will be equal to the sum of the planting distance between trees in a row plus 2 m necessary for the movement of tractors [6]. However, this method does not ensure optimal interception of sunlight, which will depend not only on the distance between trees in a row, but also on the height of the crown and the geographical latitude of the locality.

The problem solved by the proposed invention consists in developing a walnut tree cultivation process with the establishment of planting distance when designing and restructuring plantations, which would ensure a higher yield in the ontogenesis of the trees.

The invention solves the problem by proposing a method for cultivating walnut trees, which includes planting trees in the shape of a rectangle formed by two right-angled triangles, each with an angle of 30° next to the leg representing the distance between the rows, the opposite leg representing the distance between the trees, at the same time the distance between the rows (L) is calculated using the formula L= Htgφ, where H is the preset height of the tree crown in full production, and φ - the geographical latitude of the locality; after which, at the age of 15...20 years, the trees are thinned, over a rectangle, of two trees placed in rectangles on parallel diagonals, obtaining the planting scheme in the shape of an equilateral triangle with the side equal to the diagonal of the initial rectangle at planting, the triangles being placed alternately with the base on two adjacent rows.

The result of the invention allows for the thickening of trees in rows during planting, the effective use of the nutrition surface and the increase in the level of production both in the period of youth and in the period of maturity of the trees per hectare. The height of the trees, the width of the crown, the free area between the crowns and the geographical latitude of the locality are mutually related and serve to establish the distance of planting trees in the orchard, in ontogenesis.

Example of embodiment of the invention

The walnut varieties Cazacu, Kogălniceanu and Pescianski are used as planting material, grafted onto seedlings of the Juglans regia species. When establishing the planting distances for trees, the latitude and the parameters of the trees in full production are taken into account. The walnuts are planted in the shape of a rectangle formed by two right-angled triangles, each with an angle of 30° next to the leg representing the distance between the rows, the opposite leg representing the distance between the trees, at the same time the distance between the rows (L) is calculated using the formula L= Htgφ, where H is the predetermined height of the tree crown in full production, and φ - the geographical latitude of the locality.

The coordinates of the Republic of Moldova, parallel 45° (Vulcăneşti) and 49° (Lipcani) northern latitude were taken into account. From the analysis of the values (see table) it results that the distance between the rows of trees, with the same crown parameters, in the north of the republic will be greater by 1 m, and the distance between the trees in the row by 0.5…0.6 m greater than in the south.

At the appropriate time, 15...20 years after planting, when the crowns have reached their optimal individual density per row, but do not intertwine, the trees are suppressed over a rectangle, two trees placed in rectangles on parallel diagonals, obtaining the planting scheme in the shape of an equilateral triangle with the side equal to the diagonal of the initial rectangle at planting, the triangles being placed alternately with the base on two adjacent rows.

Thus, the trees are distributed evenly over the land, ensuring the highest agro-productive potential of ecological resources.

Table

The system for placing trees in the orchard depending on their height and latitude

Height of trees in full production, m Distance Number of trees per hectare After restructuring the planting scheme is Number of trees per hectare between rows, m between trees per row, m rhombus with angles of 120° and 60° with side, m equilateral triangle with side, m Geographical latitude, 45° 8 8 4.6 272 9.2 9.2 136 9 9 5.2 214 10.4 10.4 107 10 10 5.8 172 11.6 11.6 86 11 11 6.4 142 12.8 12.8 71 12 12 6.9 121 13.8 13.8 60 Geographical latitude, 49° 8 9 5.2 214 10.4 10.4 107 9 10 5.8 172 11.6 11.6 86 10 11 6.4 142 12.8 12.8 71 11 12 6.9 121 13.8 13.8 60 12 13 7.5 103 15.0 15.0 51

1. Ţurcanu I., Comanici I. Nucul. Chisinau, Central Printing House, 2004, p. 160-164

2. Цуркан I. Walnut. Chisinau, Central Printing House, 2004, p. 117-118

3. Ţurcan I. Creating the assortment and production technology of walnut based on variety in the Republic of Moldova. Doctor of Agricultural Sciences Thesis. 1994, p. 44-45

4. Цуркан I. Walnut. Chisinau, Central Printing House, 2004, p. 128-131

5. Balan V. Planting distances for apple trees. Bulletin of the Romanian Academy of Agricultural Sciences. 2004, no. (2)293, p. 122-126

6. MD 361 F1 1996.01.31

Claims (1)

Walnut tree cultivation process, which includes planting trees in the shape of a rectangle formed by two right-angled triangles, each with an angle of 30° next to the leg representing the distance between rows, the opposite leg representing the distance between trees, at the same time the distance between rows (L) is calculated using the formula L= Htgφ, where H is the preset height of the tree crown in full production, and φ - the geographical latitude of the locality; after which, at the age of 15…20 years, the trees are thinned, over a rectangle, of two trees placed in rectangles on parallel diagonals, obtaining the planting scheme in the shape of an equilateral triangle with the side equal to the diagonal of the initial rectangle at planting, the triangles being placed alternately with the base on two adjacent rows.