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Method for increasing transplanting survival rate of bare root seedling of Canarium pimela Koening

A technique for transplanting survival rate and bare root seedlings is applied in the field of plant cultivation, which can solve the problems of high survival rate and difficulty in transplanting black olive seedlings, and achieves the effects of high transplantation survival rate, improved overall economic benefit and accelerated cell division.

Inactive Publication Date: 2013-12-25
SOUTH ASIAN TROPICAL AGRI SCI RES INST OF GUANGXI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There is no need to bring mud balls when transplanting, and the survival rate is high. The method is simple and easy to operate, and is not limited by season transplanting, which solves the long-standing problem of difficult transplanting of black olive seedlings

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] The method for improving the transplanting survival rate of black olive bare-root seedlings of the present invention comprises the following steps:

[0027] (1) Branch treatment. Trim the branches, leaves, and roots of the black olive plant. Choose one of the strongest trunks, cut off other branches, and cut off the immature part of the trunk, remove all the leaves from the base of the petiole, and cut back the overlong main root. In this way, the water evaporation of the tree body can be reduced, and it is convenient for sealing film processing. The whole plant was then immersed in an aqueous solution of thiophanate-methyl for 30 seconds.

[0028] The aqueous solution of thiophanate-methyl is prepared by diluting 70% thiophanate-methyl wettable powder 1000 times with water.

[0029] (2) Sealing film treatment. After the water on the surface of the plant is dried, the biofilm is used to spirally wrap upwards from the root neck until the entire trunk is completely se...

Embodiment 2

[0037] The method for improving the transplanting survival rate of black olive bare-root seedlings of the present invention comprises the following steps:

[0038] (1) Branch treatment. Trim the branches, leaves, and roots of the black olive plant. Keep one main trunk, cut off other branches, reduce the evaporation of water in the tree body, and facilitate the sealing film treatment, and then immerse the whole plant in the thiophanate-methyl aqueous solution for 20 seconds.

[0039] The aqueous solution of thiophanate-methyl is prepared by diluting 70% thiophanate-methyl wettable powder 800 times with water.

[0040] (2) Sealing film treatment. After the water on the surface of the plant is dried, the biofilm is used to spirally wrap upwards from the root neck until the entire trunk is completely sealed to reduce the evaporation of water from the tree.

[0041] (3) Root treatment. The roots of the plants are treated with pulp, and 8 plants are bundled, and the plants with ...

Embodiment 3

[0048]The method for improving the transplanting survival rate of black olive bare-root seedlings of the present invention comprises the following steps:

[0049] (1) Branch treatment. Trim the branches, leaves, and roots of the black olive plant. Keep one main trunk, cut off other branches, reduce the evaporation of water in the tree body, and facilitate the sealing film treatment, and then immerse the whole plant in the thiophanate-methyl aqueous solution for 25 seconds.

[0050] The aqueous solution of thiophanate-methyl is prepared by diluting 70% thiophanate-methyl wettable powder 900 times with water.

[0051] (2) Sealing film treatment. After the water on the surface of the plant is dried, the biofilm is used to spirally wrap upwards from the root neck until the entire trunk is completely sealed to reduce the evaporation of water from the tree.

[0052] (3) Root treatment. Carry out pulp root treatment to plant root, take 9 plants as a bundle, cover the plant that h...

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Abstract

The invention provides a method for increasing the transplanting survival rate of a bare root seedling of Canarium pimela Koening. The method comprises the following steps: (1) trimming; (2) carrying out membrane sealing treatment; (3) carrying out root treatment; (4) carrying out transportation pretreatment; (5) carrying out pharmaceutical liquid composition treatment; (6) carrying out fix planting. By adopting the method provided by the invention, transplanting can be carried out without carrying a mud pie, the method is simple and easy in operation and is not limited by season transplanting, and the survival rate is high, so that the problem that the Canarium pimela Koening seedling is difficult to transplant for a long time is solved. The method has the advantages that the transplanting survival rate of bare root seedlings of Canarium pimela Koening can reach up to over 90% and is much higher than the bare-root seedling transplanting survival rate 10% and bagged seedling transplanting survival rate 80% of traditional methods.

Description

technical field [0001] The invention relates to the technical field of plant cultivation, in particular to a method for transplanting and surviving black olives. Background technique [0002] Olive ( Canarium pimela K oen ), also known as Muweizi and Black Olive, is a subtropical evergreen fruit tree belonging to the olive family Olive. Born in low-altitude mountain forests, it is native to southern China and is most cultivated in Guangdong, Guangxi and Fujian. Black olive is an edible, medicinal and forest tree. The fruit is more and more popular with consumers due to its rich nutrition and unique flavor. It is an excellent tree species with broad market prospects and great development potential. [0003] The black olive tree has many stomata, and the water evaporation of the tree body is large, so it is difficult to transplant and survive. General transplanting adopts the transplanting method with soil, and the survival rate is about 80%. But there are following def...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01G1/00A01G23/04
Inventor 覃振师王文林罗莲凤邱文武郑树芳覃杰凤谭德锦黄锡云唐君海蓝庆江韦持章赵大宣何铣扬莫庆道冯兰
Owner SOUTH ASIAN TROPICAL AGRI SCI RES INST OF GUANGXI
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