A planting method for reducing fluorine content in tea tree leaves

A planting method and technology of fluorine content, applied in fertilization method, application, potash fertilizer, etc., can solve the problems of tea fluorine content difference, secondary pollution, reduce tea fluorine content, etc., to achieve increased fluorine content, promote absorption, and increase osmosis Effect

Active Publication Date: 2020-09-25
ANHUI AGRICULTURAL UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are significant differences in the fluoride content of tea in different seasons, and it is difficult to achieve the goal of reducing the fluorine content of tea with a single defluoridation measure, and the use of these defluoridation agents has the problem of causing secondary pollution

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] The tea forests were divided into control group and experimental group, with three parallel samples in each group,

[0030] For the three parallel samples of the experimental group, before the end of December in the first winter, ditches were made on both sides of the tea tree, and the ditch was vertically down along the edge of the tree crown, with a depth of 15-20 cm and a width of about 10 cm. The root selenium fertilizer of bacteria and humic acid is evenly sprinkled into the ditch covering soil, and the fertilization rate is 150 kg / mu. After fertilization, the management of the tea garden is the same as that of the conventional tea garden.

[0031] The difference between the three parallel samples of the control group and the experimental group is that "the control group does not add root selenium fertilizer containing biochar, enzyme bacteria and humic acid".

[0032] In the spring of the second year (early April), three parallel samples of the experimental group ...

Embodiment 2

[0041] The tea forests were divided into control group and experimental group, with three parallel samples in each group,

[0042] The three parallel samples of the experimental group trimmed the tea tree at the beginning of June of the second year, and the trimming degree was about 10 cm away from the top of the new shoot. Before and after the sprouting of tea tree buds, foliar selenium fertilizer containing biosurfactant was evenly sprayed on the front and back sides of tea tree leaves according to 50L per mu, subject to no water drops, and the management of tea gardens after spraying was the same as that of conventional tea gardens.

[0043] The difference between the three parallel samples of the control group and the experimental group is that "the control group is sprayed with equal volumes of water".

[0044] The three parallel samples of the experimental group and the three parallel samples of the control group were picked when the new shoots of the tea trees grew to one...

Embodiment 3

[0051] The tea forests were divided into control group and experimental group, with three parallel samples in each group,

[0052] The three parallel samples of the experimental group pruned the tea tree at the end of August of the second year, and the pruning degree was about 10 cm away from the top of the new shoot. Before and after the sprouting of tea tree buds, foliar selenium fertilizer containing biosurfactant was evenly sprayed on the front and back of tea tree leaves according to 50L per mu, subject to no water drops, and the tea garden management after spraying was the same as the conventional tea garden management.

[0053] The difference between the three parallel samples of the control group and the experimental group is that "the control group is sprayed with equal volumes of water".

[0054] The three parallel samples of the experimental group and the three parallel samples of the control group were picked when the new shoots of the tea trees grew to one bud and...

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Abstract

The invention belongs to the tea tree planting field, and specifically relates to a planting method being able to reduce fluorine content in tea leaves. The planting method being able to reduce fluorine content in tea leaves is characterized by applying a root fertilization method to cultivation of low fluorine spring tea, before the end of December in winter in the first year, ditching with a depth of 15-20 cm and a width of 9-10 cm by using a water drip line of tea plant rows, and applying the root selenium fertilizer to the soil in the ditches; and applying a leaf surface spraying method tocultivation of low fluorine summer and autumn tea, before picking the summer and autumn tea in the second year, trimming the tea trees, and before and after germination of the tea trees, spraying theleaf surface selenium fertilizer to leaf surfaces of the tea trees uniformly. The planting method being able to reduce fluorine content in tea leaves has the advantages of changing the occurrence form of the fluorine in the soil through biochar and humic acid, reducing the absorption of fluoride ions by the roots of the tea trees, using the enzyme bacteria to jointly improve the acidic environment of the soil at the same time, and promoting selenite to exist in the state of anions so as to enable the roots of the tea trees to preferably absorb the selenite to achieve the aim of comprehensively controlling reduction of the fluorine content of the tea leaves.

Description

technical field [0001] The invention belongs to the field of tea tree planting, in particular to a planting method for reducing fluorine content in tea tree leaves. Background technique [0002] Tea tree is a fluorine-rich plant, the fluorine content of the leaves can account for 98.1% of the whole plant, and it is mainly accumulated in mature leaves. If you drink a lot of high-fluorine tea for a long time, the fluorine content in the human body will exceed the standard (>4mg / day), causing fluorosis. Therefore, solving the problem of tea-drinking fluorosis is directly related to the safety and health of consumers in drinking tea. [0003] At present, the main methods to reduce the fluorine content in the fresh leaves of tea trees are to add defluoridation agents to the soil, improve soil pH, and change soil fertilization techniques. Commonly used defluoridation agents mainly include dolomite powder, quicklime, peat and biochar, etc. By changing the form of fluorine in t...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A01G17/00A01C21/00C05G3/80C05G3/00
CPCA01C21/00A01G17/005C05C11/00C05D1/00C05G3/00C05G3/80C05G5/20C05D9/02C05F9/04C05F11/00C05F11/02C05F11/08Y02P60/21
Inventor 蔡荟梅宛晓春牛会亮彭传燚李叶云
Owner ANHUI AGRICULTURAL UNIVERSITY
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