Compound nutrient conditioner for roots of plants

A nutrient regulator and root technology, applied in the field of compound nutrient regulators, can solve the problems of unfavorable scientific fertilization, high-quality, high-yield, single ingredients, etc., and achieve the effects of scientific fertilization, promotion of metabolism, and regulation of life activities

Inactive Publication Date: 2016-12-07
江苏挚信花卉发展有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In addition to promoting the growth and development of some plants, some beneficial elements can replace part of the physiological functions of certain essential elements. However, the nutritional regulators in the prior art generally have a single component, which is not conducive to scientific fertilization and high-quality and high-yield.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0043] A compound nutrient regulator for plant roots, the preparation method of which is as follows:

[0044] (1) Heat 93 parts of water to 75°C in terms of parts by mass, add 8 parts of ferric chloride, 13 parts of calcium nitrate, and 4 parts of amino acid chelated magnesium in sequence and stir to dissolve respectively, at a stirring rate of 230r / min, to obtain A liquid;

[0045] (2) Heat 105 parts of water to 75°C in parts by mass, add 9 parts of boric acid, 11 parts of calcium nitrate, 4 parts of ferrous sulfate, and 3 parts of tripotassium phosphate in sequence, stir and dissolve respectively, and then add in order while stirring 6 parts of manganese sulfate, 7 parts of copper sulfate, 5 parts of zinc sulfate, 2 parts of ammonium dihydrogen phosphate, 4 parts of ammonium molybdate and 71 parts of water were stirred and dissolved at a stirring rate of 160r / min to prepare solution B;

[0046] (3) Heat 140 parts of water to 67°C in parts by mass, add 3 parts of gibberellin...

Embodiment 2

[0049] A compound nutrient regulator for plant roots, the preparation method of which is as follows:

[0050] (1) Heat 91 parts of water to 70°C in terms of parts by mass, add 6 parts of ferric chloride, 14 parts of calcium nitrate, and 3 parts of amino acid chelated magnesium in turn and stir and dissolve them respectively at a stirring rate of 220r / min to obtain A liquid;

[0051] (2) Heat 101 parts of water to 79°C in parts by mass, add 8 parts of boric acid, 13 parts of calcium nitrate, 4 parts of ferrous sulfate, and 3 parts of tripotassium phosphate in sequence, stir and dissolve respectively, and then add in order while stirring 4 parts of manganese sulfate, 8 parts of copper sulfate, 6 parts of zinc sulfate, 1 part of ammonium dihydrogen phosphate, 4 parts of ammonium molybdate and 75 parts of water were stirred and dissolved at a stirring rate of 170 r / min to prepare solution B;

[0052] (3) Heat 135 parts of water to 70°C in parts by mass, add 5 parts of gibberellin...

Embodiment 3

[0055] A compound nutrient regulator for plant roots, the preparation method of which is as follows:

[0056] (1) Heat 84 parts of water to 70°C in terms of parts by mass, add 7 parts of ferric chloride, 13 parts of calcium nitrate, and 4 parts of amino acid chelated magnesium in turn and stir and dissolve them respectively at a stirring rate of 250r / min to obtain A liquid;

[0057](2) Heat 109 parts of water to 75°C in parts by mass, add 7 parts of boric acid, 13 parts of calcium nitrate, 2 parts of ferrous sulfate, and 3 parts of tripotassium phosphate in sequence, stir and dissolve respectively, and then add in order while stirring 7 parts of manganese sulfate, 8 parts of copper sulfate, 6 parts of zinc sulfate, 2 parts of ammonium dihydrogen phosphate, 5 parts of ammonium molybdate and 72 parts of water were stirred and dissolved at a stirring rate of 160r / min to prepare solution B;

[0058] (3) Heat 135 parts of water to 65°C in parts by mass, add 5 parts of gibberellin,...

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PUM

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Abstract

The invention relates to a compound nutrient conditioner for roots of plants, which includes a liquid A, a liquid B, a liquid C and water according to the mass ratio of 23:18:7:130, wherein the liquid A includes calcium nitrate, ferric chloride, amino acid chelated magnesium and water; the liquid B includes boric acid, ferrous sulfate, tripotassium phosphate, manganese sulfate, copper sulfate, zinc sulfate, ammonium dihydrogen phosphate, ammonium molybdate and water; the liquid C includes gibberellins, 6-furfurylaminopurine, [alpha]-naphthylacetic acid and water. The compound nutrient conditioner contains abundant nutrients, various microelement and growth hormones, is beneficial to scientific fertilization and achieves high quality and high yield.

Description

technical field [0001] The invention relates to a compound nutrition regulator for plant roots, belonging to the technical field of plant cultivation. Background technique [0002] There are trace amounts of natural plant hormones in plants, such as ethylene, 3-indoleacetic acid and gibberellin, etc., which have the effect of controlling growth and development. With the development and progress of science and technology, artificially synthesized analogues are used as regulators for plant cultivation. More and more, 2,4-D, diethyl hexanoate (DA-6), forchlorfenuron, sodium nitrophenolate, α-naphthalene acetic acid, Yiyadan, etc. have been developed successively, and are gradually popularized and used. [0003] Nutrient elements required for normal growth and development of plants can be divided into essential elements and beneficial elements. Although plants have different requirements for various nutrient elements, various nutrient elements have different physiological functi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C05G3/00
CPCC05B7/00C05G3/00C05C3/00C05C5/04C05D5/00C05D9/00C05D9/02
Inventor 崔亮
Owner 江苏挚信花卉发展有限公司
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