CN103396185A - Hydroponic anthurium nutrient solution and preparation method thereof - Google Patents

Abstract

The invention belongs to the technical field of soilless culture and provides a hydroponic anthurium nutrient solution applicable to growth of anthurium and a preparation method thereof for overcoming the defects in the prior art. The hydroponic anthurium nutrient solution comprises a solution A and a solution B, wherein the solution A comprises the following raw materials in parts by weight: 50 parts of calcium nitrate, 3.75 parts of chelated iron and 1000 parts of hot water; the solution B comprises the following raw materials in parts by weight: 25 parts of potassium nitrate, 15 parts of monopotassium phosphate, 25 parts of magnesium sulfate, 5 parts of potassium sulfate, 0.034 part of manganese sulfate, 0.15 part of boric acid, 0.115 part of zinc sulfate, 0.024 part of copper sulfate, 0.024 part of sodium molybdate and 1000 parts of hot water. The preparation method of the hydroponic anthurium nutrient solution comprises the following steps of: mixing the solution A with the solution B in weight ratio of 1:1 and diluting with water, thus obtaining the nutrient solution. The hydroponic anthurium nutrient solution can be widely applied to the field of hydroponic anthurium.

Description

Water is planted red palm nutritive medium and compound method thereof

Technical field

Water of the present invention is planted red palm nutritive medium and compound method thereof, belongs to the cultivation technique without soil field.

Background technology

The red palm is important tropical indoor potted flower, warm, the moist and half cloudy environment of very large, the plump tool wax of its Buddhist flame shape petal, lovely luster, Peculiar Forms, property happiness, and happiness sunlight and avoid direct sunlight, cold-resistant.Optimum growth temperature is 20 ℃～30 ℃, and top temperature should not surpass 35 ℃, lower than 10 ℃ of possibilities that freeze injury is arranged at any time.The red palm is tropical plateau plant, can grow a large amount of aerial roots under wet environment.

The cultivation matrix of the red palm must have that the preserve moisture and fertility ability is strong, permeability good, not ponding, do not contain toxic substance and the fixing performance such as plant.Before plantation, matrix also must, through disinfecting thoroughly,, to kill disease and pest, could keep its normal growth.So the cultivation to the red palm requires very high.

Utilize now the red palm can grow the characteristic of a large amount of aerial roots under wet environment, find after deliberation red palm energy normal growth under aquatic conditions, add nutritive medium to cultivate and can make leaf keep life, promote to bloom continuously, therefore how to allow to make the nutritive medium that is fit to red palm growth be the problem of needing at present solution badly.

Summary of the invention

The present invention has overcome the deficiency that prior art exists, and provides a kind of water that is fit to red palm growth to plant red palm nutritive medium and compound method thereof.

In order to solve the problems of the technologies described above, the technical solution used in the present invention is: water is planted red palm nutritive medium, comprises A liquid and B liquid;

Wherein, A liquid comprises the raw material of following weight part:

50 parts, nitrocalcite

3.75 parts of chelated irons

1000 parts, water;

B liquid comprises the raw material of following weight part:

25 parts, saltpetre

15 parts of potassium primary phosphates

25 parts, sal epsom

5 parts of vitriolate of tartar

0.034 part of manganous sulfate

0.15 part of boric acid

0.115 part, zinc sulfate

0.024 part, copper sulfate

0.024 part of Sodium orthomolybdate

1000 parts, water;

Described A liquid and B liquid are pressed umber, arranged in order, and thin up obtains respectively A tank liquid and B tank liquid, and is placed in respectively A tank and B tank.

Described A liquid, B liquid are 1:1:100 with the weight part proportioning of water in use.

The present invention prepares described water and plants the method for red palm nutritive medium, carries out in the steps below:

The first step: preparation A liquid;

I. take respectively by weight 1000 parts, 50 parts, nitrocalcite, 3.75 parts of chelated irons and water, in described 1000 parts of water, 300 parts is hot water, and 700 parts are normal-temperature water, standby;

II. 700 parts of normal-temperature water that at first will weigh up are placed in the A tank;

III. the chelated iron that weighs up in I is put into the container of getting ready, stir slow heat injection waterside, limit,, until chelated iron dissolves fully, obtains chelated iron solution, and chelated iron solution is poured in the A tank, and the limit bevelling stirs;

IV. the nitrocalcite that weighs up in I is put in container, and stir slow heat injection waterside, limit, until hot water is finished nitrocalcite, dissolves fully, obtains ca nitrate soln, and ca nitrate soln is poured in the A tank, and the limit bevelling stirs;

Above EP (end of program), obtain A liquid.

Second step: preparation B liquid;

I. take respectively by weight 1000 parts, 25 parts, saltpetre, 15 parts of potassium primary phosphates, 25 parts, sal epsom, 5 parts of vitriolate of tartar, 0.034 part of manganous sulfate, 0.15 part of boric acid, 0.115 part, zinc sulfate, 0.024 part, copper sulfate, 0.024 part of Sodium orthomolybdate and water, in described 1000 parts of water, 50 parts is hot water, 950 parts are normal-temperature water, standby;

II. the sal epsom that weighs up in I is put into the container of getting ready, the stirring of normal temperature waterside is slowly injected on limit,, until sal epsom dissolves fully, obtains Adlerika, and Adlerika is poured in the B tank, and the limit bevelling stirs;

III. the potassium primary phosphate that weighs up in I is poured in container, and the stirring of normal temperature waterside is slowly injected on limit,, until potassium primary phosphate dissolves fully, obtains potassium dihydrogen phosphate, and potassium dihydrogen phosphate is poured in the B tank, and the limit bevelling stirs;

IV. the saltpetre that weighs up in I is poured in container, and the stirring of normal temperature waterside is slowly injected on limit,, until saltpetre dissolves fully, obtains potassium nitrate solution, and potassium nitrate solution is poured in the B tank, and the limit bevelling stirs;

V. the boric acid that weighs up in I is poured in container, and 50 parts of hot water limits stirrings are slowly injected on limit,, until boric acid dissolves fully, obtain boric acid solution, and boric acid solution is poured in the B tank, and the limit bevelling stirs;

VI. the vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and the Sodium orthomolybdate that weigh up in I are poured into respectively in separately container, limit is slowly injected the normal temperature waterside and is stirred, until vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and Sodium orthomolybdate dissolve fully, obtain vitriolate of tartar, manganous sulfate, copper sulfate, zinc sulfate and sodium molybdate solution, and consoluet vitriolate of tartar, manganous sulfate, sulfate sulfatase copper and sodium molybdate solution are poured in the B tank, the limit bevelling stirs;

VII. will remain normal-temperature water and all pour the B tank into, the limit bevelling stirs;

Above EP (end of program), obtain B liquid.

The 3rd step: after 1:100 mixes by weight with the A liquid in the described the first step and water, obtain diluent, then get by weight B liquid in 1 part of described second step and join in described diluent, obtain nutritive medium.

The temperature of described hot water is 50 ℃～80 ℃.

Described vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and sodium molybdate solution when pouring the B tank in no particular order.

Described A liquid, B liquid and water are pressed the EC value by the Controlling System automatic liquid matching, and described EC value is 1.2～1.5, and pH value is 7.

The present invention compared with prior art beneficial effect of tool is: the present invention throw out occurs in use in order to prevent nutritive medium, fertilizer preparation is become A liquid and B liquid in process for preparation, use gets final product thin up on request, solved red palm nutritive medium and sedimentary problem easily occurred in use, so the nutritive medium of the present invention's preparation is fit to the growth requirement of the red palm very much.

Embodiment

Water of the present invention is planted red palm nutritive medium, comprises A liquid and B liquid;

Wherein, A liquid comprises the raw material of following weight part:

50 parts, nitrocalcite

3.75 parts of chelated irons

1000 parts, water;

B liquid comprises the raw material of following weight part:

25 parts, saltpetre

15 parts of potassium primary phosphates

25 parts, sal epsom

5 parts of vitriolate of tartar

0.034 part of manganous sulfate

0.15 part of boric acid

0.115 part, zinc sulfate

0.024 part, copper sulfate

0.024 part of Sodium orthomolybdate

1000 parts, water;

Described A liquid and B liquid are pressed umber, arranged in order, and thin up obtains respectively A tank liquid and B tank liquid, and is placed in respectively A tank and B tank.

Described A liquid, B liquid are 1:1:100 with the weight part proportioning of water in use.

Wherein, in 1000 parts of water of configuration A liquid, 300 parts of hot water are arranged, 700 parts of normal-temperature water.In 1000 parts of water of configuration B liquid, 50 parts of hot water are arranged, 950 parts of normal-temperature water.The hot water temperature is 50 ℃～80 ℃.

Prepare described water and plant the method for red palm nutritive medium, carry out in the steps below:

The first step: preparation A liquid;

I. take respectively by weight 1000 parts, 50 parts, nitrocalcite, 3.75 parts of chelated irons and water, in described 1000 parts of water, 300 parts is hot water, and 700 parts are normal-temperature water, standby;

II. 700 parts of normal-temperature water that at first will weigh up are placed in the A tank;

III. the chelated iron that weighs up in I is put into the container of getting ready, stir slow heat injection waterside, limit,, until chelated iron dissolves fully, obtains chelated iron solution, and chelated iron solution is poured in the A tank, and the limit bevelling stirs;

IV. the nitrocalcite that weighs up in I is put in container, and stir slow heat injection waterside, limit, until hot water is finished nitrocalcite, dissolves fully, obtains ca nitrate soln, and ca nitrate soln is poured in the A tank, and the limit bevelling stirs;

Above EP (end of program), obtain A liquid.

Second step: preparation B liquid;

I. take respectively by weight 1000 parts, 25 parts, saltpetre, 15 parts of potassium primary phosphates, 25 parts, sal epsom, 5 parts of vitriolate of tartar, 0.034 part of manganous sulfate, 0.15 part of boric acid, 0.115 part, zinc sulfate, 0.024 part, copper sulfate, 0.024 part of Sodium orthomolybdate and water, in described 1000 parts of water, 50 parts is hot water, 950 parts are normal-temperature water, standby;

II. the sal epsom that weighs up in I is put into the container of getting ready, the stirring of normal temperature waterside is slowly injected on limit,, until sal epsom dissolves fully, obtains Adlerika, and Adlerika is poured in the B tank, and the limit bevelling stirs;

III. the potassium primary phosphate that weighs up in I is poured in container, and the stirring of normal temperature waterside is slowly injected on limit,, until potassium primary phosphate dissolves fully, obtains potassium dihydrogen phosphate, and potassium dihydrogen phosphate is poured in the B tank, and the limit bevelling stirs;

IV. the saltpetre that weighs up in I is poured in container, and the stirring of normal temperature waterside is slowly injected on limit,, until saltpetre dissolves fully, obtains potassium nitrate solution, and potassium nitrate solution is poured in the B tank, and the limit bevelling stirs;

V. the boric acid that weighs up in I is poured in container, and 50 parts of hot water limits stirrings are slowly injected on limit,, until boric acid dissolves fully, obtain boric acid solution, and boric acid solution is poured in the B tank, and the limit bevelling stirs;

VI. the vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and the Sodium orthomolybdate that weigh up in I are poured into respectively in separately container, limit is slowly injected the normal temperature waterside and is stirred, until vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and Sodium orthomolybdate dissolve fully, obtain vitriolate of tartar, manganous sulfate, copper sulfate, zinc sulfate and sodium molybdate solution, and consoluet vitriolate of tartar, manganous sulfate, sulfate sulfatase copper and sodium molybdate solution are poured in the B tank, the limit bevelling stirs;

VII. will remain normal-temperature water and all pour the B tank into, the limit bevelling stirs;

Above EP (end of program), obtain B liquid.

The 3rd step: after 1:100 mixes by weight with the A liquid in the described the first step and water, obtain diluent, then get by weight B liquid in 1 part of described second step and join in described diluent, obtain nutritive medium.

The temperature of described hot water is 50 ℃～80 ℃.

Described vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and sodium molybdate solution when pouring the B tank in no particular order.

Described A liquid, B liquid and water are pressed the EC value by the Controlling System automatic liquid matching, and described EC value is 1.2～1.5, and pH value is 7.

In the present invention, chelated iron employing DTPA is 6% sequestrant.

Claims (8)

1. water is planted red palm nutritive medium, it is characterized in that: comprise A liquid and B liquid;

Wherein, A liquid comprises the raw material of following weight part:

50 parts, nitrocalcite

3.75 parts of chelated irons

1000 parts, water;

B liquid comprises the raw material of following weight part:

25 parts, saltpetre

15 parts of potassium primary phosphates

25 parts, sal epsom

5 parts of vitriolate of tartar

0.034 part of manganous sulfate

0.15 part of boric acid

0.115 part, zinc sulfate

0.024 part, copper sulfate

0.024 part of Sodium orthomolybdate

1000 parts, water;

Described A liquid and B liquid are pressed umber, arranged in order, and thin up obtains respectively A tank liquid and B tank liquid, and is placed in respectively A tank and B tank.

2. water according to claim 1 is planted red palm nutritive medium, and it is characterized in that: described A liquid, B liquid are 1:1:100 with the weight part proportioning of water in use.

3. prepare the method for the red palm nutritive medium of water cultivation as claimed in claim 1, it is characterized in that carrying out in the steps below:

The first step: preparation A liquid;

I. take respectively by weight 1000 parts, 50 parts, nitrocalcite, 3.75 parts of chelated irons and water, in described 1000 parts of water, 300 parts is hot water, and 700 parts are normal-temperature water, standby;

II. 700 parts of normal-temperature water that will weigh up are placed in the A tank;

III. the chelated iron that weighs up in I is put into the container of getting ready, stir slow heat injection waterside, limit,, until chelated iron dissolves fully, obtains chelated iron solution, and chelated iron solution is poured in the A tank, and the limit bevelling stirs;

IV. the nitrocalcite that weighs up in I is put in container, and stir slow heat injection waterside, limit, until hot water is finished nitrocalcite, dissolves fully, obtains ca nitrate soln, and ca nitrate soln is poured in the A tank, and the limit bevelling stirs;

Above EP (end of program), obtain A liquid.

4. second step: preparation B liquid;

I. take respectively by weight 1000 parts, 25 parts, saltpetre, 15 parts of potassium primary phosphates, 25 parts, sal epsom, 5 parts of vitriolate of tartar, 0.034 part of manganous sulfate, 0.15 part of boric acid, 0.115 part, zinc sulfate, 0.024 part, copper sulfate, 0.024 part of Sodium orthomolybdate and water, in described 1000 parts of water, 50 parts is hot water, 950 parts are normal-temperature water, standby;

II. the sal epsom that weighs up in I is put into the container of getting ready, the stirring of normal temperature waterside is slowly injected on limit,, until sal epsom dissolves fully, obtains Adlerika, and Adlerika is poured in the B tank, and the limit bevelling stirs;

III. the potassium primary phosphate that weighs up in I is poured in container, and the stirring of normal temperature waterside is slowly injected on limit,, until potassium primary phosphate dissolves fully, obtains potassium dihydrogen phosphate, and potassium dihydrogen phosphate is poured in the B tank, and the limit bevelling stirs;

IV. the saltpetre that weighs up in I is poured in container, and the stirring of normal temperature waterside is slowly injected on limit,, until saltpetre dissolves fully, obtains potassium nitrate solution, and potassium nitrate solution is poured in the B tank, and the limit bevelling stirs;

V. the boric acid that weighs up in I is poured in container, and 50 parts of hot water limits stirrings are slowly injected on limit,, until boric acid dissolves fully, obtain boric acid solution, and boric acid solution is poured in the B tank, and the limit bevelling stirs;

VI. the vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and the Sodium orthomolybdate that weigh up in I are poured into respectively in separately container, limit is slowly injected the normal temperature waterside and is stirred, until vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and Sodium orthomolybdate dissolve fully, obtain vitriolate of tartar, manganous sulfate, copper sulfate, zinc sulfate and sodium molybdate solution, and consoluet vitriolate of tartar, manganous sulfate, sulfate sulfatase copper and sodium molybdate solution are poured in the B tank, the limit bevelling stirs;

VII. will remain normal-temperature water and all pour the B tank into, the limit bevelling stirs;

Above EP (end of program), obtain B liquid.

5. the 3rd step: after 1:100 mixes by weight with the A liquid in the described the first step and water, obtain diluent, then get by weight B liquid in 1 part of described second step and join in described diluent, obtain nutritive medium.

6. prepare according to claim 3 water and plant the method for red palm nutritive medium, it is characterized in that: the temperature of described hot water is 50 ℃～80 ℃.

7. prepare according to claim 3 water and plant the method for red palm nutritive medium, it is characterized in that: described vitriolate of tartar, manganous sulfate, zinc sulfate, copper sulfate and sodium molybdate solution when pouring the B tank in no particular order.

8. prepare according to claim 3 water and plant the method for red palm nutritive medium, it is characterized in that: described A liquid, B liquid and water are pressed the EC value by the Controlling System automatic liquid matching, and described EC value is 1.2～1.5, and pH value is 7.