Special soil conditioner for soda saline-alkaline paddy fields and preparation method thereof

Abstract

Disclosed is a special soil conditioner for soda saline-alkaline paddy fields and a preparation method thereof, relating to the technical field of soil conditioner preparation. The raw materials of the soil conditioner include calcium chloride dihydrate, anionic polyacrylamide, mineral potassium fulvate, diethylaminoethyl (DA) polyamine, DA-7 or DA-8, brassinolide, potassium indolebutyrate, sodium α-naphthylacetate and powder anti-caking agent. The above components are mixed according to a specific weight ratio to obtain the special soil conditioner for soda saline-alkaline paddy fields.

Claims

1. A special soil conditioner for soda saline-alkaline paddy fields, comprising raw material components in parts by weight: 560-740 parts of calcium chloride dihydrate, 45-90 parts of anionic polyacrylamide, 45-90 parts of mineral potassium fulvate, 1.8-2.7 parts of diethylaminoethyl (DA) polyamine, DA-7 or DA-8, 0.6-0.9 parts of brassinolide, 0.6-0.8 parts of potassium indolebutyrate, 0.3-0.4 parts of sodium α-naphthylacetate and 5-8 parts of powder anti-caking agent, wherein the potassium indolebutyrate and the sodium α-naphthylacetate are compounded in a ratio of 2:1; wherein a calcium chloride content in the calcium chloride dihydrate is ≥74 wt %; wherein a molecular weight of the anionic polyacrylamide is 6-12 Mg/mol; wherein a potassium oxide content is ≥12 wt %, a humic acid content is ≥60 wt % and a fulvic acid content is ≥50 wt % in the mineral potassium fulvate; wherein a content of an active ingredient of the DA polyamine or the DA-7 or the DA-8 is ≥98 wt %; wherein a content of an active ingredient of the brassinolide is 0.01 wt %, a content of an active ingredient of the potassium indolebutyrate is ≥98 wt %, and a content of an active ingredient of the sodium α-naphthylacetate is ≥98 wt %.

2. A preparation method of the special soil conditioner for soda saline-alkaline paddy fields according to claim 1, comprising a following step: mixing the raw materials according to parts by weight to obtain the special soil conditioner for soda saline-alkaline paddy fields.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) In order to more clearly explain the embodiments of the present application or the technical solutions in the prior art, the following will briefly introduce the drawings that need to be used in the embodiments. Obviously, the drawings in the following description are only some embodiments of the present application. For those of ordinary skill in the art, other drawings may be obtained according to these drawings without any creative effort.

(2) FIG. 1 is a comparison of flocculation promoting effects between a control treatment group and an experimental treatment group in embodiment 1 of the present application.

(3) FIG. 2 is a comparison of aboveground parts of rice between a control treatment group and an experimental treatment group in autumn in embodiment 2 of the present application.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(4) Various exemplary embodiments of the present application will now be described in detail. This detailed description should not be taken as a limitation of the present application, but should be understood as a more detailed description of some aspects, characteristics and embodiments of the present application.

(5) It should be understood that the terms described in the present application are only used to describe specific embodiments, and are not used to limit the present application. In addition, for the numerical range in the present application, it should be understood that each intermediate value between the upper limit and the lower limit of the range is also specifically disclosed. Every smaller range between any stated value or the intermediate value within the stated range and any other stated value or the intermediate value within the stated range is also included in the present application. The upper and lower limits of these smaller ranges may be independently included or excluded from the range.

(6) Unless otherwise stated, all technical and scientific terms used herein have the same meanings commonly understood by those of ordinary skill in the field to which this application relates. Although the present application only describes preferred methods and materials, any methods and materials similar or equivalent to those described herein may be used in the practice or testing of the present application. All documents mentioned in this specification are incorporated by reference to disclose and describe the methods and/or materials related to the documents. In case of conflict with any incorporated documents, the contents of this specification shall prevail.

(7) Without departing from the scope or spirit of the present application, it is obvious to those skilled in the art that many improvements and changes may be made to the specific embodiments of the present specification. Other embodiments obtained from the description of the present application will be obvious to the skilled person. The specification and embodiment of this application are only exemplary.

(8) As used in this text, “including”, “having”, “comprising” and so on are all open terms, which means including but not limited to.

(9) The “parts” mentioned in the present application are in parts by weight unless otherwise specified.

(10) Calcium chloride dihydrate used in the embodiments of the present application is powder and calcium chloride content is ≥74 wt %; purity of powder high-efficiency anti-caking agent is ≥98%.

(11) Content of active ingredient of DA polyamine, DA-7 and DA-8 used is ≥98 wt %, content of active ingredient of brassinolide is 0.01 wt %, content of active ingredient of potassium indolebutyrate is ≥98 wt % and content of active ingredient of sodium α-naphthylacetate is ≥98 wt %.

Embodiment 1

(12) A special soil conditioner for soda saline-alkaline paddy fields is prepared from following raw materials in parts by weight:

(13) 700 parts of the calcium chloride dihydrate, 85 parts of anionic polyacrylamide (molecular weight 12 Mg/mol) and 60 parts of mineral potassium fulvate, 2.1 parts of DA-7, 0.7 parts of the brassinolide, 0.6 parts of the potassium indolebutyrate, 0.3 parts of sodium α-naphthylacetate and 7 parts of powder high-efficiency anti-caking agent.

(14) The special soil conditioner for soda saline-alkaline paddy fields is prepared is as follows:

(15) (1) accurately weighing the raw material components:

(16) (2) adding the powder high-efficiency anti-caking agent, the DA-7, the brassinolide, the potassium indolebutyrate, the sodium α-naphthylacetate and the mineral potassium fulvate into a stirrer and stirring until uniform; and

(17) (3) continuing to add the anionic polyacrylamide and the calcium chloride dihydrate into the stirrer, and stirring until uniform.

(18) The experimental soda saline-alkaline paddy field is located in Dagangzi Town, Daan City, Baicheng City, Jilin Province. The experimental soda saline-alkaline paddy field is newly-reclaimed, with 20 cm of topsoil with a pH of 10.63, electrical conductivity of 1076 μS/cm, and ESP of 41.13%. After raking the land in spring, 85 kg/hm.sup.2 of the soil conditioner of this embodiment is applied as an experimental treatment group. Compared with a control treatment group without soil conditioner, the slurry layering effect of water layer slurry of the experimental treatment group is remarkable, and content of alkaline-causing bicarbonate ion in water layer is 103 mg/L (milligrams per liter) lower than that of the control treatment group.

(19) FIG. 1 is a comparison of the flocculation promoting effect between the control treatment group and the experimental treatment group in embodiment 1, which is used to verify and demonstrate the flocculation and sedimentation promoting effect of the present application on dispersive slurry in soda saline-alkaline paddy field. In the figure, the left pond is the control treatment, and the right pond is the experimental treatment. It is easy to see that the control treatment does not layer slurry for a long time, and the water layer is in the form of suspended slurry. The experimental treatment rapidly layers slurry and the water layer is clear.

Embodiment 2

(20) A special soil conditioner for soda saline-alkaline paddy fields is prepared from following raw materials in parts by weight:

(21) 740 parts of the calcium chloride dihydrate, 90 parts of anionic polyacrylamide (molecular weight 10 Mg/mol) and 90 parts of the mineral potassium fulvate, 2.5 parts of the DA polyamine, 0.8 part of the brassinolide, 0.8 part of potassium indolebutyrate, 0.4 part of the sodium α-naphthylacetate, and 8 parts of powder high-efficiency anti-caking agent.

(22) The special soil conditioner for soda saline-alkaline paddy fields is prepared as follows:

(23) (1) accurately weighing the raw material components;

(24) (2) adding the powder high-efficiency anti-caking agent, the DA polyamine, the brassinolide, the potassium indolebutyrate, the sodium α-naphthylacetate into a stirrer and the mineral potassium fulvate, and stirring until uniform; and

(25) (3) continuing to add the anionic polyacrylamide and the calcium chloride dihydrate into the stirrer, and stirring uniform.

(26) The experimental soda saline-alkaline paddy field is located in Dagangzi Town, Daan City, Baicheng City, Jilin Province and is newly-reclaimed, with 20 cm of topsoil with a pH of 10.57, the conductivity is 1048 μS/cm, and the ESP is 40.51%. On the second day after transplanting in spring, 93 kg/hm.sup.2 of the soil conditioner of this embodiment is applied as an experimental treatment group, while no soil conditioner is applied as a control treatment group. The content of alkaline-causing bicarbonate ion in water layer of experimental treatment is 112 mg/L lower than that of control treatment. Other management measures of the two groups are the same, and the yield in autumn is 402 kg/hm.sup.2 (kilograms per square hectare) in the control treatment group and 5127 kg/hm.sup.2 in the experimental treatment group.

(27) FIG. 2 is a comparison of aboveground parts of rice between the control treatment group and the experimental treatment group in autumn in embodiment 2. The aboveground parts of rice in the control treatment was yellow and brownish, plants are short, tillers are weak and few, and grains are dry and not full, while the aboveground parts of rice in the experiment treatment group is yellow, plants are tall, tillers are strong and more, and grains are full and more per spike.

Embodiment 3

(28) A special soil conditioner for soda saline-alkaline paddy fields is prepared from following raw materials in parts by weight:

(29) 650 parts of calcium chloride dihydrate, 75 parts of anionic polyacrylamide (molecular weight 10 Mg/mol), 80 parts of mineral potassium fulvate, 2.3 parts of DA polyamine, 0.8 parts of brassinolide, 0.8 parts of potassium indolebutyrate, 0.4 parts of sodium α-naphthylacetate and 7 parts of powder high-efficiency anti-caking agent.

(30) The special soil conditioner for soda saline-alkaline paddy fields is prepared is as follows:

(31) (1) accurately weighing the raw material components:

(32) (2) adding the powder high-efficiency anti-caking agent, the DA polyamine, the brassinolide, the potassium indolebutyrate, the sodium α-naphthylacetate and mineral potassium fulvate into a stirrer, and stirring until uniform; and

(33) (3) continuing to add the anionic polyacrylamide and the calcium chloride dihydrate into the stirrer, and stirring until uniform.

(34) The experimental soda saline-alkaline paddy field is in Dagangzi Town, Daan City, Baicheng City, Jilin Province and is a second-year paddy field, with 20 cm of topsoil with a pH of 10.43, the electrical conductivity of 957 μS/cm, and the ESP of 36.54%. On the second day after transplanting in spring, 81 kg/hm.sup.2 soil conditioner of this embodiment is applied as an experimental treatment group, and no soil conditioner is applied as a control treatment group. The content of alkaline-causing bicarbonate ion in water layer of experimental treatment is 126 mg/L lower than that of control treatment. Other management measures of the two groups are the same, and the yield in autumn is 2042 kg/hm.sup.2 in the control treatment group and 6420 kg/hm.sup.2 in the experimental treatment group.

Embodiment 4

(35) A special soil conditioner for soda saline-alkaline paddy fields is prepared from following raw materials in parts by weight:

(36) 650 parts of calcium chloride dihydrate, 66 parts of anionic polyacrylamide (molecular weight 10 Mg/mol) and 62 parts of mineral potassium fulvate, 2.3 parts of DA polyamine, 0.8 part of brassinolide, 0.8 part of potassium indolebutyrate, 0.4 part of sodium α-naphthylacetate, 46 parts of zinc citrate chelate (zinc content ≥20%), 35 parts of magnesium trisilicate (active ingredient content ≥98%), 35 parts of potassium silicate (active ingredient content ≥98%), 1.5 parts of EM (Effective Microorganism) strain (dry powder) and 7 parts of powder high-efficiency anti-caking agent.

(37) The special soil conditioner for soda saline-alkaline paddy fields is prepared is as follows:

(38) (1) accurately weighing the raw material components:

(39) (2) adding the powder high-efficiency anti-caking agent, the DA polyamine, the brassinolide, the potassium indolebutyrate and sodium α-naphthylacetate, and the mineral potassium fulvate into a stirrer, and stirring until uniform;

(40) (3) continuing to add the EM strain, the magnesium trisilicate, the potassium silicate and the zinc citrate chelate into the stirrer, and stirring until uniform; and

(41) (4) continuing to add the anionic polyacrylamide and the calcium chloride dihydrate into the stirrer, and stirring uniform.

(42) The experimental soda saline-alkaline paddy field is located in Dagangzi Town, Daan City, Baicheng City, Jilin Province and is the second-year paddy field, with 20 cm of topsoil with a pH of 10.43, the conductivity of 957 μS/cm, and the ESP of 36.54%. On the second day after transplanting in spring, 90 kg/hm.sup.2 of the soil conditioner of this embodiment is applied, and the content of alkaline-causing bicarbonate ion in water layer is decreased by 122 mg/L compared with that before application, and the yield in autumn is 6514 kg/hm.sup.2.

(43) The soda saline-alkaline rice soil has low nutrient limitation due to strong alkalinity. Rice seedlings are prone to red rot due to zinc and silicon deficiency in the early stage of transplanting. Supplementing zinc and silicon fertilizer prevents this type of red rot. At the same time, the silicon fertilizer is a combination of slow-acting magnesium trisilicate and quick-acting potassium silicate in a ratio of 1:1, which not only achieves quick and long-acting silicon fertilizer supplement, but also supplements trace element magnesium and a large amount of potassium. The EM strain improves soil microbial activity, and is beneficial to improve soil properties and stress resistance of rice. Generally speaking, adding the zinc citrate chelate, the magnesium trisilicate, the potassium silicate and the EM strain improves the effect of the application.

Comparative Embodiment 1

(44) The difference from embodiment 2 is that the potassium indolebutyrate is adjusted to 1 part.

(45) The experimental soda saline-alkaline paddy field is located in Dagangzi Town, Daan City, Baicheng City, Jilin Province and is a newly-reclaimed paddy field with 20 cm of topsoil with a pH of 10.57, electrical conductivity of 1048 μS/cm, and the ESP of 40.51%. On the second day after transplanting in spring, 93 kg/hm.sup.2 of the soil conditioner of this embodiment is applied, and the content of alkaline-causing bicarbonate ion in water layer is decreased by 112 mg/L compared with that before application, and the yield in autumn is 4943 kg/hm.sup.2.

(46) The above-mentioned embodiments only describe the preferred mode of the present application, but do not limit the scope of the present application. On the premise of not departing from the design spirit of the present application, all kinds of modifications and improvements made by ordinary technicians in the field to the technical scheme of the present application shall fall within the scope of protection determined by the claims of the present application.