CN105191536A - Method for improving saline and alkaline land by using ardealite+tetrametilenpentaurea+EDTA (Ethylene Diamine Tetraacetic Acid)+biological bacteria - Google Patents

Abstract

The invention provides a method for improving a saline and alkaline land by using ardealite+tetrametilenpentaurea+EDTA (Ethylene Diamine Tetraacetic Acid)+biological bacteria. The method comprises the following steps: treating by using ardealite, and treating with tetrametilenpentaurea, oxalic acid and hydroxymethyl cellulose, treating with EDTA, and treating with the mixture of straws and the biological bacteria. With the adoption of the method for improving the saline and alkaline land, saline and alkaline soil can be rapidly improved and is suitable for the growth of crops; an application range of a modifying agent is relatively wide and the modifying agent is suitable for soil improvement of soil salinization caused by different regions and different reasons and is applied into the soil reasonably, so that the soil structure can be improved, the alkalinity of the soil is reduced and the salt discharging rate of the soil is improved; and the fertility of the soil is improved, the growth of the crops is facilitated and the agricultural economy is improved.

Description

A kind of ardealite+tetramethylene five urea+EDTA+ biological bacteria improves the method in saline land

Technical field

The present invention relates to saline land processing technology field, particularly relate to a kind of method that ardealite+tetramethylene five urea+EDTA+ biological bacteria improves saline land.

Background technology

Saline land is the general name of solonchak and alkaline earth and various salinization, alkali-affected soil.Solonchak refers to that in soil, soluble organic fraction content acquires a certain degree, and can produce the great soil group of obviously harm to the g and D of plant.Alkaline earth refers to that quantity reaches the degree that can endanger plant growth and growth containing a large amount of exchangeability ion in soil, and the soil that soil property is changed.In actual state, solonchak and alkaline earth often exist in a mixed way jointly, are referred to as saline land.

Saline land is important land resources, and it is a kind of soil types of extensively distribution on the earth.About nearly 1,000,000,000 hectares of whole world saline soil area, China's Resource of Saline Soil is distributed widely in 17 provinces and regions based on the north, the main integrated distribution region of northwest, northeast, North China and coastal Deng Shi China saline soil, the gross area reaches more than 500,000,000 mus, and account for that the whole nation can utilize land area nearly 5%.The wherein gross area in Coastal beach saline land about 2,350,000 hm ², and now annual still with 2-3 ten thousand hm ²speed become silted up rise.Saline land control and exploitation are the problems that irrigated area agricultural development can not be ignored, and for promotion agricultural sustainable development, Ensuring Food Safety has important function.

The Method and Technology in domestic process saline land is summed up roughly as follows: (1) is physically improved; Level land, deep plough sun the earth which has been ploughed up, loosen the soil in time, raise landform, microcell is improved the soil.(2) water conservancy improvement.Fill with deploying cover, storage fresh water on saline-alkali land for leaching, washing salinity by irrigation, underground salt discharge.(3) chemical modifying; Ardealite, superphosphate, fulvic acid calcium, peat, fermentation acid-sludge etc.(4) biological modification; Rice cultivation, plantation salt-tolerant plant Tian Qing etc., use microbial-bacterial fertilizer etc.At present, the soil conditioner of soil salinization chemical harnessing is more, as gypsum, calcium sulphate, superphosphate, trade waste ardealite, industrial waste acid, fertilizer, detritus acid, flyash, peat, fermentation acid-sludge etc., these all achieve certain effect to improvement saline land, relatively more conventional is fertilizer, gypsum, and wherein gypsum is with Ca ²⁺displacement Na ⁺and improved saline land by sour neutralization bases; But the restriction be subject to as complex manufacturing, poor processing effect and some other condition can not obtain large-area popularization.

Summary of the invention

For solving the problems of the technologies described above, the invention provides a kind of method that ardealite+tetramethylene five urea+EDTA+ biological bacteria improves saline land.

The present invention is achieved by the following technical programs.

A kind of ardealite+tetramethylene five urea+EDTA+ biological bacteria provided by the invention improves the method in saline land, comprises the following steps:

(1) ardealite is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, ardealite is mixed with soil layer, keeps 5 ~ 40 days;

(2) then the mixture of tetramethylene five urea, oxalic acid, CMC is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, sustained-release adhesive is mixed with soil layer, keeps 5 ~ 20 days;

(3) EDTA is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, EDTA is mixed with soil layer, keeps 5 ~ 10 days;

(4) by stalk and biological bacteria mixed processing, the material A obtained is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, make material mix with soil layer all with, and keep 20 ~ 30 days;

In above-mentioned, the consumption of ardealite is 200 ~ 1200kg/ mu; Mixture 30 ~ 120kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 2 ~ 50kg/ mu; Material A 50 ~ 400kg/ mu.

Further, the mixed proportion of described tetramethylene five urea, oxalic acid, CMC is: 50:(1 ~ 5): (1 ~ 5);

And above-mentioned material is separately deposited, and mixes in use.

Further, described step (2) is after the mixture adding tetramethylene five urea, oxalic acid, CMC, and spray clear water, the saline land making 20cm dark is moistening.

Further, the step of the material of described stalk and biological bacteria mixed processing is: shattered by stalk, then adds animal wastes and biological bacteria, sealed fermenting 10 ~ 40 days;

In above-mentioned, mixed proportion is that stalk shatters: animal wastes: biological bacteria=100:(10 ~ 20): (1 ~ 5).

Further, described biological bacteria is at least one in bacillus subtilis, salt tolerant Azospirillum brasilense, salt tolerant fixed nitrogen Klebsiella, Salt And Alkali Tolerance phosphate solubilizing bacteria trichoderma reesei, alkaliphile, and the viable count of often kind of biological bacteria is content is 1 × 10 ^{3 ~ 4}more than cfu/g.

Further, the consumption of various material of the present invention is determined according to different saline lands, is specially:

In slight alkaline land, the consumption of ardealite is 200 ~ 500kg/ mu, mixture 30 ~ 60kg/ mu of tetramethylene five urea, oxalic acid, CMC, and the consumption of EDTA is 2 ~ 20kg/ mu; Material A 50 ~ 150kg/ mu;

In moderate saline-alkali soil, the consumption of ardealite is 500 ~ 800kg/ mu; Mixture 60 ~ 90kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 20 ~ 35kg/ mu; Material A 150 ~ 300kg/ mu.

In heavy salinized ground, the consumption of ardealite is 800 ~ 1200kg/ mu; Mixture 90 ~ 120kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 35 ~ 50kg/ mu; Material A 300 ~ 400kg/ mu.

Beneficial effect of the present invention is:

1), in this method, ardealite is aobvious acid, and it can neutralize with the saline land of aobvious alkalescence, effectively can reduce the pH value in saline land;

2) contained in ardealite calcium ion can with carbonate in saline land and bicarbonate radical generation chemical reaction, generate calcium carbonate and calcium bicarbonate, wherein calcium carbonate is water insoluble, calcium bicarbonate is slightly soluble in water, the character of calcium carbonate and calcium bicarbonate can impel Zinc fractions granular structure, and its granular structure can wrapping portion sodium ion, promotes desalinization of soil by flooding or leaching speed, reduce the bulk density of soil simultaneously, increase soil water permeability;

3) tetramethylene five urea is line-like structures, it has binding agent effect, the granular structure formed is reacted in ardealite and saline land, after interpolation tetramethylene five urea, tetramethylene five urea can promote the formation of granular structure, and tetramethylene five urea can fill up the vacancy position in the granular structure of calcium carbonate and calcium bicarbonate formation simultaneously, makes granular structure inside and outside portion relative insulation, reduce the sodium ion of mobility in soil, promote desalinization of soil by flooding or leaching speed;

4) tetramethylene five urea can slowly decompose at temperature and microbial action, and during decomposition, can form organic salt with the cation such as the sodium in soil, calcium, the solvability of its organic salt is low, reduces the cation such as sodium, calcium of soil free state;

5) tetramethylene five urea itself is slow-release fertilizer, and the product after its decomposition can provide nitrogen element for plant, can not cause the secondary pollution of soil;

6) when using tetramethylene five urea, adding oxalic acid, CMC raw material, tetramethylene five urea rapid curing can be impelled, granular structure can be impelled to be formed fast;

7) EDTA can react with the sodium in soil, calcium, iron ion complex compounds such as forming EDTA-Na, EDTA-Ca, EDTA-Fe, the solvability of EDTA-Na is lower than other sodium salts, and the complex compound that after EDTA-Ca, EDTA-Fe and iron, element is formed is slightly soluble in water, adds EDTA and can reduce salt content in soil;

8) stalk can increase the water penetration of soil, gas permeability and moisture retention, increases the content of organic matter of soil, and increase bacterial content in soil, bacterial population increase can reduce the part saliferous in saline land;

9) biological bacteria is at least one in bacillus subtilis, salt tolerant Azospirillum brasilense, salt tolerant fixed nitrogen Klebsiella, Salt And Alkali Tolerance phosphate solubilizing bacteria trichoderma reesei, alkaliphile; Itself and stalk are used in combination, can grow fast, and absorb the part salinity in saline land in soil, reduce the salt content in saline land;

10) adopt biological bacteria and stalk to be pre-mixed fermentation, make biological bacteria amount reproduction, reduce the time in the saline land of biological bacteria process;

11) in the present invention, ardealite is first adopted to process saline land, reduce pH value, simultaneously by generating calcium carbonate, the granular structure such as calcium bicarbonate, and then add the materials such as tetramethylene five urea, the granular structure being is formed more fast, and fill up the position, space of granular structure, the inner relative insulation of the granular structure being, reduce the sodium ions content of the mobility in soil, the salt content in soil is reduced with this, add EDTA again, can with the sodium of granular structure outside, calcium, iron plasma reaction forms complex compound, reduce the salt content in the soil of granular structure outside, the last material adding stalk and biological bacteria mixed processing again, avoid relative strong basicity suddenly to the suppression of biological bacteria, biological bacteria is attached to stalk surface, fast processing is carried out to soil, absorb salinity, the object lowering soil salt is reached with this.

Adopt above-mentioned saline and alkali land improvement method, can quick improvement saline-alkali soil, suitable for crop grows, and this modifying agent operation strategies is wider, be applicable to different regions, salinization of soil soil melioration that different reason causes, rationally be manured into soil, can soil structure be improved, reduce soil alkalinity, improve soil salt discharge rate, increase soil fertility, promote the growth of crops, improve agricultural economy.

Embodiment

Further describe technical scheme of the present invention below, but described in claimed scope is not limited to.

Embodiment one

1, raw material prepares

Ardealite;

Tetramethylene five urea, its structural formula is:

Oxalic acid;

CMC;

EDTA；

Stalk;

Microorganism, at least one in optional bacillus subtilis, salt tolerant Azospirillum brasilense, salt tolerant fixed nitrogen Klebsiella, Salt And Alkali Tolerance phosphate solubilizing bacteria trichoderma reesei, alkaliphile, the present embodiment selects bacillus subtilis, and the viable count of biological bacteria is content is 1 × 10 ^{3 ~ 4}more than cfu/g;

Animal wastes, optional pig manure, cow dung, chicken manure, sheep excrement etc., the present embodiment selects pig manure.

2, ardealite+tetramethylene five urea+EDTA+ biological bacteria improves the method in saline land, comprises the following steps:

(1) material A makes, and is shattered by stalk, and then add animal wastes and biological bacteria, sealed fermenting 1 day, mixed proportion is that stalk shatters: animal wastes: biological bacteria=100:10:1;

(2) ardealite is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, ardealite is mixed with soil layer, keeps 5 days;

(3) then tetramethylene five urea, oxalic acid, CMC are mixed in the ratio of 50:1:1, then saline and alkaline the earth's surface is sprinkling upon equably, and deep plough 20cm, sustained-release adhesive is mixed with soil layer, spray clear water, the saline land making 20cm dark is moistening, keeps 5 days;

(4) EDTA is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, EDTA is mixed with soil layer, keeps 5 days;

(5) material A is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, make material mix with soil layer all with, and keep 20 days;

In the present embodiment, the consumption of various material is determined according to different saline lands, is specially:

In slight alkaline land, the consumption of ardealite is 200kg/ mu, the mixture 30kg/ mu of tetramethylene five urea, oxalic acid, CMC, and the consumption of EDTA is 2kg/ mu; Material A 50kg/ mu;

In moderate saline-alkali soil, the consumption of ardealite is 500kg/ mu; The mixture 60kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 20kg/ mu; Material A 150kg/ mu.

In heavy salinized ground, the consumption of ardealite is 800kg/ mu; The mixture 90kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 35kg/ mu; Material A 300kg/ mu.

Embodiment two

1, raw material prepares

Ardealite;

Tetramethylene five urea, its structural formula is:

Oxalic acid;

CMC;

EDTA；

Stalk;

Microorganism, at least one in optional bacillus subtilis, salt tolerant Azospirillum brasilense, salt tolerant fixed nitrogen Klebsiella, Salt And Alkali Tolerance phosphate solubilizing bacteria trichoderma reesei, alkaliphile, the present embodiment selects bacillus subtilis and salt tolerant fixed nitrogen Klebsiella, and the viable count of often kind of biological bacteria is content is 1 × 10 ^{3 ~ 4}more than cfu/g;

Animal wastes, optional pig manure, cow dung, chicken manure, sheep excrement etc., the present embodiment selects pig manure.

2, ardealite+tetramethylene five urea+EDTA+ biological bacteria improves the method in saline land, comprises the following steps:

(1) material A makes, and is shattered by stalk, and then add animal wastes and biological bacteria, sealed fermenting 40 days, mixed proportion is that stalk shatters: animal wastes: biological bacteria=100:20:5;

(2) ardealite is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, ardealite is mixed with soil layer, keeps 40 days;

(3) then tetramethylene five urea, oxalic acid, CMC are mixed in the ratio of 50:5:5, then saline and alkaline the earth's surface is sprinkling upon equably, and deep plough 20cm, sustained-release adhesive is mixed with soil layer, spray clear water, the saline land making 20cm dark is moistening, keeps 20 days;

(4) EDTA is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, EDTA is mixed with soil layer, keeps 10 days;

(5) material A is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, make material mix with soil layer all with, and keep 30 days;

In the present embodiment, the consumption of various material is determined according to different saline lands, is specially:

In slight alkaline land, the consumption of ardealite is 500kg/ mu, the mixture 60kg/ mu of tetramethylene five urea, oxalic acid, CMC, and the consumption of EDTA is 20kg/ mu; Material A 150kg/ mu;

In moderate saline-alkali soil, the consumption of ardealite is 800kg/ mu; The mixture 90kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 35kg/ mu; Material A 300kg/ mu.

In heavy salinized ground, the consumption of ardealite is 1200kg/ mu; The mixture 120kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 50kg/ mu; Material A 400kg/ mu.

Embodiment three

1, raw material prepares

Ardealite;

Tetramethylene five urea, its structural formula is:

Oxalic acid;

CMC;

EDTA；

Stalk;

Microorganism, at least one in optional bacillus subtilis, salt tolerant Azospirillum brasilense, salt tolerant fixed nitrogen Klebsiella, Salt And Alkali Tolerance phosphate solubilizing bacteria trichoderma reesei, alkaliphile, the present embodiment selects bacillus subtilis, bacillus subtilis, salt tolerant Azospirillum brasilense, salt tolerant fixed nitrogen Klebsiella, Salt And Alkali Tolerance phosphate solubilizing bacteria trichoderma reesei, alkaliphile, and the viable count of often kind of biological bacteria is content is 1 × 10 ^{3 ~ 4}more than cfu/g;

Animal wastes, optional pig manure, cow dung, chicken manure, sheep excrement etc., the present embodiment selects pig manure.

2, ardealite+tetramethylene five urea+EDTA+ biological bacteria improves the method in saline land, comprises the following steps:

(1) material A makes, and is shattered by stalk, and then add animal wastes and biological bacteria, sealed fermenting 25 days, mixed proportion is that stalk shatters: animal wastes: biological bacteria=100:15:3;

(2) ardealite is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, ardealite is mixed with soil layer, keeps 25 days;

(3) then tetramethylene five urea, oxalic acid, CMC are mixed in the ratio of 50:3:3, then saline and alkaline the earth's surface is sprinkling upon equably, and deep plough 20cm, sustained-release adhesive is mixed with soil layer, spray clear water, the saline land making 20cm dark is moistening, keeps 13 days;

(4) EDTA is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, EDTA is mixed with soil layer, keeps 8 days;

(5) material A is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, make material mix with soil layer all with, and keep 25 days;

In the present embodiment, the consumption of various material is determined according to different saline lands, is specially:

In slight alkaline land, the consumption of ardealite is 350kg/ mu, the mixture 100kg/ mu of tetramethylene five urea, oxalic acid, CMC, and the consumption of EDTA is 10kg/ mu; Material A 100kg/ mu;

In moderate saline-alkali soil, the consumption of ardealite is 650kg/ mu; The mixture 100kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 28kg/ mu; Material A 230kg/ mu.

In heavy salinized ground, the consumption of ardealite is 1000kg/ mu; The mixture 320kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 43kg/ mu; Material A 350kg/ mu.

The above, it is only better example of the present invention, not any pro forma restriction is done to the present invention, anyly do not depart from technical solution of the present invention content, the any simple modification done above example according to technical spirit of the present invention, coversion material equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Meanwhile, in order to be further elaborated beneficial effect of the present invention, present inventor has performed a large amount of property used test, special instruction, the present invention's test is intended to the beneficial effect that the technology of the present invention is described, is never only limitted to scope of the present invention.

Test method: select the saline land of Haixing County, Cangzhou, Hebei Province to test, experimental group: use above-described embodiment one ~ embodiment three to process the saline land of different salinity, and throw in N ₂o6kg/ mu, P ₂o ₅5kg/ mu, K ₂the fertilizer of O3kg/ mu, carries out plantation wheat; Control group: independent ardealite process is carried out to the saline land of different salt content, total consumption of the material of the saline and alkali land improvement method of the corresponding embodiment one ~ embodiment three of consumption difference of ardealite, and throw in N ₂o6kg/ mu, P ₂o ₅5kg/ mu, K ₂the fertilizer of O3kg/ mu, carries out plantation wheat.By statistics output, in slight alkaline land, use the saline land wheat yield of the modifying agent process of the present embodiment than using the high by 40 ~ 50% of ardealite process; In moderate saline-alkali soil, use the saline land wheat yield of the modifying agent process of the present embodiment than using the high by 50 ~ 80% of ardealite process; In heavy salinized ground, use the saline land wheat yield of the modifying agent process of the present embodiment than using the high by 40 ~ 70% of ardealite process.

Claims (6)

1. improve the method in saline land by ardealite+tetramethylene five urea+EDTA+ biological bacteria, it is characterized in that, comprise the following steps:

(1) ardealite is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, ardealite is mixed with soil layer, keeps 5 ~ 40 days;

(2) then the mixture of tetramethylene five urea, oxalic acid, CMC is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, sustained-release adhesive is mixed with soil layer, keeps 5 ~ 20 days;

(3) EDTA is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, EDTA is mixed with soil layer, keeps 5 ~ 10 days;

(4) by stalk and biological bacteria mixed processing, the material A obtained is sprinkling upon saline and alkaline the earth's surface equably, and the 20cm that deep ploughs, make material mix with soil layer all with, and keep 20 ~ 30 days;

In above-mentioned, the consumption of ardealite is 200 ~ 1200kg/ mu; Mixture 30 ~ 120kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 2 ~ 50kg/ mu; Material A 50 ~ 400kg/ mu.

2. ardealite+tetramethylene five urea+EDTA+ biological bacteria as claimed in claim 1 improves the method in saline land, it is characterized in that: the mixed proportion of described tetramethylene five urea, oxalic acid, CMC is: 50:(1 ~ 5): (1 ~ 5);

And above-mentioned material is separately deposited, and mixes in use.

3. ardealite+tetramethylene five urea+EDTA+ biological bacteria as claimed in claim 1 improves the method in saline land, it is characterized in that: described step (2) is after the mixture adding tetramethylene five urea, oxalic acid, CMC, spray clear water, the saline land making 20cm dark is moistening.

4. ardealite+tetramethylene five urea+EDTA+ biological bacteria as claimed in claim 1 improves the method in saline land, it is characterized in that: the making step of described material A is: shattered by stalk, then animal wastes and biological bacteria is added, sealed fermenting 10 ~ 40 days;

In above-mentioned, mixed proportion is that stalk shatters: animal wastes: biological bacteria=100:(10 ~ 20): (1 ~ 5).

5. the method improving saline land by ardealite+tetramethylene five urea+EDTA+ biological bacteria as described in claim 1 or 4, it is characterized in that: described biological bacteria is at least one in bacillus subtilis, salt tolerant Azospirillum brasilense, salt tolerant fixed nitrogen Klebsiella, Salt And Alkali Tolerance phosphate solubilizing bacteria trichoderma reesei, alkaliphile, further, the viable count of often kind of biological bacteria is content is 1 × 10 ^{3 ~ 4}more than cfu/g.

6. ardealite+tetramethylene five urea+EDTA+ biological bacteria as claimed in claim 1 improves the method in saline land, it is characterized in that: the consumption of various material of the present invention is determined according to different saline lands, is specially:

In slight alkaline land, the consumption of ardealite is 200 ~ 500kg/ mu, mixture 30 ~ 60kg/ mu of tetramethylene five urea, oxalic acid, CMC, and the consumption of EDTA is 2 ~ 20kg/ mu; Material A 50 ~ 150kg/ mu;

In moderate saline-alkali soil, the consumption of ardealite is 500 ~ 800kg/ mu; Mixture 60 ~ 90kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 20 ~ 35kg/ mu; Material A 150 ~ 300kg/ mu.

In heavy salinized ground, the consumption of ardealite is 800 ~ 1200kg/ mu; Mixture 90 ~ 120kg/ mu of tetramethylene five urea, oxalic acid, CMC, the consumption of EDTA is 35 ~ 50kg/ mu; Material A 300 ~ 400kg/ mu.