CN105801240A - Fertilizer batching microbial agent and preparation method therefor - Google Patents

Abstract

The invention relates to the field of fertilizers and particularly relates to a fertilizer batching microbial agent and a preparation method therefor. The fertilizer batching microbial agent is characterized by being prepared from the following raw materials in percentage by weight: 35% to 50% of powdery composite microbial agent, 2% to 17% of trace elements, 30% to 45% of mineral matter powder and 18% to 33% of humic acid. The fertilizer batching microbial agent is applicable to the fertilizer batching of various fertilizers such as compounded fertilizers, organic and inorganic compounded fertilizers and organic fertilizers and can be used for effectively preventing moisture transfer between organic material granules and inorganic material granules so as to achieve that two or more kinds of material granules can be mixed according to any ratio; the phenomena of crushing, melting and the like of the granules caused by the moisture transfer among the granules do not occur during long-time placement, so that large-area mechanical sowing for farmers is facilitated, blending-while-using is not required, and the labor amount is reduced; and meanwhile, due to the fertilizer batching microbial agent, the utilization ratio of a batched fertilizer is increased, the consumption of the fertilizer is lowered, and the batched content of nitrogen, phosphorus and potassium is also lowered.

Description

One joins fertile microbial inoculum and preparation method thereof

Technical field

The present invention relates to fertilizer field, join fertile microbial inoculum and preparation method thereof particularly to one.

Background technology

The development of volume production agricultural makes chemical fertilizer, pesticide and the substantial amounts of use of other chemical agricultural fertilizer, it is known that, the utilization rate ratio of chemical fertilizer is relatively low, and only about 30%, remain the elements such as substantial amounts of N, P, K, evaporate in air, cause atmospheric pollution, the water that permeates the ground also can cause pollution of waterhead, affect people and animals' water safety, remain in and soil can make soil partly harden, cause loss greatly to peasant household.

Join the microbial inoculum that fertile microbial inoculum is a kind of fiting chemical Fertilizer application, that commonly uses in the market joins fertile microbial inoculum, to chemical fertilizer and utilization rate promote limited, can produce, if joined when fertile microbial inoculum mixes placement for a long time with fertiliser granulates, phenomenon of dissolving each other, being the most all to use now to mix used mode, i.e. peasant and need to buy chemical fertilizer respectively and join fertilizer microbial inoculum, when agricultural product are applied fertilizer by needs, by chemical fertilizer and join after fertile microbial inoculum is mixed in proportion before fertilising, apply fertilizer, add the amount of labour of peasant.

Summary of the invention

The present invention is in order to make up the defect of prior art, it is provided that a kind of improves utilization rate of fertilizer, be applicable to the fertilizer such as various compound fertilizer, compound organic and inorganic fertilizer, fertilizer and use, it is not necessary to now mixes and used joins fertile microbial inoculum and preparation method thereof.

The present invention is achieved through the following technical solutions:

One joins fertile microbial inoculum, it is characterised in that: comprise the following raw materials by weight percent:

Powdery composite bacteria agent capable 35-50%, trace element 2-17%, mineral powder 30-45%, humic acid 18-33%；Wherein, powdery composite bacteria agent capable is made up of the raw material of following weight ratio: humic acid: composite bacteria liquid=3:1, and described composite bacteria liquid is that bacillus subtilis (Bacillus subtilis) fermentation liquid, gel-shaped series bacillus (Bacillus mucilaginosus) fermentation liquid, Bacillus licheniformis (Bacillus licheniformis) fermentation liquid mix with the weight ratio of 1:1:1.

Described trace element be boron, zinc, magnesium, molybdenum one or more.

Described mineral powder is medical stone powder, containing elements such as abundant calcium, magnesium.

The preparation method joining fertile microbial inoculum of the present invention, comprises the following steps:

(1) powdery composite bacteria agent capable is prepared: carry out being mixed to get composite bacteria liquid with the weight ratio of 1:1:1 by fermentation of bacillus subtilis liquid, gel-shaped series bacillus fermentation liquid, the lichen bacillus ferments liquid, then with humic acid as carrier, with weight ratio humic acid: composite bacteria liquid is adsorbed by composite bacteria liquid=3:1, obtain powdery composite bacteria agent capable, living bacteria count >=1,000,000,000/gram；

(2) mix, pulverize: take step (1) gained powdery composite bacteria agent capable, be thoroughly mixed in blender 5-10 minute in described ratio with trace element, mineral powder, humic acid, pulverize in sending into pulverizer after mixing；

(3) pelletize, dry, cool down: the material after being pulverized by step (2) gained is sent into and carried out pelletize in granulating disc, carries out drying, carrying out being cooled to room temperature subsequently into cooling cylinder in sending into Drying；

(4) peplos, measure, pack: the granule peplos agent after cooling is carried out peplos, and described peplos agent is (0.3-0.5) with the weight ratio of granule: 100, finally carries out measuring, packing.

Preferably, step (1) can also be adsorbed with turfy soil.

Preferably, described in step (3), the inlet temperature of Drying is 300-450 DEG C, and outlet temperature is 60-80 DEG C.

The agent of step (4) described peplos is macromolecule resin peplos agent that can be degradable, has no side effect, and the moisture in soil makes intramembranous particles imbibition, and slowly dissolving is diffused into outside film.

The invention has the beneficial effects as follows: the invention provides one and join fertile microbial inoculum and preparation method thereof, this is joined fertile microbial inoculum and is suitable for various compound fertilizer, compound organic and inorganic fertilizer, the fertilizer such as fertilizer carry out joining fertilizer, can effectively block organic material granule to transmit with the intergranular moisture of inorganic material, reach can to blend by arbitrary proportion between two or more material particles, long-time place do not have because of between granule moisture transmission and occur granule to pulverize, the phenomenons such as thawing, facilitate the large area machine sowing of peasant household, without now mixing existing use, decrease the amount of labour, this is joined fertile microbial inoculum and improves the utilization rate of joined fertilizer simultaneously, reduce fertilizer amount, also N P and K proportioning content is reduced.

Accompanying drawing explanation

Accompanying drawing 1 is for joining fertile microbial inoculum experiment field zoning map on Semen sojae atricolor described in the embodiment of the present invention 1；

Accompanying drawing 2 is for joining fertile microbial inoculum experiment field zoning map on Rhizoma Solani tuber osi described in the embodiment of the present invention 2；

Accompanying drawing 3 is for joining fertile microbial inoculum experiment field zoning map on Semen Maydis described in the embodiment of the present invention 3；

Accompanying drawing illustrates: in accompanying drawing, the content represented by label 1,2,3,4 is described in detail in a particular embodiment.

Detailed description of the invention

Below by specific embodiments, the present invention is described in further detail, but these embodiments are merely to illustrate, and are not defined the scope of the present invention.

Embodiment 1:

The preparation method joining fertile microbial inoculum of the present invention, comprises the following steps:

(1) powdery composite bacteria agent capable is prepared: 5Kg fermentation of bacillus subtilis liquid, 5Kg gel-shaped series bacillus fermentation liquid, 5Kg the lichen bacillus ferments liquid are mixed to get composite bacteria liquid, then with 45Kg humic acid as carrier, composite bacteria liquid is adsorbed, obtain powdery composite bacteria agent capable, living bacteria count >=1,000,000,000/gram；

(2) mix, pulverize: by step (1) gained 60Kg powdery composite bacteria agent capable, it is thoroughly mixed 5-10 minute in U-shaped horizontal mixer with 7.5Kg trace element, 52.5Kg medical stone powder, 30Kg humic acid, pulverizes be sent to the vertical crusher of 80 models after mixing by belt feeder in；

(3) pelletize, dry, cool down: will step (2) gained pulverize after material send in the granulating disc of a diameter of 2m and carry out pelletize; send into a diameter of 1.8m; dry in the Drying of a length of 18m; the inlet temperature of Drying is 300-450 DEG C; outlet temperature is 60-80 DEG C; subsequently into diameter 1.2m, the cooling cylinder of a length of 12m carries out being cooled to room temperature；

(4) peplos, measure, pack: by the granule after cooling with can be degradable macromolecule resin peplos agent carry out peplos, have no side effect, moisture in soil makes intramembranous particles imbibition, and slowly dissolving is diffused into outside film, described peplos agent is 0.3:100 with the weight ratio of granule, finally carries out measuring, packing.

Embodiment 2:

The preparation method joining fertile microbial inoculum of the present invention, comprises the following steps:

(1) powdery composite bacteria agent capable is prepared: 12Kg fermentation of bacillus subtilis liquid, 12Kg gel-shaped series bacillus fermentation liquid, 12Kg the lichen bacillus ferments liquid are mixed to get composite bacteria liquid, then with 108Kg humic acid as carrier, composite bacteria liquid is adsorbed, obtain powdery composite bacteria agent capable, living bacteria count >=1,000,000,000/gram；

(2) mix, pulverize: by step (1) gained 140Kg powdery composite bacteria agent capable, it is thoroughly mixed 5-10 minute in U-shaped horizontal mixer with 8Kg trace element, 180Kg medical stone powder, 72Kg humic acid, pulverizes be sent to the vertical crusher of 80 models after mixing by belt feeder in；

(3) pelletize, dry, cool down: will step (2) gained pulverize after material send in the granulating disc of a diameter of 2m and carry out pelletize; send into a diameter of 1.8m; dry in the Drying of a length of 18m; the inlet temperature of Drying is 300-450 DEG C; outlet temperature is 60-80 DEG C; subsequently into diameter 1.2m, the cooling cylinder of a length of 12m carries out being cooled to room temperature；

(4) peplos, measure, pack: by the granule after cooling with can be degradable macromolecule resin peplos agent carry out peplos, have no side effect, moisture in soil makes intramembranous particles imbibition, and slowly dissolving is diffused into outside film, described peplos agent is 0.4:100 with the weight ratio of granule, finally carries out measuring, packing.

Embodiment 3:

The preparation method joining fertile microbial inoculum of the present invention, comprises the following steps:

(1) powdery composite bacteria agent capable is prepared: 12Kg fermentation of bacillus subtilis liquid, 12Kg gel-shaped series bacillus fermentation liquid, 12Kg the lichen bacillus ferments liquid are mixed to get composite bacteria liquid, then with 108Kg humic acid as carrier, composite bacteria liquid is adsorbed, obtain powdery composite bacteria agent capable, living bacteria count >=1,000,000,000/gram；

(2) mix, pulverize: by step (1) gained 140Kg powdery composite bacteria agent capable, it is thoroughly mixed 5-10 minute in U-shaped horizontal mixer with 68Kg trace element, 120Kg medical stone powder, 72Kg humic acid, pulverizes be sent to the vertical crusher of 80 models after mixing by belt feeder in；

(3) pelletize, dry, cool down: will step (2) gained pulverize after material send in the granulating disc of a diameter of 2m and carry out pelletize; send into a diameter of 1.8m; dry in the Drying of a length of 18m; the inlet temperature of Drying is 300-450 DEG C; outlet temperature is 60-80 DEG C; subsequently into diameter 1.2m, the cooling cylinder of a length of 12m carries out being cooled to room temperature；

(4) peplos, measure, pack: by the granule after cooling with can be degradable macromolecule resin peplos agent carry out peplos, have no side effect, moisture in soil makes intramembranous particles imbibition, and slowly dissolving is diffused into outside film, described peplos agent is 0.5:100 with the weight ratio of granule, finally carries out measuring, packing.

It is the present invention being not added with powdery composite bacteria agent capable that the following stated joins fertile microbial inoculum substrate.

Fertile microbial inoculum experiment on Semen sojae atricolor is joined described in embodiment 1:

1.1 experimental technique

Experiment sets four process, and random district group arranges, and in triplicate, each process uses 6 row districts, long 10 meters of row, area 42 square metres.

Process 1: fertile microbial inoculum 2kg+ dedicated fertilizer for soybean 30kg is joined in mu bottom application；

Process 2: fertile microbial inoculum substrate 2kg+ dedicated fertilizer for soybean 30kg is joined in mu bottom application；

Process 3: common fertilizer: dedicated fertilizer for soybean 30kg；

Process 4: background values (blank).

Field zoning map is as shown in Figure 1；

1.2 test basic conditions:

Autumn turns over autumn ridging, and May 11 was sowed, and May 15, enclosed weeding, manually pulled out DACAO July 8, and JIUYUE is surveyed and produced on the 20th.Results Shi Ge community is single receives note product field investigation simultaneously and species test.In addition to testing according to requiring fertilising except scheme, other control measures produce with general Soybean Field.

1.3 surveys are produced and species test:

Harvest time, each community singles singly received, and were designated as cell production.

2 results and analysis

2.1 join the fertile microbial inoculum impact on soybean growth

Join the application on Semen sojae atricolor of fertile microbial inoculum and process consistent with compareing the ripe phase.Refer to table 2.1.

Table 2.1 phenological period application form

Process	Sowing time	Seeding stage	Florescence	Fruiting period	Period of maturation
						1	5.11	5.22	6.26	7.7	9.28
2	5.11	5.22	6.26	7.7	9.28
						3(CK)	5.11	5.22	6.26	7.7	9.28
4	5.11	5.22	6.26	7.5	8.25

2.2 join the fertile microbial inoculum impact on soybean yields

2.2.1 Semen sojae atricolor species test table

Process	Strain/m2	Plant height (cm)	Pod/strain	Grain/strain	100-grain weight (g)
						1	25	95.6	42.2	76.3	17.4
2	25	95.4	41.6	75.2	17.3
						3(CK)	25	95.3	40.2	74.1	17.2
4	25	64.1	33.8	36.0	16.6

From indoor species test table it can be seen that (1) Semen sojae atricolor is used and joins fertile microbial inoculum and process 1 and have increase 100-grain weight effect than comparison 3.Pair test 100-grain weight increases 0.2-0.3g.(referring to species test table)

2.2.2 yield result is affected and volume variance significance test by each process

From yield result table it can be seen that Semen sojae atricolor is used and joins fertile microbial inoculum to process yield than other high, yield increases by 19.6 kilograms, volume increase 12.6% (referring to table).Substrate sterilization treatment also has effect of increasing production, respectively volume increase 10.7 kilograms volume increase 6.9.

1, result of the test and volume variance significance test

(1) yield result table

Fertile microbial inoculum experiment on Rhizoma Solani tuber osi is joined described in embodiment 2:

1 test is arranged

1.1 experimental technique

Experiment sets four process, and random district group arranges, and in triplicate, plot area is 42m²,

Process 1: fertile microbial inoculum 2kg+ potato special fertilizer 32kg is joined in mu bottom application；

Process 2: fertile microbial inoculum substrate 2kg+ potato special fertilizer 32kg is joined in mu bottom application；

Process 3: common fertilizer: potato special fertilizer 40kg；

Process 4: background values (blank).

Field zoning map is as shown in Figure 2；

1.2 test basic conditions:

The most front stubble is Semen Maydis, artificial dibbling.Turn in the spring front village of back township, Suiling County spring ridging, and May 13 was sowed, and May 15, enclosed weeding, manually pulled out DACAO once July 2, and JIUYUE is surveyed and produced on the 20th.Physical features is smooth, and fertility is uniform.Field management processes the most consistent with comparison.The sowing on May 13 of demonstration area at county level, Ke Yinhe township, Suiling County, May 15 taked mechanical drug weed eradication to close, and manually pulled out DACAO once at the beginning of 7 months, did not had applying pesticides during whole fertility, JIUYUE starts to survey the yield by estimation amount on the 20th, and other management are essentially identical with local Rhizoma Solani tuber osi plot.

1.3 surveys are produced and species test:

Harvest time, each community singles singly received, and were designated as cell production.

2 results and analysis

2.1 each period of duration follow-up investigations are analyzed

Join fertile microbial inoculum on Rhizoma Solani tuber osi, apply certain rush precocity effect, process 1 comparison and break forth and seedling stage, florescence shift to an earlier date 2 days, process 1 than comparison precocity 2 days.Refer to table 2.1.

Table 2.1 phenological period application form

2.2 respectively process yield result impact and volume variance significance test

2.2.2 back, Suiling County township volume analysis result and diversity

Bottom application " join fertile microbial inoculum " adds the yield of Rhizoma Solani tuber osi, and the volume analysis of back township processes 1 as can be seen from Table 1 and increases production 321.1 kilograms than processing 2 average mus, volume increase 8.7%；Process 2 ratios and process 3 average mu volume increase 66.2kg, rate of growth 1.8%；Process 3 ratios and process 4 average mu volume increase 273.2kg, rate of growth 8.0%.Individual process yield result is carried out variance analysis (being shown in Table 2), and between process, volume variance reaches pole significant level.Employing PLSD method carries out multiple comparisons (being shown in Table 3), and between process 1 and process 2, process 3, process 4, differential difference all reaches pole significant level, and between process 2, process 3, volume variance is the most notable.

(1) yield result table

Fertile microbial inoculum experiment on Semen Maydis is joined described in embodiment 3::

1.3 for studying thing: Semen Maydis.Kind: kind green rouge 2.

2 tests are arranged

2.1 experimental technique

Experiment sets four process, and random district group arranges, and in triplicate, each process uses 6 row districts, long 10 meters of row, area 42 square metres.

Process 1: fertile microbial inoculum 2kg+ corn fertilizer 40kg is joined in mu bottom application；

Process 2: fertile microbial inoculum substrate 2kg+ corn fertilizer 40kg is joined in mu bottom application；

Process 3: common fertilizer: corn fertilizer 40kg；

Process 4: background values (blank).

Field zoning map is as shown in Figure 3；

2.2 test basic conditions:

May 4 was sowed, May 5 enclosed weeding, in June 28, weeding topdresses, and mu chases after 8 kilograms of carbamide, and JIUYUE is surveyed and produced on the 28th.Results Shi Ge community is single receives note product field investigation simultaneously and species test.In addition to testing according to requiring fertilising except scheme, other control measures produce with general corn field.

2.3 surveys are produced and species test:

Harvest time, each community singles singly received, and were designated as cell production.

3 results and analysis

Join fertile microbial inoculum on Semen Maydis, apply certain rush precocity effect, process 1 riper than comparison 2,3 precocious 2 days.Refer to table 3.1.

Table 3.1 phenological period application form

Process	Sowing time	Seeding stage	Jointing stage	Tasseling stage	Weave silk the phase	Period of maturation
							1	5.4	5.24	6.21	7.25	7.27	10.3
2	5.4	5.24	6.21	7.25	7.27	10.5
							3(ck)	5.4	5.24	6.21	7.25	7.27	10.5
4	5.4	5.24	6.21	7.25	7.27	9.27

3.2 join the fertile microbial inoculum impact on corn yield

3.2.1. corn seed investigating table

Corn seed investigating table

From indoor species test table it can be seen that (1) Yield-increasing Baallus In Maize joins fertile microbial inoculum processes 1 and have increase Grain Ripening degree than comparison 3, reduce bald point, increase the effects such as 100-grain weight.Bald point reduces 0.4-0.6 centimetre, and 100-grain weight increases 0.1g.

(2) Yield-increasing Baallus In Maize is joined fertile microbial inoculum and is processed 2 and be reduced bald point effect than comparison 3.Bald point reduces 0.2 centimetre.

(referring to species test table)

3.2.2 yield result is affected and volume variance significance test by each process

It is the highest that result of the test shows to join fertile microbial inoculum process yield, and ratio processes 3 per mu yields increases by 51.5 kilograms, volume increase 8.7%.Refer to yield result table.

1, result of the test and volume variance significance test

(1) yield result table

Claims (7)

1. join fertile microbial inoculum for one kind, it is characterised in that: comprise the following raw materials by weight percent:

Powdery composite bacteria agent capable 35-50%, trace element 2-17%, mineral powder 30-45%, humic acid 18-33%；

Wherein, powdery composite bacteria agent capable is made up of the raw material of following weight ratio: humic acid: composite bacteria liquid=3:1, and described composite bacteria liquid is that bacillus subtilis (Bacillus subtilis) fermentation liquid, gel-shaped series bacillus (Bacillus mucilaginosus) fermentation liquid, Bacillus licheniformis (Bacillus licheniformis) fermentation liquid mix with the weight ratio of 1:1:1.

One the most according to claim 1 joins fertile microbial inoculum, it is characterised in that: described trace element be boron, zinc, magnesium, molybdenum one or more.

One the most according to claim 1 joins fertile microbial inoculum, it is characterised in that: described mineral powder is medical stone powder.

A kind of preparation method joining fertile microbial inoculum the most according to claim 1, it is characterised in that: comprise the following steps:

(1) powdery composite bacteria agent capable is prepared: carry out being mixed to get composite bacteria liquid with the weight ratio of 1:1:1 by fermentation of bacillus subtilis liquid, gel-shaped series bacillus fermentation liquid, the lichen bacillus ferments liquid, then with humic acid as carrier, with weight ratio humic acid: composite bacteria liquid is adsorbed by composite bacteria liquid=3:1, obtain powdery composite bacteria agent capable, living bacteria count >=1,000,000,000/gram；

(2) mix, pulverize: take step (1) gained powdery composite bacteria agent capable, be thoroughly mixed in blender 5-10 minute in described ratio with trace element, mineral powder, humic acid, pulverize in sending into pulverizer after mixing；

(3) pelletize, dry, cool down: the material after being pulverized by step (2) gained is sent into and carried out pelletize in granulating disc, carries out drying, carrying out being cooled to room temperature subsequently into cooling cylinder in sending into Drying；

(4) peplos, measure, pack: the granule peplos agent after cooling is carried out peplos, and described peplos agent is (0.3-0.5) with the weight ratio of granule: 100, finally carries out measuring, packing.

A kind of preparation method joining fertile microbial inoculum the most according to claim 4, it is characterised in that: step (1) can also be adsorbed with turfy soil.

A kind of preparation method joining fertile microbial inoculum the most according to claim 4, it is characterised in that: described in 4 steps (3), the inlet temperature of Drying is 300-450 DEG C, and outlet temperature is 60-80 DEG C.

One the most according to claim 4 joins fertile microbial inoculum and preparation method thereof, it is characterised in that: the agent of step (4) described peplos is macromolecule resin peplos agent that can be degradable.