CN102715190A - Plant rooting agent composition - Google Patents

Abstract

The invention discloses a plant growth regulator, and in particular relates to a composition for inducing plants to root. The plant rooting agent composition is a non-powdery solid preparation, and comprises the following components in percentage by mass: 0.001 to 10 percent of plant rooting active ingredients which are at least one of alpha-naphthylacetic acid and derivatives thereof and at least one of indolebutyric acid and derivatives thereof, and heteroauxin and derivatives thereof, 1 to 10 percent of boric acid compound and the balance of medicinal auxiliary materials. The plant rooting agent composition can improve a plant rooting effect and also can well avoid dust flying and drift, the consumption of water for diluting is reduced, and the plant rooting agent composition is convenient to apply.

Description

A kind of plant establishment agent composition

Technical field

The present invention relates to a plant growth regulators, be specifically related to the composition that a kind of inducing plant is taken root.

Background technology

Plant growth regulator is a kind of ectogenic non-nutritive chemical substance, and it can conduct to site of action usually in plant corpus, just can promote or suppress some link in the plant life process with lower concentration, makes it to the wish development that meets the human needs; Because the specific function effect of plant growth regulator, so itself and general chemical fertilizer or agricultural chemicals etc. are not quite similar.According to the function of plant growth regulator, can be divided into root-growing agent as the one of which, press down the bud agent, lodging resistance agent, the agent of short fruit, defoliant or the like.Wherein, root-growing agent is a kind of conditioning agent of can inducing plant taking root, and is through promoting growth of root system of plant cell and division to reach the effect that inducing plant is taken root as the one of which.

Existing plant establishment agent composition generally can be divided into following several kinds:

Single component plant establishment agent: existing traditional plant establishment agent generally is meant the mixture that some main pharmacodynamics compositions are more single, includes heteroauxin, 2,4-D or ethrel etc.; Above-mentioned main pharmacodynamics composition can make the plant establishment agent after mixing with existing filler.The plant establishment agent of above-mentioned single effective component is very limited for the rooting effect that promotes plant, especially for some plant with difficult rooting, and ornamental trees and shrubs etc. for example.

The composite plant root-growing agent: the composite plant root-growing agent is an existing comparatively novel plant growth regulators, be by after the above-mentioned two or more active drug effect composition proportion as the one of which, and is mixed with filler again.Though composite plant root-growing agent composition is not single, existing composite plant root-growing agent is still more limited when being applied to plant with difficult rooting, the trees that the trunk that especially need transplant is thicker etc.

In addition, existing plant establishment agent generally is that employing is soluble in water with root-growing agent in order to improve the degree of absorption of root system of plant cell to it, root system of plant is immersed carry out cuttage or transplanting in the root-growing agent solution after a period of time more then.In view of the foregoing, the formulation of existing plant establishment agent mainly is following several kinds of formulations:

Pulvis: when the plant establishment agent was pulvis, it can be through the root-growing agent solution of processing soluble in water, and it is auxiliary as stated above plant to be taken root then.Pulvis can also be located around it directly being applied ground, root system of plant place, and then the occupation mode of watering a little water is come plant is taken root auxiliary.Above-mentioned dual mode all can be more or less in the dilution of pulvis generation dust from flying and the phenomenon of drift, healthy just very unfavorable for the user is easy to generate pneumoconiosis like this; After the medicinal powder drift for around will produce certain side effect to its growth for other non-effect plants; And also can use a large amount of water in the dilution of pulvis, this just is not easy to use for the water-deficient area.

Liquid preparation: when the plant establishment agent was liquid preparation, its effect did not just have pulvis obvious; This mainly is that rooting efficiency is obvious because the level of activity of the effective component in the pulvis can be kept the long time, and it generally is to be configured to just use immediately behind the solution in use; And in the liquid preparation level of activity of effective component usually can receive solvent and other auxiliary elements do each other with and inactivation, thereby the chemical degradation of medicine takes place, it is not obvious to use the back rooting efficiency like this.In addition, the volume of liquid preparation own is bigger, is to carry, transport or store all inconveniences.

Summary of the invention

In view of this, the present invention provides a kind of plant establishment agent composition, and said composition can avoid occurring the phenomenon of airborne dust and drift preferably when improving the plant establishment effect, reduce the use of the dilution water yield, and it is more convenient that it is used.

For solving above technical problem, technical scheme of the present invention is to adopt a kind of solid pharmaceutical preparation type plant establishment agent composition of non-powdery, and said plant establishment agent composition includes following component, each component by quality ratio:

A, at least a NAA and derivative and at least a plant establishment active component that is selected from indolebutyric acid, its derivative, heteroauxin and derivative thereof of being selected from of 0.001%-10%;

B, 1%-10% boric acid compound; With

C, all the other are pharmaceutic adjuvant.

Preferably, said plant establishment active component is at least a NAA and derivative and at least a indolebutyric acid and the derivative thereof of being selected from of being selected from.

Preferably, said plant establishment active component is NAA and indolebutyric acid.

Preferably, the mass ratio of NAA and indolebutyric acid is 1:0.1-10 in the said plant establishment active component.

Preferably, said boric acid compound is at least aly to be selected from boric acid, borax, kodalk, dipotassium tetraborate, four water, eight Boratexes, to gather potassium borate or boron oxide.

Preferably, said plant establishment agent composition includes following component, each component by quality ratio:

A, 0.01%-5% NAA and indolebutyric acid;

B, 1%-10% boric acid compound; With

C, all the other are pharmaceutic adjuvant.

Preferably, said plant establishment agent composition includes following component, each component by quality ratio:

A, 0.01%-2% NAA and indolebutyric acid;

B, 1%-5% boric acid compound; With

C, all the other are auxiliary material.

Preferably, said plant establishment agent composition is graininess or bulk.

Preferably, said pharmaceutic adjuvant is at least a disintegrant, colouring agent, lubricant and the surfactant of being selected from.

Compared with prior art, the operation principle of plant establishment agent composition of the present invention is following:

Plant establishment agent composition of the present invention adopts the solid pharmaceutical preparation type of non-powdery, and said plant establishment agent composition includes following component, each component by quality ratio:

A, at least a NAA and derivative and at least a plant establishment active component that is selected from indolebutyric acid, its derivative, heteroauxin and derivative thereof of being selected from of 0.001%-10%;

B, 1%-10% boric acid compound; With

C, all the other are pharmaceutic adjuvant.

Plant establishment agent composition is the solid pharmaceutical preparation type of non-powdery among the present invention, and existing solid pharmaceutical preparation has generally comprised granule and block agent, and said granule is divided into big granula and granula subtilis according to the big I of its particle diameter; And it can be divided into globule, stylus or tablet according to the shape of granule; Block agent can be divided into block agent of regular shape such as the block agent of globule, stylus and irregular shape equally according to its shape among the present invention.Adopt the solid pharmaceutical preparation type plant establishment agent composition of non-powdery at first can in its use, avoid occurring the phenomenon of airborne dust and drift preferably among the present invention, significantly reduce probability that the user is hurt and because of the medicinal powder drift to around other non-influences that act on plants; In addition; The method for using of after plant establishment agent composition of the present invention in use removes existing water and dissolves root system of plant being soaked; It can also directly spread fertilizer over the fields in soil or landfill near root system of plant; So just can reduce the consumption of water in the use, make plant establishment agent of the present invention can directly apply to the comparatively area of arid such as lack of water, few water.

Plant establishment agent composition is when adopting the solid pharmaceutical preparation type of non-powdery among the present invention; In order to make it be more convenient for using; Promptly can directly spread fertilizer over the fields plant establishment agent composition of the present invention in soil or near the mode of landfill root system of plant reaches the purpose of plant establishment, so the inventor have carried out a large amount of research to the composition and the proportioning of existing plant establishment agent composition through above-mentioned.The inventor finds, if existing plant establishment agent composition only is simply to change its formulation into granule or block agent, and with its directly spread fertilizer over the fields with soil in after, instead root system of plant is not better grown, but the situation of root system atrophy occurs; Through discovering, the proportioning content of active ingredient is higher in the existing plant establishment agent composition, can cause root system of plant because of the less phenomenon that water loss occurs of surrounding environment moisture without the direct use of dilution.But after after the active ingredient proportioning that will have the plant establishment agent now reduces, changing granule again into and directly spreading fertilizer over the fields, though the situation of atrophy does not appear in the root system of plant, it does not obtain the obvious growth effect yet.

In view of the foregoing, the inventor through discover among the present invention plant establishment agent composition fully and can directly spread fertilizer over the fields in soil in use or landfill near root system of plant, and the root system of gained plant can access growth better.

The amide derivatives that NAA described in the plant establishment agent composition of the present invention and derivative thereof include NAA, NAA, the medicinal salts of NAA, the ester derivative of NAA etc.; NAA described in the present invention is highly active plant establishment conditioning agent, and the concentration that it can be lower can be carried out growth promoting function preferably to root system of plant; NAA described in the present invention and derivative thereof include following material: NAA, naphthalene acetamide, naphthalene acetophenone methylamine, naphthalene acethydrazide, methyl sodium salt, methyl calcium salt, methyl magnesium salts, methyl sylvite, naphthalene methyl acetate, naphthalene ethyl acetate, methyl phenyl ester, methyl benzene methyl etc.

Indolebutyric acid described in the plant establishment agent composition and derivative thereof and heteroauxin and derivative thereof include ester derivative and the heteroauxin of medicinal salts, the indolebutyric acid of amide derivatives, the indolebutyric acid of indolebutyric acid, indolebutyric acid, the amide derivatives of heteroauxin, the medicinal salts of heteroauxin, the ester derivative of heteroauxin among the present invention.Indolebutyric acid and heteroauxin are plant establishment and regulate active component among the present invention, and its independent usage amount is wanted a little higher than NAA.

The mass ratio of the shared plant establishment agent composition of the present invention of the plant establishment active component described in the present invention is 0.001%-10%; When the plant establishment active component was higher than 10% ratio among the present invention, after the resulting composition preparation directly spread fertilizer over the fields, root system of plant had certain damage; And when the plant establishment active component was lower than 0.001%, after the resulting composition preparation directly spread fertilizer over the fields, root system of plant can not get growth effect preferably.

The described boric acid compound of plant establishment agent composition includes boric acid, borax, kodalk, dipotassium tetraborate, four water, eight Boratexes, gathers potassium borate or boron oxide among the present invention; Boron element can be participated in the merismatic cell differentiation of the growing tips of the plant among the present invention, promotes root system development; Thereby in plant establishment agent composition of the present invention, add boric acid compound, can make itself and other component play the effect of Synergistic effectively.

The mass ratio of the shared plant establishment agent composition of the present invention of the boric acid compound described in the present invention is 1%-10%; When mesoboric acid compounds of the present invention was higher than 10% ratio, resulting composition preparation acidity was stronger, and is unfavorable for the root system of the plant of partly liking alkaline environment; And when mesoboric acid compounds of the present invention was lower than 1% ratio, the rooting effect of resulting composition preparation was just not obvious, and root system of plant can not get growing preferably.

In addition; Pharmaceutic adjuvant described in the present invention can be that existing one or more are used to prepare the various auxiliary materials of plant establishment agent, includes disintegrants such as ammonium sulfate, calcium chloride, ammonium chloride, alginic acid, sodium chloride, magnesium chloride, urea, bentonite, magnesium chloride, sodium sulphate, ammonium polyphosphate, PA 800K, polyvinylpyrrolidone, propyl cellulose, starch, Explotab, sodium carboxymethyl starch, glucose; Reddish brown, chocolate brown, light yellow, colouring agents such as acidity is yellowish-brown, disperse blue, reactive blue, light green, iron oxide red; Lubricants such as talcum powder, stearic acid, odium stearate, light mineral oil, stearate, polyethylene glycol, graphite, Sodium Benzoate, sodium acetate;

The agent of plant establishment described in the present invention composition can also include existing various function additive or nutritional substance except that each above-mentioned composition; At the composition that does not change active component of plant establishment described in the present invention and boric acid compound is under the situation of ratio; Appropriateness is added function additive or nutritional substance in pharmaceutic adjuvant, comprise bactericide: fenaminosulf, dislike mould spirit, trichlamide, pcnb, thiophanate-methyl, mancozeb etc. or nutriment: glyceraldehyde, sucrose, gum Arabic, amino acid etc.The interpolation of above-mentioned functions auxiliary agent or nutritional substance makes plant establishment agent composition of the present invention except that short effect of taking root, and also can carry out many-sided adjusting to plant, makes it carry out better short rooting effect to plant.

Further, the agent of plant establishment described in the present invention composition preferably adopts graininess or bulk.Outside the particle-removing agent of solid pharmaceutical preparation type and block agent of non-powdery described in the present invention, also include paste dosage-form and pill etc.; Though said cream, pill can both avoid the use of the phenomenon that occurs airborne dust in the process, from the angle that person easy to use uses, it is granule or block agent that the present invention preferably adopts said plant establishment agent composition; These two kinds of formulation persons easy to use get final product through directly spreading fertilizer over the fields in soil or near the mode of landfill root system of plant.

Further, the active component of plant establishment described in the present invention is preferably at least a NAA and derivative and at least a indolebutyric acid and the derivative thereof of being selected from of being selected from.The above-mentioned embodiment of preferred employing can be so that its rooting efficiency to plant be more obvious among the present invention; Indolebutyric acid and derivative thereof have higher activity with respect to heteroauxin and derivative thereof.Preferred, the active component of plant establishment described in the present invention is preferably NAA and the indolebutyric acid of 0.001%-10%.

Further, the mass ratio of preferred said NAA and indolebutyric acid is 1:0.1-10 among the present invention.The mass ratio of αNai Yisuan and indolebutyric acid is higher than 1:0.1 in the present invention, or when being lower than 1:10, the growing state of root system of plant is just not ideal enough.

Further, boric acid compound described in the present invention is preferably and at least aly is selected from boric acid, borax, kodalk, dipotassium tetraborate, four water, eight Boratexes, gathers potassium borate or boron oxide.Boric acid compound described in the present invention also includes metaboric acid, tetraboric acid, gathers the derivative of boric acid or boric acid, like materials such as borate, boric acid acid amides except that above-mentioned several kinds.

Further, the agent of plant establishment described in the present invention composition preferably includes following component, and each component is in weight ratio:

The NAA of A, 0.01%-5% and indolebutyric acid;

B, 1%-10% boric acid compound; With

C, all the other are pharmaceutic adjuvant.

Further, the agent of plant establishment described in the present invention composition preferably includes following component, and each component is in weight ratio:

The NAA of A, 0.01%-2% and indolebutyric acid;

B, 1%-5% boric acid compound; With

C, all the other are pharmaceutic adjuvant.

Further, pharmaceutic adjuvant described in the present invention is preferably at least a disintegrant, colouring agent, lubricant, the surfactant of being selected from.Pharmaceutic adjuvant described in the plant establishment agent composition of the present invention also includes binding agent and filler etc. except that above-mentioned several kinds.Said binding agent includes polyvinyl alcohol, polyethylene glycol, lignin, gelatin, polyacrylamide etc.; Said filler includes white carbon, clay, diatomite, mica, talcum, starch, dextrin etc.

Plant establishment agent composition of the present invention can adopt the method for existing preparation solid pharmaceutical preparation such as granule or block agent to prepare.

Embodiment

In order to make those skilled in the art understand technical scheme of the present invention better, the present invention is done further detailed description below in conjunction with specific embodiment.

With the new fragrant camphor tree seedling of transplanting of same big Tanaka is subjects, and this land for growing field crops on average is divided into some intervals, and each interval employed root-growing agent composition is following reference examples 1-14, common commercially available root-inducing powder and taking root liquid.Choose each interval part plant before the chemical applied to plants, measure the average root quantity, length in this interval and fragrant camphor tree seedling quantity that should the interval plant; Average root quantity, length and the plant sapling that should the interval plant of observing and writing down each interval plant after five months again in the dispenser quantity that becomes to live; Calculate long growth rate of radical growth rate, root and the survival rate of reference examples 1-14, common commercially available root-inducing powder and taking root liquid plant after using then respectively, and the result is listed in the table one.

Reference examples 1

Take by weighing each material according to following proportioning:

NAA---1%; Indolebutyric acid---2%; Boric acid---5%; Residue is disintegrant-1 and filler-1---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 1.

Reference examples 2

Take by weighing each material according to following proportioning:

αNai Yisuan---1%; Heteroauxin---2%; Boric acid---5%; Residue is disintegrant-1 and filler-1---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 2.

Reference examples 3

Take by weighing each material according to following proportioning:

NAA---3%; Boric acid---5%; Residue is disintegrant-2 and filler-2---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 3.

Reference examples 4

Take by weighing each material according to following proportioning:

Indolebutyric acid---3%; Boric acid---5%; Residue is disintegrant-2 and filler-2---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 4.

Reference examples 5

Take by weighing each material according to following proportioningization:

Heteroauxin---3%; Boric acid---5%; Residue is disintegrant-3 and filler-3---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 5.

Reference examples 6

Take by weighing each material according to following proportioning:

NAA---1%; The indolebutyric acid benzene methyl---2%; Triethyl borate---5%; Residue is disintegrant-3 and filler-1---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 6.

Reference examples 7

Take by weighing each material according to following proportioning:

αNai Yisuan---1%; The indolebutyric acid ethyl ester---2%; Kodalk---5%; Residue is disintegrant-1 and filler 3---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 7.

Reference examples 8

Take by weighing each material according to following proportioning:

α-naphthalene acetamide---1%; The heteroauxin benzene methyl---2%; Trimethylborate---5%; Residue is disintegrant-2 and filler-1---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 8.

Reference examples 9

Take by weighing each material according to following proportioning:

The αNai Yisuan sodium salt---1%; The heteroauxin methyl esters---2%; Boron oxide---5%; Residue is disintegrant-1 and filler-2---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 9.

Reference examples 10

Take by weighing each material according to following proportioning:

NAA---1%; Indolebutyric acid---1%; Heteroauxin---1%; Dipotassium tetraborate---5%; Residue is disintegrant-3 and filler-2---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 10.

Reference examples 11

NAA---1%; Indolebutyric acid---2%; Boric acid---5%; Residue is disintegrant-3 and filler-2---92%.

After above-mentioned substance weighed up by proportional quantity, pulverize, mix, dissolve and be prepared into pharmaceutical solutions reference examples 11 according to the existing method for preparing pharmaceutical solutions.

Reference examples 12

NAA---1%; Indolebutyric acid---2%; Borax---5%; Residue is disintegrant-3 and filler-2---92%.

After above-mentioned substance weighed up by proportional quantity, pulverize, mix, dissolve and be prepared into pharmaceutical solutions reference examples 12 according to the existing method for preparing pharmaceutical solutions.

Reference examples 13

NAA---1%; The indoles butyramide---2%; The boric acid triacetamide---5%; Residue is disintegrant-3 and filler-2---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 13.

Reference examples 14

The αNai Yisuan benzene methyl---1%; Indolebutyric acid---2%; Four water, eight Boratexes---5%; Residue is disintegrant-3 and filler-2---92%.

After above-mentioned substance weighed up by proportional quantity, according to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess reference examples 14.

Above-mentioned disintegrant-1 is that calcium chloride, disintegrant-2 are propyl cellulose, and disintegrant-3 is a glucose; Said filler-1 is a clay, and filler-2 is a starch, and filler-3 is a dextrin, down together.

The result of reference examples 1-14 institute testing index and the use mensuration result of common commercially available root-inducing powder and taking root liquid are listed in the table one:

Table one

Embodiment 1-10:

Embodiment 1

Take by weighing each material according to following proportioning:

αNai Yisuan---0.01%; Indolebutyric acid---2%; Boric acid---5%; Residue is lubricant-1, disintegrant-1 and filler-1.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess embodiment 1; Gained embodiment 1 is spread fertilizer over the fields in the soil of the fragrant camphor tree seedling of new transplanting plant, measure the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Embodiment 2

Take by weighing each material according to following proportioning:

NAA---0.01%; Indolebutyric acid---9%; Boric acid---5%; Residue is colouring agent-1, lubricant-2, disintegrant-2 and filler-1.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess embodiment 2; Gained embodiment 2 is spread fertilizer over the fields in the soil of the fragrant camphor tree seedling of new transplanting plant, measure the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Embodiment 3

Take by weighing each material according to following proportioning:

NAA---1%; Indolebutyric acid---9%; Boric acid---5%; Residue is disintegrant-1 and filler-1.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into block embodiment 3; Gained embodiment 3 landfills in the soil of new transplanting plant Chinese parasol tree sapling, are measured the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Embodiment 4

Take by weighing each material according to following proportioning:

NAA---0.0005%; Indolebutyric acid---0.0005%; Boric acid---5%; Residue is colouring agent-2, surfactant-1, disintegrant-1 and filler-1.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into block embodiment 4; Gained embodiment 4 landfills in the soil of new transplanting plant apple sapling, are measured the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Embodiment 5

Take by weighing each material according to following proportioning:

NAA---0.1%; Indolebutyric acid---1%; Boric acid---5%; Residue is surfactant-2, disintegrant-3 and filler-2.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into dripping pill shape embodiment 5; Gained embodiment 5 is imposed in the soil of the fragrant camphor tree seedling of new transplanting plant, measure the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Embodiment 6

Take by weighing each material according to following proportioning:

NAA---5%; Indolebutyric acid---5%; Boric acid---5%; Residue is disintegrant-2 and filler-3.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into paste embodiment 6; Gained embodiment 6 is imposed in the soil of the fragrant camphor tree seedling of new transplanting plant, measure the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Embodiment 7

Take by weighing each material according to following proportioning:

αNai Yisuan---1%; Indolebutyric acid---2%; Boric acid---1%; Residue is material-3 for disintegrant-3 with filling out.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into block embodiment 7; Gained embodiment 7 landfills in the soil of new transplanting plant clover, are measured the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Embodiment 8

Take by weighing each material according to following proportioning:

NAA---1%; Indolebutyric acid---2%; Boric acid---10%; Residue is disintegrant-1 and filler-1.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess embodiment 8; Gained embodiment 8 is spread fertilizer over the fields in the soil of new transplanting plant wheat, and the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling is measured in five fragrant month backs.

Embodiment 9

Take by weighing each material according to following proportioning:

NAA---0.5%; Indolebutyric acid---0.5%; Boric acid---3%; Residue is disintegrant-1 and filler-1.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into graininess embodiment 9; Gained embodiment 9 is spread fertilizer over the fields in the soil of new transplanting plant sugarcane, measure the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Embodiment 10

Take by weighing each material according to following proportioning:

NAA---1%; Indolebutyric acid---1%; Boric acid---5%; Residue is surfactant-3, lubricant-2, disintegrant-1 and filler-1.

After above-mentioned substance weighed up by proportional quantity; According to the existing method for preparing granule pulverize, mixing, granulation be prepared into block embodiment 10; Gained embodiment 10 landfills in the soil of new transplanting plant corn, are measured the survival rate of its radical growth rate, root long growth rate, drought resisting index and fragrant camphor tree seedling after five months.

Above-mentioned lubricant-1 is an odium stearate, and lubricant-2 is a graphite; Colouring agent-1 is reddish brown, and colouring agent-2 is light green; Surfactant-1 is a saponin, and surfactant-2 is an alkylsulfonate, and surfactant-3 is the dibutyl naphthalene sulfonate.

The foregoing description 1-10 measures long growth rate of radical growth rate, root of its use back plant and the survival rate of plant according to the mensuration mode of reference examples 1-14, and gained is measured the result and listed in the table two.

Table two

Only be preferred implementation of the present invention below, should be pointed out that above-mentioned preferred implementation should not be regarded as limitation of the present invention, protection scope of the present invention should be as the criterion with claim institute restricted portion.For those skilled in the art, do not breaking away from the spirit and scope of the present invention, can also make some improvement and retouching, these improvement and retouching also should be regarded as protection scope of the present invention.

Claims (9)

1. the solid pharmaceutical preparation type plant establishment agent composition of a non-powdery, it is characterized in that: said plant establishment agent composition includes following component, each component by quality ratio:

A, at least a NAA and derivative and at least a plant establishment active component that is selected from indolebutyric acid, its derivative, heteroauxin and derivative thereof of being selected from of 0.001%-10%;

B, 1%-10% boric acid compound; With

C, all the other are pharmaceutic adjuvant.

2. plant establishment agent composition according to claim 1 is characterized in that: said plant establishment active component is at least a NAA and derivative and at least a indolebutyric acid and the derivative thereof of being selected from of being selected from.

3. plant establishment agent composition according to claim 2 is characterized in that: said plant establishment active component is NAA and indolebutyric acid.

4. plant establishment agent composition according to claim 3 is characterized in that: the mass ratio of NAA and indolebutyric acid is 1:0.1-10 in the said plant establishment active component.

5. plant establishment agent composition according to claim 1 is characterized in that: said boric acid compound is at least aly to be selected from boric acid, borax, kodalk, dipotassium tetraborate, four water, eight Boratexes, to gather potassium borate or boron oxide.

6. plant establishment agent composition according to claim 1 is characterized in that: said plant establishment agent composition includes following component, each component by quality ratio:

A, 0.01%-5% NAA and indolebutyric acid;

B, 1%-10% boric acid compound; With

C, all the other are pharmaceutic adjuvant.

7. plant establishment agent composition according to claim 6 is characterized in that: said plant establishment agent composition includes following component, each component by quality ratio:

A, 0.01%-2% NAA and indolebutyric acid;

B, 1%-5% boric acid compound; With

C, all the other are auxiliary material.

8. according to the described plant establishment agent of arbitrary claim composition among the claim 1-7, it is characterized in that: said plant establishment agent composition is graininess or bulk.

9. plant establishment agent composition according to claim 8 is characterized in that: said pharmaceutic adjuvant is at least a disintegrant, colouring agent, lubricant and the surfactant of being selected from.