CN104692913B - A kind of amino acid fertilizer that can make crop bulb, Fruit and preparation method thereof - Google Patents

Abstract

The present invention relates to a kind of amino acid fertilizer that can make crop bulb, Fruit and preparation method thereof, by following raw material：Amino acid powder, boron fertilizer, monohydrate zinc sulphate, potash fertilizer, citric acid, molybdenum trisulfate, gibberellic acid, αnaphthylacetate sodium, ethanol, surfactant and water mixture form.Preparation method is to be dissolved in amino acid powder water, adding citric acid, and molybdenum trisulfate dissolves to obtain solution A；Boron fertilizer, monohydrate zinc sulphate are put into solution A, and heating for dissolving obtains B solution；Gibberellic acid, which is added in ethanol, to be dissolved, and adds 2 naphthalene sulfonic acid formaldehyde polymer sodium salts, and ethylene glycol monobutyl ether, αnaphthylacetate sodium have dissolved to obtain C solution, B and C solution mixing plus potash fertilizer dissolving.The present invention can provide a variety of middle trace elements for plant growth；Amino acid powder is added to improve soil physico-chemical property, microbiologic population, Drafting Ability and nutrient situation；Plant growth regulator, phosphorus, potash fertilizer can promote crop expansion of corms and Tree Fruit to expand and colour, and improving quality, improve its resistant storage properties.

Description

A kind of amino acid fertilizer that can make crop bulb, Fruit and preparation method thereof

Technical field

The present invention relates to a kind of amino acid fertilizer that can make crop bulb, Fruit and preparation method thereof.

Background technology

Fruit kohlrabi is Cruciferae Brassica genus, 1 new varieties of biennial herb plant kohlrabi.Originate in ground It is extra large littoral, made a variation by leaf with wild cabbage.Its root system is shallow, and stem cripetura, leafage is born on shortening stem, and blade oblong is bluish-green Color, blade face is smooth, and petiole is elongated, and after growing to a certain degree, stem expands, and forms edible meat bulb.Per 100g water Fruit kohlrabi moisture content 91-94g, carbohydrate 2.8-5.2g, crude protein 1.4-2.1g, vitamin C 34-64mg, nutrition grade For A levels.Fruit kohlrabi is rich in vitamin C, has therapeutic action to stomach trouble, there is the effect of analgesic myogenic, and stomach and 12 can be promoted to refer to The healing of enterelcosis；Its moisture and dietary fiber that contain, can wide intestines defaecation, it is anti-to treat constipation, exclude toxin；Contained abundant dimension Raw plain E, play the role of to strengthen immune function of human body；Contained trace element molybdenum, the synthesis of inferior ammonium nitrate can be suppressed, thus with one Fixed cancer-resisting effect.

Late 1990s fruit kohlrabi introduces China from Europe.The fruit kohlrabi of domestic cultivation is mostly from Holland at present The medium-sized new varieties introduced, its thin skin, meat is crisp, and quality is fresh, has the characteristics of mouthfeel of similar pear, apple deeply by each big city Consumer welcomes, and economic benefit is 2-3 times of common kohlrabi.The happiness of fruit kohlrabi is gentle, and the weather of moistening is relatively cold-resistant, also may be used High temperature is endured, but its requirement during expansion of corms to moisture and nutrient is more harsh, and this phase moisture and nutrient supply are not When the cracking and deformity that can cause bulb, so as to reduce commodity value and economic benefit.

Expanding for Tree Fruit directly affects its quality and sale with uniform coloring degree.Listing fruit generally existing is swollen at present Greatly, uneven phenomenon is coloured, largely effects on the income of orchard worker.Nutrient supply is inadequate or nutrient supply ratio not Coordination is that Tree Fruit expands, colours uneven major reason.Reaching the purpose of fruit tree high yield and high quality needs heavy dressing organic fertilizer, note Meaning N P and K and various micro- reasonable cooperations, focus on K Amounts.

CN102372511 discloses a kind of compound method of special fertilizer for pitaya, is that chicken manure, the pig manure that will be dried crush, Fermentation, deodorization, are well mixed, comminutor is made with the cottonseed cake after crushing, sulfuric acid ethamine, potassium sulfate, bone meal, amino acid chelated magnesium Grain, it can make dragon fruit Fruit.

The content of the invention

The purpose of the present invention is to be directed to above-mentioned present situation, it is desirable to provide one kind can promote fruit kohlrabi to expand, Tree Fruit Expand and uniform coloring, a kind of amino acid fertilizer that can make crop bulb, Fruit of storage endurance.

The implementation of the object of the invention is a kind of amino acid fertilizer that can make crop bulb, Fruit, by following heavy The raw material mixture of amount ratio forms, amino acid powder 20-50%, boron fertilizer 1-4%, monohydrate zinc sulphate 2-8%, potash fertilizer 6-20%, lemon Sour 1-5%, molybdenum trisulfate 1-5%, gibberellic acid 0.1-0.5%, α-naphthaleneacidsodium 0.1-0.5%, ethanol 0.1-0.5%, surface are lived Property agent 0.2-0.6%, remaining is water；

The boron fertilizer is the weight ratio 1 of boric acid or borax or boric acid and borax mixture, boric acid and borax:1；

The potash fertilizer is potassium dihydrogen phosphate and potassium alginate, and wherein potassium dihydrogen phosphate and potassium alginate weight ratio is 3:1；

The surfactant is 2- naphthalene sulfonic acid formaldehyde polymers sodium salt and ethylene glycol monobutyl ether, wherein 2- naphthalenesulfonateformaldehyde formaldehydes Polymer sodium salt and ethylene glycol monobutyl ether weight ratio are 1:1.

It is a kind of can make crop bulb, Fruit amino acid fertilizer preparation method, preparation comprises the following steps that：

1) weight is dissolved than being put into for 20-50% amino acid powder in water, adds 1-5% citric acids, 1-5% molybdenum trisulfates Dissolving, obtains solution A；

2) weight is put into solution A than the boron fertilizer for 1-4%, 2-8% monohydrate zinc sulphate, it is molten that heating for dissolving obtains B Liquid；

The boron fertilizer is the weight ratio 1 of boric acid or borax or boric acid and borax mixture, boric acid and borax:1；

3) weight is dissolved than being put into for 0.1-0.5% gibberellic acid in 0.1-0.5% ethanol, adds surfactant C solution is obtained after 0.2-0.6%, α-naphthaleneacidsodium 0.1-0.5% dissolving completely；

The surfactant is 2- naphthalene sulfonic acid formaldehyde polymers sodium salt and ethylene glycol monobutyl ether, wherein 2- naphthalenesulfonateformaldehyde formaldehydes Polymer sodium salt and ethylene glycol monobutyl ether weight ratio are 1:1；

4) B solution and C solution are mixed, are stirring evenly and then adding into weight than the potash fertilizer for 6-20%, add water to very, Dissolving is complete, produces；

The potash fertilizer is potassium dihydrogen phosphate and potassium alginate, and wherein potassium dihydrogen phosphate and potassium alginate weight ratio is 3:1.

Amino acid fertilizer prepared by the present invention can provide required a variety of middle trace elements for plant growth；Wherein organic matter After the addition punching of amino acid powder is applied, on the one hand improve soil physico-chemical property, on the other hand improve soil microbial community, so as to have Effect improves soil cultivation performance and nutrient situation；By the collective effect of plant growth regulator and inorganic phosphorus fertilizer and potash fertilizer, promote Enter expanding for the bulbs such as fruit kohlrabi and expanding and colouring for Tree Fruit, improve its quality, improve its resistant storage properties.Use this The amino acid fertilizer prepared is invented, crop expansion of corms is obvious, expanding property of Tree Fruit, uniform coloring degree, quality and storage endurance Property is improved.

Amino acid fertilizer prepared by the present invention is applicable to various fruits, the bulb especially suitable for fruit kohlrabi-Li Pu Expand, make tomato, honey peach Fruit, hardness increase, uniform coloring.

Embodiment

A kind of amino acid fertilizer that can make crop bulb, Fruit, by following weight than raw material mixture form, amino It is sour powder 20-50%, boron fertilizer 1-4%, monohydrate zinc sulphate 2-8%, potash fertilizer 6-20%, citric acid 1-5%, molybdenum trisulfate 1-5%, red mould Sour 0.1-0.5%, α-naphthaleneacidsodium 0.1-0.5%, ethanol 0.1-0.5%, surfactant 0.2-0.6%, remaining is water.

Preparation method is to be dissolved in amino acid powder water, adding citric acid, and molybdenum trisulfate dissolves to obtain solution A；Boron fertilizer, sulfuric acid monohydrate Zinc is put into solution A, and heating for dissolving obtains B solution；Gibberellic acid, which is added in ethanol, to be dissolved, and adds 2- naphthalene sulfonic acid formaldehyde polymer sodium Salt, ethylene glycol monobutyl ether, α-naphthaleneacidsodium have dissolved to obtain C solution, B and C solution mixing plus potash fertilizer, and dissolving is complete, produces.

The present invention is described in detail with specific embodiment below：

Embodiment 1：

1) weight is dissolved than being put into for 34% amino acid powder in water, adds 3% citric acid, the dissolving of 1% molybdenum trisulfate, obtain To solution A；

2) weight is put into solution A than the boric acid for 3%, 5% monohydrate zinc sulphate, heating for dissolving obtains B solution；

3) weight is dissolved than being put into for 0.1% gibberellic acid in 0.4% ethanol, adds surfactant 2- naphthalene sulfonic acids Yuban sodium salt 0.25%, ethylene glycol monobutyl ether 0.25%, α-naphthaleneacidsodium 0.3% obtain C solution after dissolving completely.

4) B solution and C solution are mixed, is stirring evenly and then adding into weight than potash fertilizer (potassium dihydrogen phosphate and the sea for 16% Potassium alginate weight ratio is 3:1), add water to very, dissolving is complete, produces a kind of amino that can make crop bulb, Fruit Sour fertilizer.

Amino acid fertilizer application process prepared by the present invention is applied for punching or foliage-spray, is not required to additionally increase labour, saves Cost is saved.

The applicant is by a kind of amino acid fertilizer that can make crop bulb, Fruit obtained by the present embodiment to fruit kohlrabi Indigo plant-Li Pu has made expansion of corms experiment.

Test method：Contrast test was carried out in Hubei Wuhan in 2013, August seeding and seedling raising on the 10th, September is colonized on the 5th, fixed Watered immediately after plant, pour again once within the 2nd day permeable, pour within every 2 days after field planting 1 water, company pours 2 times, intertills 1 time after slow seedling, then Restraining the growth of seedlings 10 days or so, watering in time afterwards, when starting to expand to bulb, per a water is poured within 3-5 days, harvested November 6.Cell face Product is 20m²。

Test group uses the present embodiment amino acid fertilizer：Punching is carried out October 9 and October 16 to apply.

Control group and the crosscutting diameter of the bulb of test group are as shown in table 1.

As a result show：After administration embodiment amino acid fertilizer 1 time, the crosscutting diameter of bulb is increased to test group by 7.63cm 10.41cm, value added 2.78cm, 1.58cm high compared with the 1.20cm of control group, increasing degree 36.44%, higher than control group 15.73%.After administration 1 preparation of embodiment 2 times, the crosscutting diameter of bulb increases to 11.70cm, amplification 53.34%, control Group amplification is only 26.21%.

The control group of table 1 and the crosscutting diameter contrast of the bulb of test group

Embodiment 2：With embodiment 1, the difference is that,

The weight ratio of raw material is：Amino acid powder 30%, borax 4%, monohydrate zinc sulphate 8%, potash fertilizer (potassium dihydrogen phosphate and sea Potassium alginate weight ratio is 3:1) 14%, citric acid 2%, molybdenum trisulfate 2%, gibberellic acid 0.3%, α-naphthaleneacidsodium 0.1%, ethanol 0.5%th, surfactant 2- naphthalene sulfonic acid formaldehyde polymers sodium salt 0.1%, ethylene glycol monobutyl ether 0.1%, remaining is water.

The time is applied in expansion of corms test method, punching：With embodiment 1.

Control group and the crosscutting diameter of the bulb of test group are as shown in table 2

The control group of table 2 and the crosscutting diameter contrast of the bulb of test group

As a result show：After administration the present embodiment amino acid fertilizer 1 time, the crosscutting diameter of bulb is increased test group by 7.06cm To 9.04cm, value added 1.98cm, 0.88cm high compared with the 1.10cm of control group, increasing degree 28.05%, higher than control group 15.58%.After administration 2 preparation of embodiment 2 times, the crosscutting diameter of bulb increases to 10.56cm, amplification 49.58%, control Group amplification is only 26.20%.

Embodiment 3：With embodiment 1, the difference is that,

The weight ratio of raw material is：Amino acid powder 50%, boric acid 2%, monohydrate zinc sulphate 6%, potash fertilizer (potassium dihydrogen phosphate and sea Potassium alginate weight ratio is 3:1) 12%, citric acid 5%, molybdenum trisulfate 1%, gibberellic acid 0.5%, α-naphthaleneacidsodium 0.2%, ethanol 0.3%th, surfactant 2- naphthalene sulfonic acid formaldehyde polymers sodium salt 0.15%, ethylene glycol monobutyl ether 0.15%, remaining is water.

Test kind：Tomato --- Central Asia 202-F1

Test method：Sowed on July 20th, 2013, August is transplanted at dusk on the 22nd, and per the row of furrow kind 2, plot area is 20m², spacing in the rows 30cm, watered in plant.After live seedling, from 2m or so bamboo poles, inserted firmly in the ditch side away from plant 8-10cm, and Connection is in " people " cabinet frame, when plant reach a certain height, is tied up by several times with cloth or plastic ties climing, the later stage pinches bud picking in good time.

Test group uses the present embodiment amino acid fertilizer：Punching is carried out October 10 and October 17 to apply.

Control group and the crosscutting diameter of the tamato fruit of test group are as shown in table 3：

The control group of table 3 and the crosscutting diameter contrast of the tamato fruit of test group

As a result show：Test group is after administration the present embodiment amino acid fertilizer 1 time, and the crosscutting diameter of tamato fruit is by 4.54cm Increase to 4.67cm, value added 0.13cm, 0.09cm high compared with the 0.04cm of control group, increasing degree 2.86%, higher than pair According to the 0.88% of group.After administration 3 preparation of embodiment 2 times, the crosscutting diameter of tamato fruit increases to 4.93cm, and amplification is 8.59%, control group amplification is only 5.29%.Data are shown in terms of the hardness of fruit：The test group hardness of fruit is compared with control group increase 3.35%, and the coloring of test group tomato is uniform compared with control group.

Embodiment 4：With embodiment 3, the difference is that,

The weight ratio of raw material is：Amino acid powder 45%, borax 2%, monohydrate zinc sulphate 4%, potash fertilizer (potassium dihydrogen phosphate and sea Potassium alginate weight ratio is 3:1) 10%, citric acid 4%, molybdenum trisulfate 5%, gibberellic acid 0.2%, α-naphthaleneacidsodium 0.4%, ethanol 0.3%th, surfactant 2- naphthalene sulfonic acid formaldehyde polymers sodium salt 0.2%, ethylene glycol monobutyl ether 0.2%, remaining is water.

Control group and the crosscutting diameter of the tamato fruit of test group are as shown in table 4：

The control group of table 4 and the crosscutting diameter contrast of the tamato fruit of test group

As a result show：After administration 4 preparation of embodiment 1 time, the crosscutting diameter of tamato fruit is increased to test group by 3.95cm 4.78cm, value added 0.83cm, 0.76cm high compared with the 0.07cm of control group, increasing degree 21.01%, higher than control group 1.77%.After administration 4 preparation of embodiment 2 times, the crosscutting diameter of tamato fruit increases to 5.29cm, amplification 33.92%, control Group amplification is only 9.11%.Data are shown in terms of the hardness of fruit：The test group hardness of fruit is tested compared with control group increase by 5.01% Group tomato coloring is uniform compared with control group.Invention formulation application process is applied for punching simultaneously, is not required to additionally increase labour, saves Cost.

Embodiment 5：With embodiment 1, the difference is that,

The weight ratio of raw material is：Amino acid powder 28%, boric acid 4%, monohydrate zinc sulphate 6%, potash fertilizer (potassium dihydrogen phosphate and sea Potassium alginate weight ratio is 3:1) 20%, citric acid 5%, molybdenum trisulfate 3%, gibberellic acid 0.4%, α-naphthaleneacidsodium 0.5%, ethanol 0.3%th, surfactant 2- naphthalene sulfonic acid formaldehyde polymers sodium salt 0.15%, ethylene glycol monobutyl ether 0.15%, remaining is water.

Test kind：Honey peach --- peace agriculture water honey

Test method：Honey peach Field information experiment is carried out in March, 2013 to July, is that stock is transferred with 3 years setation peaches Peace agriculture water honey is connect, seeding row spacing is 1.5m × 2.0m, and each column is planted trees 10.

Test group uses the present embodiment amino acid fertilizer：Punching is carried out May 2 and May 9 to apply.

The crosscutting diameter of honey peach fruit of control group and test group is as shown in table 5 below：

The control group of table 5 and the crosscutting diameter contrast of the honey peach fruit of test group

As a result show：After administration 5 preparation of embodiment 1 time, the crosscutting diameter of honey peach fruit is increased test group by 4.23cm To 4.83cm, value added 0.60cm, 0.32cm high compared with the 0.28cm of control group, increasing degree 14.18%, higher than control group 6.62%.After 5 preparation of embodiment 2 times is applied, the crosscutting diameter of honey peach fruit increases to 5.36cm, amplification 26.71%, Control group amplification is only 13.95%.Data are shown in terms of fruit color area：Test group fruit color area is compared with control group increase 4.69%, while invention formulation application process is applied for punching, is not required to additionally increase labour, saves cost.

Embodiment 6：With embodiment 1, the difference is that,

The weight ratio of raw material is：(boric acid and borax weight ratio are 1 for amino acid powder 48%, boron fertilizer::1) 4%, sulfuric acid monohydrate (potassium dihydrogen phosphate and potassium alginate weight ratio are 3 for zinc 2%, potash fertilizer:1) 6%, citric acid 1%, molybdenum trisulfate 4%, gibberellic acid 0.1%th, α-naphthaleneacidsodium 0.2%, ethanol 0.1%, surfactant 2- naphthalene sulfonic acid formaldehyde polymers sodium salt 0.3%, ethylene glycol Monobutyl ether 0.3%, remaining is water.

Embodiment 7：With embodiment 1, the difference is that,

The weight ratio of raw material is：Amino acid powder 20%, boric acid 1%, monohydrate zinc sulphate 7%, potash fertilizer 18%, citric acid 5%, Molybdenum trisulfate 5%, gibberellic acid 0.2%, α-naphthaleneacidsodium 0.2%, ethanol 0.5%, surfactant 2- naphthalene sulfonic acid formaldehyde polymers Sodium salt 0.25%, ethylene glycol monobutyl ether 0.25%, remaining is water.

Embodiment 8：With embodiment 1, the difference is that,

The weight ratio of raw material is：Amino acid powder 24%, the boron fertilizer (weight of boric acid and borax ratio 1:1) 3%, monohydrate zinc sulphate 3%th, (potassium dihydrogen phosphate and potassium alginate weight ratio are 3 to potash fertilizer:1) 8%, citric acid 5%, molybdenum trisulfate 5%, gibberellic acid 0.3%, α-naphthaleneacidsodium 0.2%, ethanol 0.5%, surfactant 2- naphthalene sulfonic acid formaldehyde polymers sodium salt 0.3%, ethylene glycol monobutyl ether 0.3%, remaining is water.

Embodiment 9：With embodiment 1, the difference is that,

The weight ratio of raw material is：Amino acid powder 37%, borax 3%, monohydrate zinc sulphate 8%, potash fertilizer (potassium dihydrogen phosphate and sea Potassium alginate weight ratio is 3:1) 11%, citric acid 5%, molybdenum trisulfate 1%, gibberellic acid 0.3%, α-naphthaleneacidsodium 0.2%, ethanol 0.3%th, surfactant 2- naphthalene sulfonic acid formaldehyde polymers sodium salt 0.3%, ethylene glycol monobutyl ether 0.3%, remaining is water.

Embodiment 10：With embodiment 1, the difference is that,

The weight ratio of raw material is：Amino acid powder 41%, the boron fertilizer (weight of boric acid and borax ratio 1:1) 2%, monohydrate zinc sulphate 8%th, (potassium dihydrogen phosphate and potassium alginate weight ratio are 3 to potash fertilizer:1) 15%, citric acid 4%, molybdenum trisulfate 2%, gibberellic acid 0.3%th, α-naphthaleneacidsodium 0.2%, ethanol 0.5%, surfactant 2- naphthalene sulfonic acid formaldehyde polymers sodium salt 0.25%, ethylene glycol Monobutyl ether 0.25%, remaining is water.

Claims (2)

1. A kind of 1. amino acid fertilizer that can make crop bulb, Fruit, it is characterised in that：By following weight than raw material mixture Form, amino acid powder 20-50%, boron fertilizer 1-4%, monohydrate zinc sulphate 2-8%, potash fertilizer 6-20%, citric acid 1-5%, molybdenum trisulfate 1-5%, gibberellic acid 0.1-0.5%, α-naphthaleneacidsodium 0.1-0.5%, ethanol 0.1-0.5%, surfactant 0.2-0.6%, Remaining is water；

   The boron fertilizer is boric acid or borax or boric acid and borax mixture；

   The potash fertilizer is potassium dihydrogen phosphate and potassium alginate, and wherein potassium dihydrogen phosphate and potassium alginate weight ratio is 3:1；

   The surfactant is 2- naphthalene sulfonic acid formaldehyde polymers sodium salt and ethylene glycol monobutyl ether, and wherein 2- naphthalenesulfonateformaldehyde formaldehydes polymerize Thing sodium salt and ethylene glycol monobutyl ether weight ratio are 1:1.
2. 2. a kind of described in claim 1 can make crop bulb, Fruit amino acid fertilizer preparation method, its feature exists In comprising the following steps that：

   1) weight is dissolved than being put into for 20-50% amino acid powder in water, adds 1-5% citric acids, 1-5% molybdenum trisulfates are molten Solution, obtains solution A；

   2) weight is put into solution A than the boron fertilizer for 1-4%, 2-8% monohydrate zinc sulphate, heating for dissolving obtains B solution；

   The boron fertilizer is boric acid or borax or boric acid and borax mixture；

   3) weight is dissolved than being put into for 0.1-0.5% gibberellic acid in 0.1-0.5% ethanol, adds surfactant 0.2- C solution is obtained after 0.6%, α-naphthaleneacidsodium 0.1-0.5% dissolving completely；

   The surfactant is 2- naphthalene sulfonic acid formaldehyde polymers sodium salt and ethylene glycol monobutyl ether, and wherein 2- naphthalenesulfonateformaldehyde formaldehydes polymerize Thing sodium salt and ethylene glycol monobutyl ether weight ratio are 1:1；

   4) B solution and C solution are mixed, is stirring evenly and then adding into weight than the potash fertilizer for 6-20%, adds water to very, dissolving Completely, produce；

   The potash fertilizer is potassium dihydrogen phosphate and potassium alginate, and wherein potassium dihydrogen phosphate and potassium alginate weight ratio is 3:1.