CN108967007A - The high-yield planting method of pyracantha fortuneana fruit - Google Patents

Abstract

The invention discloses a kind of high-yield planting methods of pyracantha fortuneana fruit, comprising the following steps: I, addressing；II, consolidation；III, field planting；IV, water management；V, fertilising；VI, insect pest preventing and controlling.The high-yield planting method of pyracantha fortuneana fruit of the present invention being mutually promoted and being acted synergistically by various raw materials in fertilizer; nutrition needed for growth period is provided for pyracantha fortuneana fruit; improve the yield and quality of pyracantha fortuneana fruit; the fruit quality that plantation comes out is good, nutritive value is high, in addition can not only efficiently kill pest using the plant protecting liquid being made of green safe raw material during the prevention and control of plant diseases, pest control; and without any harmful components; it is non-hazardous to soil, it is suitable for large-scale planting, there are extensive market prospects.

Description

The high-yield planting method of pyracantha fortuneana fruit

Technical field

The present invention relates to field of agricultural cultivation, and in particular to a kind of high-yield planting method of pyracantha fortuneana fruit.

Background technique

Pyracantha fortuneana is rosaceae Maloideae pyracantha fortuneana platymiscium, evergreen shrubs or dungarunga, and high reachable 3m is generallyd use and broadcast The methods of kind, cuttage and planting of layer are bred.Pyracantha fortuneana fruit is distributed mainly on the south the Yellow River and vast southwest in China, All there are plantation in the provinces and regions such as Shaanxi, Jiangsu, Zhejiang, Fujian, Hubei, Hunan, Guangxi, Sichuan, Yunnan, Guizhou, resourceful, are easy to Acquisition.Pyracantha fortuneana fruit is a kind of good dual-purpose of drug and food natural plant resource, fruit organic acid rich in, protein, Huang The substances such as ketone, osajin, amino acid, vitamin and a variety of mineral elements, can eat raw, also can be processed into various beverages, tool Promote the production of body fluid to quench thirst, be clearing heat and detoxicating, astringing to arrest diarrhea, remove free radical, reduce blood lipid and promote digestion and other effects, can be used for food, The fields such as medicine, health care product；Its root skin, stem skin, fruit contain tannin abundant, can be used to extract tanning material；Pyracantha fortuneana root can be used as medicine, Nature and flavor are bitter, there is antidiarrheal, dissipate the stasis of blood, help digestion and other effects, fruit, leaf, stem skin also have similar drug effect.Pyracantha fortuneana leaf can tea making, tool Have clearing heat and detoxicating, promotes the production of body fluid to quench thirst, the effect of astringing to arrest diarrhea.In addition, firethorn fruit autumn is mature, like torch, can be done in garden Hedgerow and Landscape material may be used as hedgerow in roadside, have the function of beautification, greening environment, while to titanium dioxide Sulphur has very strong absorption and resistivity, has good dust filtering effect.

Since soil is only able to satisfy the part needs of crop, crop is just necessary for its offer enough to obtain high yield Nutrient.Based on this theoretic knowledge, chemical fertilizer industry is risen, so that world agriculture has rapid development.By grain new product The application of the use of the technologies such as kind, pesticide, irrigation, mechanization of agriculture, especially chemical fertilizer, world food yield constantly increase, and are World population provides food security.However, the increase of the chemical fertilizer and Pesticide use in China, also results in agroecological environment Deteriorate.Soil erosion, desertification of land and impoverishment, calamitous climate frequently, soil quality decline so that the pest and disease damage of plant is significantly Increase, the threat increasing to Chinese agricultural components.China possesses stalk resource abundant, and annual stalk yield is at 700,000,000 tons Left and right, statistical data show that stalk is very big as fuel ratio, and crop straw burning brings very overall situation harm, and arbitrarily burning causes PM2.5, carbon dioxide, sulfur dioxide, etc. pollutants largely discharge, not only serious waste of resources, more causes the pollution of air. Crop material organic matter rich in and inorganic nutrients, if can not only increase soil organic substance as Fertilizer application Content, it is horizontal to improve soil organic substance, is conducive to soil sustainable development, can also reduce peasant planting cost, be conducive to Increasing peasant income have important production and ecological benefits.

In order to ensure that plant from insect pest, makes plant quickly grow up healthy and sound, mode pest control of spraying insecticide is mostly used.But Pesticide contains toxicity more, easily pollutes to surrounding enviroment such as air, and by pest control of spraying insecticide, can not only cause insect pest Death will also kill useful animals, be unfavorable for environmental protection and the ecological balance.In addition, pesticide spraying is rear volatile on plant, so that Pesticide only has drug effect over a period to come, is unable to reach the effect of long-term, thorough pest control.As biotechnology develops, It also once attempts to administer insect pest using biological control mode in industry, namely prevents and treats pathogenic using biology and its metabolite Body, pest and weeds.But current biological prevention is not yet mature, and control efficiency is bad, and the use of biological prevention needs The biology for being able to suppress insect pest growth is introduced in conjunction with environmental conditions such as weather, soil properties, enforcement difficulty is big, and has regional condition limit System, is not easy to popularize.

In view of the above-mentioned problems, needing to develop a kind of high-yield planting method of pyracantha fortuneana fruit to solve the problems of the prior art.

Summary of the invention

In view of the above-mentioned deficiencies in the prior art, the present invention provides the high-yield planting methods of pyracantha fortuneana fruit.

A kind of high-yield planting method of pyracantha fortuneana fruit, comprising the following steps:

I, addressing；

II, consolidation；

III, field planting；

IV, water management；

V, fertilising；

VI, insect pest preventing and controlling.

Specifically, the high-yield planting method of the pyracantha fortuneana fruit, comprising the following steps:

I, addressing: the subtropical zone that winter minimum temperature is not less than 8 DEG C is chosen, soil layer is deep, the soil is porous and soil PH carries out the plantation of pyracantha fortuneana fruit in the planting site of 5.8-6.7；

II, consolidation: during 1-March 15 March, (1-4) rice × (1-4) rice seeding row spacing is pressed, is being chosen seeds It plants and carries out digging kind of a plant hole on the ground, plant a length of 70-80 centimetres of plant hole, width is 55-65 centimetres, and depth is 50-60 centimetres, by the first fertilizer Roll up the soil come with digging kind plant hole and mix go back to cave, 35-50 kilograms of the first fertilizer is applied in every cave；

III, field planting: pyracantha fortuneana sapling is colonized during 25-April 10 March, wiped out before field planting sapling hurt root, Withered and too long root, field planting depth are 15-25 centimetres, transplanting, and pyracantha fortuneana sapling is placed in hole center, unfolds root system, earths up, Compacting, root water of drenching；

IV, water management: if watering in fine day every 3 days is primary after cultivation, if rainy weather does not water and drains in time, to prevent The root infection germ of sapling or stem meat rot；

V, fertilising: during annual 1-July 15 July, during 1-October 15 October, according to per acre 1000 public affairs It is primary that the ratio of -2000 kilograms of jin respectively applies the second fertilizer；Since second year, during annual 10-March 20 March according to It is primary to apply the first fertilizer for 2000 kilograms -4000 kilograms of ratio per acre；

VI, insect pest preventing and controlling: since second year, pass through sprinkling plant protecting liquid during annual 1-May 30 May Insect pest preventing and controlling are carried out, are prevented and treated number 1-3 times, every minor tick 7-8 days.

First fertilizer is made of the raw material of following mass percent: 10-20% rice husk, 5-15% sawdust, 0.5- 2.5% diatomite, 0.5-2.5% Macrogol 6000,1.5-4% ammonium chloride, 2-7% calcium nitrate, 2-7% potassium dihydrogen phosphate, 0.002-0.008% sodium selenite, 10-20% organic fertilizer, 0.1-0.5% enzyme, 0.2-1% zymophyte, surplus are corn stover.

The organic fertilizer be cow dung, chicken manure, human excrement, animal carcass one kind or more.

The enzyme is cellulase or/and carbohydrase.

The zymophyte is one of saccharomyces cerevisiae, bacillus subtilis, lactobacillus plantarum or a variety of.

Preferably, the zymophyte is saccharomyces cerevisiae, bacillus subtilis, lactobacillus plantarum (1-3) in mass ratio: (1- 3): the compound bacteria of (1-3) mixing.

First fertilizer the preparation method comprises the following steps:

I, weighs each raw material component by mass percentage；

II, is mixed first by corn stover dissection, then with rice husk, sawdust, and mixture is obtained after crushing；

III, is by said mixture and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, selenous acid Sodium, organic fertilizer, enzyme, zymophyte mixing, obtain the first fertilizer after mixing evenly.

Preferably, first fertilizer the preparation method comprises the following steps:

I, weighs each raw material component by mass percentage；

II, is mixed first by corn stover dissection, then with rice husk, sawdust, is crushed, is placed in that temperature is 130-150 DEG C, pressure is It sterilizes 2-5 minutes under conditions of 130-150kPa, obtains mixture after enzyme is added, be subsequently added into the mixture quality 0.5- 1.5 times of water carries out enzyme at 38-45 DEG C after mixing, obtains the mixture of enzyme；

III, is by the mixture of enzyme and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, sub- selenium Sour sodium, organic fertilizer, zymophyte mixing, obtain the first fertilizer after mixing evenly.

Second fertilizer is made of the raw material of following mass percent: 10-20% potassium chloride, 25-35% calcium superphosphate, 15-20% plant ash, 1-5% ammonium nitrate, surplus are urea.

The plant protecting liquid is made of the raw material of following parts by weight: 30-50 parts of plant material, sodium carboxymethylcellulose 7- 12 parts, 5-9 parts of nicotine, 1-4 parts of methyl-silicone oil, 8-14 parts of propylene glycol, 3-5 parts of surfactant, 80-140 parts of water.

The surfactant is one of tween, neopelex, lauryl sodium sulfate or a variety of.

The plant material includes one of Celastrus angulatus, ginkgo, euphorbia lunulata or a variety of.

Preferably, the plant material is by Celastrus angulatus, ginkgo, euphorbia lunulata (1-5) in mass ratio: (1-5): (1-5) mixing It forms.

The plant protecting liquid the preparation method comprises the following steps:

I, weighs each raw material component by weight；

Plant material crushed after being dried is obtained mixed-powder by II, is subsequently added into 3-10 times of 50- of mixed-powder quality 80wt% ethanol water, supercritical extract obtain supercritical extract and super critical extract remainder；Again to above-mentioned overcritical raffinate The 40-60wt% methanol aqueous solution of 8-15 times of super critical extract remainder quality is added in object, ultrasonic treatment obtains ultrasonic extraction liquid； Merge above-mentioned supercritical extract and ultrasonic extraction liquid, filtered, be concentrated after obtain the plant extracts；

Sodium carboxymethylcellulose, nicotine, methyl-silicone oil, propylene glycol, surface-active are added into above-mentioned plant extracts by III, Agent, water, obtain plant protecting liquid after mixing.

By adopting the above-described technical solution, compared with prior art, the present invention has the following advantages: present invention fire The high-yield planting method of spine fruit, applies different fertilizer in different times, mutually promoting and assisting by raw materials various in fertilizer Same-action provides nutrition needed for growth period for pyracantha fortuneana fruit, and the yield and quality of pyracantha fortuneana fruit is improved while saving fertilizer；It adopts Plant protecting liquid is nontoxic to environment, and insecticidal effect is preferable, and efficacy time is longer, for pests such as red spider, aphids With preferable control efficiency, practical value with higher and good application prospect.The present invention improves the yield of sugarcane. The high-yield planting methodological science of pyracantha fortuneana fruit of the present invention, improves the yield and quality of pyracantha fortuneana fruit, the fruit quality for planting out is good, Nutritive value is high, while can prevent the incidental most of pest and disease damage of pyracantha fortuneana fruit, reduces the disease incidence of pyracantha fortuneana fruit, is suitable for Large-scale planting, there are extensive market prospects.

Specific embodiment

Foregoing invention content of the invention is described in further detail With reference to embodiment, but should not be incited somebody to action This range for being interpreted as the above-mentioned theme of the present invention is only limitted to following embodiments.

Each raw material and equipment introduction in embodiment:

Pyracantha fortuneana sapling, 1 meter of height of seedling, 60 centimetres of hat width, purchased from the green despot nursery stock of Shuyang County Xinhe River town Xin Huai neighbourhood committee.

Corn stover is purchased from Tangshan City Fengrun District Mu Kang agricultural science and technology Co., Ltd.

Rice husk, purchased from the Guangzhou agriculture Co., Ltd of raw liter.

Sawdust, specification 1-3mm are purchased from Tai'an Ping De Trade Co., Ltd..

Diatomite, partial size 1-3mm are purchased from Lingshou County Chun Yan mineral products processing factory.

Macrogol 6000, No. CAS: 25322-68-3, model PEG-6000 are purchased from Jiangsu Hai'an Petrochemical Plant.

Potassium dihydrogen phosphate, No. CAS: 7778-77-0, it is limited to be purchased from the prosperous Tonghua chemical product in Zhengzhou for 100 mesh of granularity, fertilizer grade Company.

Cow dung is purchased from Shijiazhuang Yu Xin organic fertilizer Co., Ltd.

Chicken manure is purchased from Shijiazhuang Yu Xin organic fertilizer Co., Ltd.

Carbohydrase, enzyme activity 10000U/g are purchased from Su Kehan (Weifang) bioengineering Co., Ltd

Cellulase, enzyme activity 20000U/g are purchased from Shandong Su Kehan bioengineering limited liability company.

Saccharomyces cerevisiae, living bacteria count are 20,000,000,000 CFU/g, are purchased from Guangzhou infinitesimal Biotechnology Co., Ltd.

Bacillus subtilis, living bacteria count are 10,000,000,000 CFU/g, are purchased from Cangzhou City Fang Yuan bioengineering Co., Ltd.

Lactobacillus plantarum, living bacteria count are 10,000,000,000 CFU/g, are purchased from Cangzhou Xin great Di Biotechnology Co., Ltd.

Calcium superphosphate, No. CAS: 10031-30-8, product number: V900274 is purchased from Sigma-Aldrich (Shanghai) trade Easy Co., Ltd.

Plant ash is purchased from Dacheng County Fa Nong organic fertilizer factory.

Urea, No. CAS: 57-13-6, partial size 1-3mm are purchased from Jinan Xin Senyuan Chemical Co., Ltd.

Second fertilizer is made of the raw material of following mass percent: 15% potassium chloride, 30% calcium superphosphate, 18% vegetation Ash, 2% ammonium nitrate, surplus are urea；The preparation method comprises the following steps: each raw material is weighed and mixed by the mass percent of component, at 30 DEG C Under with 40 revs/min of stirring 2.5h, obtain the second fertilizer.

Celastrus angulatus, Classification system: Celastrus angulatus Maxim. is Celastraceae celastraceae plants Celastrus angulatus Root skin, place of production jade mine in Nanyang, Henan Province county.

Ginkgo, Classification system: Ginkgo biloba L. is the leaf of Ginkgoaceae Ginkgo deciduous tree, place of production Anhui, purchase From Bozhou City sea damp medicine company trade Co., Ltd.

Euphorbia lunulata, Classification system: Euphorbia esula L. is the herb of Euphorbiaceae euphorbia euphorbia lunulata, produces Ground Anhui is purchased from Bozhou often rich medicine company source producer.

Nicotine, No. CAS: 54-11-5, SILVER REAGENT, purchased from cruel scientific and technological (Beijing) Co., Ltd of your chemistry.

Methyl-silicone oil, No. CAS: 9006-65-9, article No. JF-201 are purchased from Jiangnan textile material source producer.

Supercritical extracting equipment, the HY-OES-2L type provided using Dongguan City ocean Supersonic Tech Corp. is super to be faced Boundary's extracter.

Ultrasonic device is KQ-2500E type ultrasonic cleaner, is purchased from Kunshan He Chuan Instrument Ltd..

Embodiment 1

A kind of high-yield planting method of pyracantha fortuneana fruit, comprising the following steps:

I, addressing: in Peng River county of Chongqing City, selection soil layer is deep, the soil is porous, planting site of the soil pH in 5.8-6.7 Carry out the plantation of pyracantha fortuneana fruit；

II, consolidation: March 12, according to line-spacing be 2 meters, spacing in the rows is 2 meters and carries out digging kind of a plant hole, and kind plant hole is a length of 75 centimetres, width is 60 centimetres, and depth is 60 centimetres, by the first fertilizer and digs kind of plant hole and rolls up the soil come and mix go back to cave, and every cave applies the One 40 kilograms of fertilizer；

III, field planting: 40 pyracantha fortuneana saplings are colonized March 30, that sapling is wiped out before field planting hurts root, withered and mistake Long root；35 centimetres long, 35 centimetres wide, deep 25 centimetres of pitting is dug in kind of plant hole, and pyracantha fortuneana sapling is placed in hole center, makes root System unfolds, and earths up, compacting, and field planting depth is 20 centimetres, root water of drenching；

IV, water management: if watering in fine day every 3 days is primary after cultivation, if rainy weather does not water and drains in time, to prevent The root infection germ of sapling or stem meat rot；

V, fertilising: annual July 12, October 12, respectively apply the second fertilizer one according to 1200 kilograms per acre of ratio It is secondary；Since second year, annual March 12 is primary according to 2400 kilograms per acre of ratio the first fertilizer of application；

VI, insect pest preventing and controlling: since second year, 12 points at noon of selection on annual May 5, by spraying plant protecting liquid Mode carry out insect pest preventing and controlling, per acre plant protecting liquid dosage be 80mL, be watered 55 kilograms.

First fertilizer is made of the raw material of following mass percent: 15% rice husk, 10% sawdust, 1% diatomite, 1.5% Macrogol 6000,2% ammonium chloride, 5% calcium nitrate, 5% potassium dihydrogen phosphate, 0.005% sodium selenite, 6% cow dung, 8% chicken manure, 0.4% cellulase, 0.9% zymophyte, surplus are corn stover；

The zymophyte by saccharomyces cerevisiae, bacillus subtilis, lactobacillus plantarum according to 1:1:1 mass ratio mixing and At.

First fertilizer the preparation method comprises the following steps:

I, weighs each raw material component by mass percentage；

Corn stover is first cut into 3 centimetres of segment by II, then is mixed with rice husk, sawdust, is crushed to 80 mesh, is mixed Object；

III, is by mixture and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, sodium selenite, ox Excrement, chicken manure, cellulase, zymophyte mixing obtain the first fertilizer after uniform with 40 revs/min of stirring 2h at 30 DEG C.

The plant protecting liquid is made of the raw material of following parts by weight: 12 parts of Celastrus angulatus, 12 parts of ginkgo, 12 parts of euphorbia lunulata, 8 parts of sodium carboxymethylcellulose, 6 parts of nicotine, 3 parts of methyl-silicone oil, 8 parts of propylene glycol, 4 parts of neopelex, 90 parts of water.

The plant protecting liquid the preparation method comprises the following steps:

I, weighs each raw material component by weight；

II, mixes Celastrus angulatus, ginkgo, euphorbia lunulata 1:1:1 in mass ratio, is placed at 50 DEG C dry 48h, is crushed to 150 Mesh obtains mixed-powder, is subsequently added into 4 times of mixed-powder quality of 50wt% ethanol water, supercritical extract 3h, CO₂Stream The flow velocity of body is 15kg/h, extracting pressure 20MPa, and 40 DEG C of extraction temperature, separating pressure 5MPa, is obtained super by 35 DEG C of separation temperature Critical extract and super critical extract remainder；10 times of super critical extract remainder quality are added into above-mentioned super critical extract remainder again 50wt% methanol aqueous solution is placed at 55 DEG C and is ultrasonically treated 20 minutes, and the ultrasonic power of the ultrasonic treatment is 350W, supersonic frequency Rate is 30kHz, obtains ultrasonic extraction liquid；Merge above-mentioned supercritical extract and ultrasonic extraction liquid, through 250 mesh filter-cloth filterings, institute Filtrate is placed in that temperature is 60 DEG C, vacuum degree is in the Rotary Evaporators of 0.05MPa, concentration is original volume until residual volume 4% until, obtain the plant extracts；

Sodium carboxymethylcellulose, nicotine, methyl-silicone oil, propylene glycol, dodecyl are added into above-mentioned plant extracts by III, Benzene sulfonic acid sodium salt, water are stirred 50 minutes with 250 revs/min of revolving speed at 40 DEG C, obtain plant protecting liquid.

Embodiment 2

Substantially the same manner as Example 1, difference is only in that: the zymophyte by saccharomyces cerevisiae, bacillus subtilis according to The mass ratio of 1:1 mixes.

Embodiment 3

Substantially the same manner as Example 1, difference is only in that: the zymophyte is pressed by bacillus subtilis, lactobacillus plantarum It is mixed according to the mass ratio of 1:1.

Embodiment 4

Substantially the same manner as Example 1, difference is only in that: the zymophyte is by saccharomyces cerevisiae, lactobacillus plantarum according to 1:1 Mass ratio mix.

Embodiment 5

Substantially the same manner as Example 1, difference is only in that:

First fertilizer the preparation method comprises the following steps:

I, weighs each raw material component by mass percentage；

Corn stover is first cut into 3 centimetres of segment by II, then is mixed with rice husk, sawdust, is crushed to 80 mesh, is placed in temperature After sterilizing 3 minutes under conditions of being 140kPa for 130 DEG C, pressure, cellulase is added and obtains mixture, is subsequently added into mixture The water that 0.8 times of quality is stirred 50 minutes at 25 DEG C with 40 revs/min, and enzymeization 3 days at 40 DEG C obtain the mixture of enzyme；

III, is by the mixture of enzyme and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, sub- selenium Sour sodium, cow dung, chicken manure, zymophyte mixing obtain the first fertilizer after uniform with 40 revs/min of stirring 2h at 30 DEG C.

Embodiment 6

Substantially the same manner as Example 1, difference is only in that:

First fertilizer is made of the raw material of following mass percent: 15% rice husk, 10% sawdust, 1% diatomite, 1.5% Macrogol 6000,2% ammonium chloride, 5% calcium nitrate, 5% potassium dihydrogen phosphate, 0.005% sodium selenite, 6% cow dung, 8% chicken manure, 0.4% carbohydrase, 0.9% zymophyte, surplus are corn stover.

The zymophyte by saccharomyces cerevisiae, bacillus subtilis, lactobacillus plantarum according to 1:1:1 mass ratio mixing and At.

First fertilizer the preparation method comprises the following steps:

I, weighs each raw material component by mass percentage；

Corn stover is first cut into 3 centimetres of segment by II, then is mixed with rice husk, sawdust, is crushed to 80 mesh, is placed in temperature After sterilizing 3 minutes under conditions of being 140kPa for 130 DEG C, pressure, carbohydrase is added and obtains mixture, is subsequently added into compounding substances The water of 0.8 times of amount is stirred 50 minutes at 25 DEG C with 40 revs/min, and enzymeization 3 days at 40 DEG C obtain the mixture of enzyme；

III, is by the mixture of enzyme and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, sub- selenium Sour sodium, cow dung, chicken manure, zymophyte mixing obtain the first fertilizer after uniform with 40 revs/min of stirring 2h at 30 DEG C.

Embodiment 7

Substantially the same manner as Example 1, difference is only in that:

First fertilizer is made of the raw material of following mass percent: 15% rice husk, 10% sawdust, 1% diatomite, 1.5% Macrogol 6000,2% ammonium chloride, 5% calcium nitrate, 5% potassium dihydrogen phosphate, 0.005% sodium selenite, 6% cow dung, 8% chicken manure, 0.2% carbohydrase, 0.2% cellulase, 0.9% zymophyte, surplus are corn stover.

The zymophyte by saccharomyces cerevisiae, bacillus subtilis, lactobacillus plantarum according to 1:1:1 mass ratio mixing and At.

First fertilizer the preparation method comprises the following steps:

I, weighs each raw material component by mass percentage；

Corn stover is first cut into 3 centimetres of segment by II, then is mixed with rice husk, sawdust, is crushed to 80 mesh, is placed in temperature After sterilizing 3 minutes under conditions of being 140kPa for 130 DEG C, pressure, carbohydrase, cellulase is added and obtains mixture, then plus The water for entering 0.8 times of mixture quality is stirred 50 minutes at 25 DEG C with 40 revs/min, and enzymeization 3 days, obtain enzyme at 40 DEG C Mixture；

III, is by the mixture of enzyme and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, sub- selenium Sour sodium, cow dung, chicken manure, zymophyte mixing obtain the first fertilizer after uniform with 40 revs/min of stirring 2h at 30 DEG C.

Embodiment 8

Substantially the same manner as Example 7, difference is only in that:

The plant protecting liquid is made of the raw material of following parts by weight: 18 parts of Celastrus angulatus, 18 parts of ginkgo, carboxymethyl cellulose 8 parts of sodium, 6 parts of nicotine, 3 parts of methyl-silicone oil, 8 parts of propylene glycol, 4 parts of neopelex, 90 parts of water.

The plant protecting liquid the preparation method comprises the following steps:

I, weighs each raw material component by weight；

II, mixes Celastrus angulatus, ginkgo 1:1 in mass ratio, is placed at 50 DEG C dry 48h, is crushed to 150 mesh, is mixed Powder is closed, 4 times of mixed-powder quality of 50wt% ethanol water, supercritical extract 3h, CO are subsequently added into₂The flow velocity of fluid is 15kg/h, extracting pressure 20MPa, 40 DEG C of extraction temperature, separating pressure 5MPa, obtains supercritical extract by 35 DEG C of separation temperature And super critical extract remainder；It is water-soluble that 10 times of super critical extract remainder quality of 50wt% methanol is added into above-mentioned super critical extract remainder again Liquid is placed at 55 DEG C and is ultrasonically treated 20 minutes, and the ultrasonic power of the ultrasonic treatment is 350W, supersonic frequency 30kHz, obtains Ultrasonic extraction liquid；Merge above-mentioned supercritical extract and ultrasonic extraction liquid, through 250 mesh filter-cloth filterings, gained filtrate is placed in temperature It is to be concentrated until residual volume is the 4% of original volume, obtain in the Rotary Evaporators of 0.05MPa for 60 DEG C, vacuum degree The plant extracts；

Sodium carboxymethylcellulose, nicotine, methyl-silicone oil, propylene glycol, dodecyl are added into above-mentioned plant extracts by III, Benzene sulfonic acid sodium salt, water are stirred 50 minutes with 250 revs/min of revolving speed at 40 DEG C, obtain plant protecting liquid.

Embodiment 9

Substantially the same manner as Example 7, difference is only in that:

The plant protecting liquid is made of the raw material of following parts by weight: 18 parts of ginkgo, 18 parts of euphorbia lunulata, carboxymethyl cellulose 8 parts of sodium, 6 parts of nicotine, 3 parts of methyl-silicone oil, 8 parts of propylene glycol, 4 parts of neopelex, 90 parts of water.

The plant protecting liquid the preparation method comprises the following steps:

I, weighs each raw material component by weight；

II, mixes ginkgo, euphorbia lunulata 1:1 in mass ratio, is placed at 50 DEG C dry 48h, is crushed to 150 mesh, is mixed Powder is closed, 4 times of mixed-powder quality of 50wt% ethanol water, supercritical extract 3h, CO are subsequently added into₂The flow velocity of fluid is 15kg/h, extracting pressure 20MPa, 40 DEG C of extraction temperature, separating pressure 5MPa, obtains supercritical extract by 35 DEG C of separation temperature And super critical extract remainder；It is water-soluble that 10 times of super critical extract remainder quality of 50wt% methanol is added into above-mentioned super critical extract remainder again Liquid is placed at 55 DEG C and is ultrasonically treated 20 minutes, and the ultrasonic power of the ultrasonic treatment is 350W, supersonic frequency 30kHz, obtains Ultrasonic extraction liquid；Merge above-mentioned supercritical extract and ultrasonic extraction liquid, through 250 mesh filter-cloth filterings, gained filtrate is placed in temperature It is to be concentrated until residual volume is the 4% of original volume, obtain in the Rotary Evaporators of 0.05MPa for 60 DEG C, vacuum degree The plant extracts；

Sodium carboxymethylcellulose, nicotine, methyl-silicone oil, propylene glycol, dodecyl are added into above-mentioned plant extracts by III, Benzene sulfonic acid sodium salt, water are stirred 50 minutes with 250 revs/min of revolving speed at 40 DEG C, obtain plant protecting liquid.

Embodiment 10

Substantially the same manner as Example 7, difference is only in that:

The plant protecting liquid is made of the raw material of following parts by weight: 18 parts of Celastrus angulatus, 18 parts of euphorbia lunulata, carboxymethyl cellulose 8 parts of plain sodium, 6 parts of nicotine, 3 parts of methyl-silicone oil, 8 parts of propylene glycol, 4 parts of neopelex, 90 parts of water.

The plant protecting liquid the preparation method comprises the following steps:

I, weighs each raw material component by weight；

II, mixes Celastrus angulatus, euphorbia lunulata 1:1 in mass ratio, is placed at 50 DEG C dry 48h, is crushed to 150 mesh, obtains Mixed-powder is subsequently added into 4 times of mixed-powder quality of 50wt% ethanol water, supercritical extract 3h, CO₂The flow velocity of fluid For 15kg/h, extracting pressure 20MPa, 40 DEG C of extraction temperature, separating pressure 5MPa, obtains supercritical extract by 35 DEG C of separation temperature Object and super critical extract remainder；10 times of super critical extract remainder quality of 50wt% methanol-water is added into above-mentioned super critical extract remainder again Solution is placed at 55 DEG C and is ultrasonically treated 20 minutes, and the ultrasonic power of the ultrasonic treatment is 350W, supersonic frequency 30kHz, obtains To ultrasonic extraction liquid；Merge above-mentioned supercritical extract and ultrasonic extraction liquid, through 250 mesh filter-cloth filterings, gained filtrate is placed in temperature Degree is 60 DEG C, vacuum degree is to be concentrated until residual volume is the 4% of original volume, obtain in the Rotary Evaporators of 0.05MPa To the plant extracts；

Sodium carboxymethylcellulose, nicotine, methyl-silicone oil, propylene glycol, dodecyl are added into above-mentioned plant extracts by III, Benzene sulfonic acid sodium salt, water are stirred 50 minutes with 250 revs/min of revolving speed at 40 DEG C, obtain plant protecting liquid.

Comparative example 1

Substantially the same manner as Example 1, difference is only in that:

First fertilizer is made of the raw material of following mass percent: 15% rice husk, 10% sawdust, 1% diatomite, 1.5% Macrogol 6000,2% ammonium chloride, 5% calcium nitrate, 5% potassium dihydrogen phosphate, 0.005% sodium selenite, 6% cow dung, 8% chicken manure, 0.4% cellulase, surplus are corn stover；

First fertilizer the preparation method comprises the following steps:

I, weighs each raw material component by mass percentage；

Corn stover is first cut into 3 centimetres of segment by II, then is mixed with rice husk, sawdust, is crushed to 80 mesh, is mixed Object；

III, is by mixture and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, sodium selenite, ox Excrement, chicken manure, cellulase mixing obtain the first fertilizer after uniform with 40 revs/min of stirring 2h at 30 DEG C.

Comparative example 2

Substantially the same manner as Example 7, difference is only in that:

The plant protecting liquid is made of the raw material of following parts by weight: 8 parts of sodium carboxymethylcellulose, 6 parts of nicotine, methyl silicon Oily 3 parts, 8 parts of propylene glycol, 4 parts of neopelex, 90 parts of water.

The plant protecting liquid the preparation method comprises the following steps:

I, weighs each raw material component by weight；

II, mixes sodium carboxymethylcellulose, nicotine, methyl-silicone oil, propylene glycol, neopelex, water, 40 It is stirred 50 minutes at DEG C with 250 revs/min of revolving speed, obtains plant protecting liquid.

Test case 1

Yield and nutrient component determining: with field planting current year for First Year, according to periodical literature " the Guizhou place of production fire of Xie Guofang The clustering of spine active constituent " 1.2.2 nutritive index and measuring method, after being colonized to embodiment 1-10 and comparative example 1 Third year pyracantha fortuneana fruit yield, pyracantha fortuneana fruit protein content, pyracantha fortuneana fruit general flavone content surveyed, concrete outcome is shown in Table 1.

Table 1: yield and nutritional ingredient test result table

By test result it is found that using saccharomyces cerevisiae, bacillus subtilis, lactobacillus plantarum as zymophyte in embodiment 1 Manage corn stover, the plantation gained yield of pyracantha fortuneana fruit, protein content, general flavone content are above embodiment 2-4 and right Ratio 1；Further, first stalk cell wall polysaccharide is hydrolyzed using enzyme in embodiment 5-7, obtains mixture of monosaccharides, Zymophyte is recycled to ferment, the carrier that final product is used as fertilizer is manured into soil, and can be further improved soil fertility, has Conducive to the growth of pyracantha fortuneana fruit, the quality of yield and fruit is improved.

Test case 2

Control efficiency measurement: according to periodical literature " insecticidal activity of the tomato stem-leaf extract to Luan Shu aphid of Wu Qiufang Research " 1.2.2 section experimental method, the test of desinsection control efficiency is carried out to the third year pyracantha fortuneana fruit tree after field planting, measurement applies To the control efficiency of aphid, red spider with embodiment 7-10 and after the plant protecting liquid of comparative example 27 days.

Table 2: control efficiency test result table

Group	Prevention and control of aphids rate/%	Red spider control rate/%
			Embodiment 7	97.5	98.8
Embodiment 8	76.9	89.7
			Embodiment 9	80.4	90.5
Embodiment 10	78.1	92.2
			Comparative example 2	65.8	80.9

By the test result of table 2 it is found that the plant protecting liquid that the present invention uses can effectively prevent the evil such as aphid, red spider Worm.Plant protecting liquid used in wherein implementing 7 is prepared as a raw material by Celastrus angulatus, ginkgo, euphorbia lunulata, each control of insect Effect is substantially better than embodiment 8-10 (plant protecting liquid is using Celastrus angulatus, ginkgo, any two kinds of raw materials preparation of euphorbia lunulata).Separately Outside, the later period takes the obtained ripening fruits of pyracantha fortuneana fruit tree after insect pest preventing and controlling, carries out Testing and appraisal, does not find that any drug is residual It stays.

The above described is only a preferred embodiment of the present invention, limitation in any form not is done to the present invention, therefore The equivalent or simple change that all principles described according to the invention patent design are done, is included in the scope of protection of the patent of the present invention It is interior；Those skilled in the art can make various modifications or additions to the described embodiments Or be substituted in a similar manner, without departing from structure of the invention or beyond the scope defined by this claim, It is within the scope of protection of the invention.

Claims (10)

1. a kind of high-yield planting method of pyracantha fortuneana fruit, which comprises the following steps:

I, addressing；

II, consolidation；

III, field planting；

IV, water management；

V, fertilising；

VI, insect pest preventing and controlling.

2. the high-yield planting method of pyracantha fortuneana fruit as described in claim 1, which comprises the following steps:

I, addressing: the subtropical zone that winter minimum temperature is not less than 8 DEG C is chosen, soil layer is deep, the soil is porous and soil pH exists The planting site of 5.8-6.7 carries out the plantation of pyracantha fortuneana fruit；

II, consolidation: during 1-March 15 March, (1-4) rice × (1-4) rice seeding row spacing is pressed, in selected planting site On carry out digging kind of a plant hole, plant a length of 70-80 centimetres of plant hole, width is 55-65 centimetres, and depth is 50-60 centimetres, by the first fertilizer and is dug Kind plant hole rolls up the soil come and mixes go back to cave, and 35-50 kilograms of the first fertilizer is applied in every cave；

III, field planting: pyracantha fortuneana sapling is colonized during 25-April 10 March, that sapling is wiped out before field planting hurts root, withered And too long root, field planting depth are 15-25 centimetres, pyracantha fortuneana sapling is placed in hole center, unfolds root system, earth up by transplanting, pressure It is real, root water of drenching；

IV, water management: if watering in fine day every 3 days is primary after cultivation, if rainy weather does not water and drains in time, to prevent sapling Root infection germ or stem meat rot；

V, fertilising: during annual 1-July 15 July, during 1-October 15 October, according to 1000 kilograms per acre- It is primary that 2000 kilograms of ratio respectively applies the second fertilizer；Since second year, according to per acre during annual 10-March 20 March It is primary that the ratio that 2000 kilograms -4000 kilograms of ground applies the first fertilizer；

VI, insect pest preventing and controlling: it since second year, is carried out during annual 1-May 30 May by sprinkling plant protecting liquid Insect pest preventing and controlling prevent and treat number 1-3 times, every minor tick 7-8 days.

3. the high-yield planting method of pyracantha fortuneana fruit as claimed in claim 2, which is characterized in that first fertilizer is by following quality hundred The raw material composition of point ratio: 10-20% rice husk, 5-15% sawdust, 0.5-2.5% diatomite, 0.5-2.5% Macrogol 6000, 1.5-4% ammonium chloride, 2-7% calcium nitrate, 2-7% potassium dihydrogen phosphate, 0.002-0.008% sodium selenite, 10-20% are organic Fertilizer, 0.1-0.5% enzyme, 0.2-1% zymophyte, surplus are corn stover；

The organic fertilizer be cow dung, chicken manure, human excrement, animal carcass it is one or more；

The enzyme is cellulase or/and carbohydrase.

4. the high-yield planting method of pyracantha fortuneana fruit as claimed in claim 2, which is characterized in that second fertilizer is by following quality hundred Divide the raw material composition of ratio: 10-20% potassium chloride, 25-35% calcium superphosphate, 15-20% plant ash, 1-6% ammonium nitrate, surplus are Urea.

5. the high-yield planting method of pyracantha fortuneana fruit as claimed in claim 2, which is characterized in that the plant protecting liquid is by following weight The raw material composition of part: 30-50 parts of plant material, 7-12 parts of sodium carboxymethylcellulose, 5-9 parts of nicotine, 1-4 parts of methyl-silicone oil, third 8-14 parts of glycol, 3-5 parts of surfactant, 80-140 parts of water.

6. the high-yield planting method of pyracantha fortuneana fruit as claimed in claim 3, which is characterized in that the zymophyte is saccharomyces cerevisiae, withered One of careless bacillus, lactobacillus plantarum are a variety of.

7. the high-yield planting method of pyracantha fortuneana fruit as claimed in claim 3, which is characterized in that the preparation method of first fertilizer Are as follows:

I, weighs each raw material component by mass percentage；

II, is mixed first by corn stover dissection, then with rice husk, sawdust, and mixture is obtained after crushing；

III, by said mixture and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, sodium selenite, have Machine fertilizer, enzyme, zymophyte mixing, obtain the first fertilizer after mixing evenly.

8. the high-yield planting method of pyracantha fortuneana fruit as claimed in claim 5, which is characterized in that the plant material include Celastrus angulatus, One of ginkgo, euphorbia lunulata are a variety of.

9. the high-yield planting method of pyracantha fortuneana fruit as claimed in claim 5, which is characterized in that the preparation method of the plant protecting liquid Are as follows:

I, weighs each raw material component by weight；

Plant material crushed after being dried is obtained mixed-powder by II, is subsequently added into 3-10 times of 50-80wt% of mixed-powder quality Ethanol water, supercritical extract obtain supercritical extract and super critical extract remainder；Add again into above-mentioned super critical extract remainder Enter the 40-60wt% methanol aqueous solution of 8-15 times of super critical extract remainder quality, is ultrasonically treated, obtains ultrasonic extraction liquid；In merging State supercritical extract and ultrasonic extraction liquid, filtered, be concentrated after obtain the plant extracts；

III, be added into above-mentioned plant extracts sodium carboxymethylcellulose, nicotine, methyl-silicone oil, propylene glycol, surfactant, Water obtains plant protecting liquid after mixing.

10. the high-yield planting method of pyracantha fortuneana fruit as claimed in claim 7, which is characterized in that the preparation method of first fertilizer Are as follows:

I, weighs each raw material component by mass percentage；

II, is mixed first by corn stover dissection, then with rice husk, sawdust, crush, be placed in temperature be 130-150 DEG C, pressure 130- It sterilizes 2-5 minutes under conditions of 150kPa, obtains mixture after enzyme is added, be subsequently added into 0.5-1.5 times of the mixture quality Water, after mixing at 38-45 DEG C carry out enzyme, obtain the mixture of enzyme；

III, by the mixture of enzyme and diatomite, Macrogol 6000, ammonium chloride, calcium nitrate, potassium dihydrogen phosphate, sodium selenite, Organic fertilizer, zymophyte mixing, obtain the first fertilizer after mixing evenly.