CN107306637A - A kind of implantation methods of non-irrigated lotus root - Google Patents
A kind of implantation methods of non-irrigated lotus root Download PDFInfo
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- CN107306637A CN107306637A CN201710589642.3A CN201710589642A CN107306637A CN 107306637 A CN107306637 A CN 107306637A CN 201710589642 A CN201710589642 A CN 201710589642A CN 107306637 A CN107306637 A CN 107306637A
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- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05D—INORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C; FERTILISERS PRODUCING CARBON DIOXIDE
- C05D9/00—Other inorganic fertilisers
- C05D9/02—Other inorganic fertilisers containing trace elements
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G22/00—Cultivation of specific crops or plants not otherwise provided for
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- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05C—NITROGENOUS FERTILISERS
- C05C9/00—Fertilisers containing urea or urea compounds
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- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05F—ORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C, e.g. FERTILISERS FROM WASTE OR REFUSE
- C05F17/00—Preparation of fertilisers characterised by biological or biochemical treatment steps, e.g. composting or fermentation
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- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05G—MIXTURES OF FERTILISERS COVERED INDIVIDUALLY BY DIFFERENT SUBCLASSES OF CLASS C05; MIXTURES OF ONE OR MORE FERTILISERS WITH MATERIALS NOT HAVING A SPECIFIC FERTILISING ACTIVITY, e.g. PESTICIDES, SOIL-CONDITIONERS, WETTING AGENTS; FERTILISERS CHARACTERISED BY THEIR FORM
- C05G5/00—Fertilisers characterised by their form
- C05G5/20—Liquid fertilisers
- C05G5/23—Solutions
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E50/00—Technologies for the production of fuel of non-fossil origin
- Y02E50/30—Fuel from waste, e.g. synthetic alcohol or diesel
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W30/00—Technologies for solid waste management
- Y02W30/40—Bio-organic fraction processing; Production of fertilisers from the organic fraction of waste or refuse
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Abstract
The invention discloses a kind of implantation methods of non-irrigated lotus root, the implantation methods of the non-irrigated lotus root comprise the following steps:(1) the non-irrigated lotus root kind block without lesion of rotting is chosen, sterilization treatment is carried out, pulled out after then using rooting agent solution immersion, then non-irrigated lotus root kind block clear water is cleaned and surface moisture is dried, then sows to nursery and carries out nursery;(2) choose rich in organic matter and humus, the field for having irrigation and drainage system is planted, and is turned over after planting site, by planting site ridging, place after a couple of days toward earthing leveling after embedment base manure in the inter-drain of ridge;(3) by non-irrigated lotus root transplantation of seedlings to the planting site, sowed by density;(4) after planting, planting site humidity is kept by the way of irrigation, in the non-irrigated lotus root plant strain growth phase, foliar fertilizer is periodically imposed.The present invention can improve the germination percentage of drought lotus root kind block, reduce planting cost, and the nutrient for providing abundance is grown for non-irrigated lotus root, make the yield height for producing non-irrigated lotus root, and micronutrient levels is high, can be planting household increasing both production and income.
Description
【Technical field】
The present invention relates to planting technical field, and in particular to a kind of implantation methods of non-irrigated lotus root.
【Background technology】
Non-irrigated lotus root vitality is extremely strong, and adaptability is wider, and cultivation is upper general without using agricultural chemicals, is real green health
Food.Nourishing starch, crude fibre, crude protein, reduced sugar, various trace elements and amino acid are rich in non-irrigated lotus root root tuber, it is therein
Ferro element has anti-colon cancer to preventing that senile angiocardiopathy, osteoporosis, cataract, diabetes are beneficial to, and helps to disappear
The function such as change, the strong stomach of clearing heat and detoxicating, invigorating the spleen, nourishing.Non-irrigated lotus root purifies air, made outside feed except being cultivated as ornamental plant,
The starch processed using its stem root also has extensive use in terms of food, medicine.
In the planting process of non-irrigated lotus root, the quality of plant strain growth is with planting whether the germination percentage of block, the science of fertilizer have emphatically
The relation wanted.At present, people are generally by the way of directly sowing, and which is although time saving and energy saving, but can not ensure non-irrigated lotus root
The germination percentage of block is planted, once planting block germination deficiency, even if reseeding, crop cycle and the per mu yield of non-irrigated lotus root has also been had a strong impact on.Together
When, the species of fertilising is determined when people apply fertilizer only according to the plantation experience of other crops, causes split-off in the middle part of soil to be supported
Element lacks, it is impossible to adapt to the growth needs of non-irrigated lotus root, so that cause non-irrigated lotus root root block content of starch low, the disease such as microelement deficiencies
Shape.Therefore, per mu yield, content of starch and the micronutrient levels of non-irrigated lotus root how are improved, becomes our urgent problems.
【The content of the invention】
For above-mentioned problem, goal of the invention of the invention is:A kind of implantation methods of non-irrigated lotus root, this method are provided
The germination percentage of non-irrigated lotus root kind block can be improved, fertilizer is saved, planting cost is reduced, the nutrient for providing abundance is grown for non-irrigated lotus root,
Make the yield for producing non-irrigated lotus root high, nutritious, content of starch height, trace element particularly iron content is high, it is adaptable to extensive system
Systemization is planted, and can be planting household increasing both production and income.
To achieve these goals, the technical solution adopted by the present invention is as follows:
A kind of implantation methods of non-irrigated lotus root, the implantation methods comprise the following steps:
(1) the non-irrigated lotus root kind block without lesion of rotting is chosen, each drought lotus root kind block includes 1-2 kind tooth, first by the non-irrigated lotus root kind
Block carries out sterilization treatment, is pulled out after then being soaked 20-25 minutes using rooting agent solution, then the non-irrigated lotus root kind block is washed with clear water
It is net and dry surface moisture, sowed after being positioned over shady place 1 day to nursery and carry out nursery, described rooting agent solution is by weight
Number meter is prepared from by following methods:5-8 parts of camphortree bark, 6-10 parts of the coptis, 80-100 parts of water are put into ceramic pot, used
Intense fire is boiled after 30-40min, and camphortree bark and coptis residue are taken out while hot, is treated that ceramic pot is cooled to normal temperature, is added mashed garlic 10-
15 parts, 20-25 parts of biogas slurry, stir, that is, obtain rooting agent solution;
(2) choose rich in organic matter and humus, the soil depth 50-60cm and field for having irrigation and drainage system is planted is turned over
Planting site is ploughed to after depth 30-40cm, by planting site ridging, row spacing 50-60cm, ditch depth 30-40cm, width 30cm, placement between ridge
Flattened after 2-3 days toward earthing after embedment base manure in the ridge inter-drain;
(3) by the non-irrigated lotus root transplantation of seedlings to the planting site when the non-irrigated lotus root seedling length to 3-5 piece leaves, thickness of sowing is
Line-spacing 50-60cm, spacing in the rows 60-70cm, depth of planting 12-15cm;
(4) after planting, the mode of irrigation is used to keep the planting site humidity for 63-68%, in the non-irrigated lotus root plant strain growth phase,
Foliar fertilizer is imposed at interval of 7-10d.
Further, base manure is made up of following parts by weight material described in step (2), by 20-30 parts of husk, straw
15-25 parts of slag, 10-20 parts of rape cake, 80-120 parts of biogas residue, 20-30 parts of biogas slurry, 10-15 parts of urea, 8-10 parts of phosphate fertilizer, potash fertilizer
8-10 parts are well mixed, and stack retting is reused after 5-7 days.
Further, foliar fertilizer is made up of following parts by weight material described in step (4):10-20 parts of biogas slurry, sulfuric acid are sub-
5-10 parts of iron, 8-15 parts of selenium-rich fertilizer, 200-500 parts of water.
Further, the biogas slurry need to be used after the strainer filtering of 200-300 mesh, with the spray of anti-clogging sprayer
Mouth.
Further, the biogas slurry is stalk biogas slurry, and organic matter, full nitrogen, phosphorus, the potassium equal size in stalk biogas slurry are above
Other biogas slurries such as pig manure, chicken manure.
It should be noted that the biogas residue used in the present invention, biogas slurry all should be derived from the normal gas producing biogas of more than one month
Pond, otherwise can be immature because of fermenting, and produces harm to plant.In the case of no detecting instrument, judge that can biogas slurry
The straightforward procedure used is exactly to observe the combustion case of biogas, and flare is normal during all biogas combustions, table when not being dehydrated, being destitute of smell
Bright biogas fermentation is normal, and this biogas slurry can soak seed.Examine then more convenient directly perceived with biogas lamp, when all biogas lamps is non-ignitable, natural pond
Liquid can not be used, and opposite lamp can be lighted, and biogas slurry just can be used, water pressure chamber feed liquid surface if any one layer of white it is membranaceous when biogas slurry not yet
It can use.Contain abundant organic and inorganic class class nutrient in biogas slurry.Substantial amounts of inorganic nutrient significant degree is high, and activity is strong, energy
Enough all nutrient elements needed for they grow almost are covered for the element species that crops provide.
Garlic belongs to Liliaceae allium, in oblate spheroid or short cone, and there are canescence or light brown film quality firecoat in outside, peels off
Scale leaf, inside there is 6~10 garlic cloves, and wheel is born in around scape, and basal part of stem plate-like has most fibrous roots.Each garlic clove outsourcing is thin
Film, peels off film, that is, sees white, the scale of plump succulence.Sulfur-containing compound has strong antibacterial and anti-inflammation functions in garlic.
Camphortree bark, alias is called cinnamomum camphora bark, camphor tree skin, camphorwood skin, is the bark of canella camphor tree.Bark surface is smooth,
Yellowish-brown, taupe or brown, there is lobe ditch seam.There are camphor gas, pungent hardship.Camphor tree entirety has camphor fragrance, can obtain through refining camphor tree
Brain and extraction camphor oil.
Coptis perennial herb, rhizome is by branch, shape such as chicken feet, and coptis rhizome contains a variety of alkaloids.
Beneficial effects of the present invention are as follows:
First, non-irrigated lotus root kind block before planting using camphortree bark, the coptis boil afterwards with taking root that mashed garlic, biogas slurry are mixed
Agent solution is soaked seed, and can be substantially reduced non-irrigated lotus root kind block in seedling raising process because bacterium infection is rotten, dead tooth situation, can be promoted drought
Lotus root kind block Rapid Rooting germinates, and shortens non-irrigated lotus root seedling raise period, improves the bud ratio of non-irrigated lotus root kind block, improves the quality of non-irrigated lotus root seedling, enters
And improve the per mu yield of non-irrigated lotus root.
Second, by applying the base being made up of husk, straw slag, rape cake, biogas residue, biogas slurry, urea, phosphate fertilizer, potash fertilizer mixing
Fertilizer, advantageously improves fertilizer structure, plays the role of positive to improving soil property, and can significantly improve the utilization rate of fertilizer, have
Beneficial to the growth of non-irrigated lotus root.The foliar fertilizer being made up of biogas slurry, ferrous sulfate, selenium-rich fertilizer and water is periodically imposed after plantation, drought is promoted
The absorption of lotus root plant pair fertilizer and trace elements iron and selenium, is conducive to non-irrigated lotus root fast-growth and improves yield and improve non-irrigated lotus root product
The content of middle trace elements iron and selenium.
In addition, rationally make use of biogas residue, the biogas slurry in methane-generating pit, turn waste into wealth, realize rationally recycling for resource, keep away
Exempt from the waste of resource, and reduce production cost.
In a word, the overall implantation methods of non-irrigated lotus root proposed by the present invention can improve the survival rate of non-irrigated lotus root plant, save fertilizer, drop
Low planting cost, the nutrient for providing abundance is grown for non-irrigated lotus root, makes nutritious, trace elements iron and the selenium for producing non-irrigated lotus root
Content it is high, it is good in taste, be adapted to large scale systemization plantation, be planting household increasing both production and income.
【Embodiment】
The following examples can help those skilled in the art that the present invention is more completely understood, but cannot be with any
Mode limits the present invention.
Embodiment 1
A kind of implantation methods of non-irrigated lotus root, the implantation methods comprise the following steps:
(1) the non-irrigated lotus root kind block without lesion of rotting is chosen, each drought lotus root kind block includes a kind tooth, first by the non-irrigated lotus root kind block
Sterilization treatment is carried out, is pulled out after then being soaked 20 minutes using rooting agent solution, then the non-irrigated lotus root kind block is cleaned simultaneously with clear water
Surface moisture is dried, is sowed after being positioned over shady place 1 day to nursery and carries out nursery, wherein, rooting agent solution is by weight
Meter is prepared from by following methods:5 parts of camphortree bark, 6 parts of the coptis, 80 parts of water are put into ceramic pot, 30min is boiled using intense fire
Afterwards, camphortree bark and coptis residue are taken out while hot, are treated that ceramic pot is cooled to normal temperature, are added 10 parts of mashed garlic, 20 parts of pig manure biogas slurry, stir
Mix uniform;
(2) choose rich in organic matter and humus, the soil depth 50cm and field for having irrigation and drainage system is planted turns over kind
Ground is planted to after depth 30cm, by planting site ridging, row spacing 50cm, ditch depth 30cm, width 30cm, the past ridge after placing 2 days between ridge
Earthing after base manure is embedded in inter-drain to flatten, wherein, base manure is made up of following parts by weight material, by 20 parts of husk, straw slag 15
Part, 10 parts of rape cake, 80 parts of pig manures and biogas residues, 20 parts of pig manure biogas slurry, 10 parts of urea, 8 parts of phosphate fertilizer, 8 parts of potash fertilizer are well mixed, stack retting
Reused after 5 days;
(3) by the non-irrigated lotus root transplantation of seedlings to the planting site when the non-irrigated lotus root seedling length is to 3 leaves, thickness of sowing is row
Away from 50cm, spacing in the rows 60cm, depth of planting 12cm;
(4) after planting, the mode of irrigation is used to keep the planting site humidity for 63%, in the non-irrigated lotus root plant strain growth phase, often
Interval 7d imposes foliar fertilizer, wherein, foliar fertilizer is made up of following parts by weight material:10 parts of pig manure biogas slurry, 5 parts of ferrous sulfate, richness
Selenium fertilizer 8 parts, 500 parts of water.
Embodiment 2
A kind of implantation methods of non-irrigated lotus root, the implantation methods comprise the following steps:
(1) the non-irrigated lotus root kind block without lesion of rotting is chosen, each drought lotus root kind block includes 2 kind teeth, first by the non-irrigated lotus root kind block
Sterilization treatment is carried out, is pulled out after then being soaked 23 minutes using rooting agent solution, then the non-irrigated lotus root kind block is cleaned simultaneously with clear water
Surface moisture is dried, is sowed after being positioned over shady place 1 day to nursery and carries out nursery, wherein, rooting agent solution is by weight
Meter is prepared from by following methods:7 parts of camphortree bark, 8 parts of the coptis, 90 parts of water are put into ceramic pot, 35min is boiled using intense fire
Afterwards, camphortree bark and coptis residue are taken out while hot, are treated that ceramic pot is cooled to normal temperature, are added 13 parts of mashed garlic, 22 parts of chicken manure biogas slurry, stir
Mix uniform;
(2) choose rich in organic matter and humus, the soil depth 55cm and field for having irrigation and drainage system is planted turns over kind
Ground is planted to after depth 35cm, by planting site ridging, row spacing 55cm, ditch depth 35cm, width 30cm, the past ridge after placing 2 days between ridge
Earthing after base manure is embedded in inter-drain to flatten, wherein, base manure is made up of following parts by weight material, by 25 parts of husk, straw slag 20
Part, 15 parts of rape cake, 100 parts of chicken manure biogas residue, 25 parts of chicken manure biogas slurry, 13 parts of urea, 9 parts of phosphate fertilizer, 9 parts of potash fertilizer are well mixed, heap
Reused after macerating 6 days;
(3) by the non-irrigated lotus root transplantation of seedlings to the planting site when the non-irrigated lotus root seedling length is to 4 leaves, thickness of sowing is row
Away from 55cm, spacing in the rows 65cm, depth of planting 13cm;
(4) after planting, the mode of irrigation is used to keep the planting site humidity for 65%, in the non-irrigated lotus root plant strain growth phase, often
Interval 8d imposes foliar fertilizer, wherein, foliar fertilizer is made up of following parts by weight material:15 parts of chicken manure biogas slurry, 8 parts of ferrous sulfate, richness
Selenium fertilizer 12 parts, 350 parts of water, chicken manure biogas slurry pass through the strainer filtering of 300 mesh.
Embodiment 3
A kind of implantation methods of non-irrigated lotus root, the implantation methods comprise the following steps:
(1) the non-irrigated lotus root kind block without lesion of rotting is chosen, each drought lotus root kind block includes 2 kind teeth, first by the non-irrigated lotus root kind block
Sterilization treatment is carried out, is pulled out after then being soaked 25 minutes using rooting agent solution, then the non-irrigated lotus root kind block is cleaned simultaneously with clear water
Surface moisture is dried, is sowed after being positioned over shady place 1 day to nursery and carries out nursery, wherein, rooting agent solution is by weight
Meter is prepared from by following methods:8 parts of camphortree bark, 10 parts of the coptis, 100 parts of water are put into ceramic pot, boiled using intense fire
After 40min, camphortree bark and coptis residue are taken out while hot, are treated that ceramic pot is cooled to normal temperature, are added 15 parts of mashed garlic, stalk biogas slurry 25
Part, stir;
(2) choose rich in organic matter and humus, the soil depth 60cm and field for having irrigation and drainage system is planted turns over kind
Ground is planted to after depth 40cm, by planting site ridging, row spacing 60cm, ditch depth 40cm, width 30cm, the past ridge after placing 3 days between ridge
Earthing after base manure is embedded in inter-drain to flatten, wherein, base manure is made up of following parts by weight material, by 30 parts of husk, straw slag 25
Part, 20 parts of rape cake, 120 parts of straw biogas residue, 30 parts of stalk biogas slurry, 15 parts of urea, 10 parts of phosphate fertilizer, 10 parts of potash fertilizer are well mixed,
Stack retting is reused after 7 days;
(3) by the non-irrigated lotus root transplantation of seedlings to the planting site when the non-irrigated lotus root seedling length is to 5 leaves, thickness of sowing is row
Away from 60cm, spacing in the rows 70cm, depth of planting 15cm;
(4) after planting, the mode of irrigation is used to keep the planting site humidity for 68%, in the non-irrigated lotus root plant strain growth phase, often
Interval 10d imposes foliar fertilizer, wherein, foliar fertilizer is made up of following parts by weight material:20 parts of stalk biogas slurry, 10 parts of ferrous sulfate,
Selenium-rich fertilizer 15 parts, 500 parts of water, stalk biogas slurry pass through the strainer filtering of 300 mesh.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention
Any modifications, equivalent substitutions and improvements made within refreshing and principle etc., should be included in the scope of the protection.
Claims (5)
1. a kind of implantation methods of non-irrigated lotus root, it is characterised in that the implantation methods of the non-irrigated lotus root comprise the following steps:
(1) the non-irrigated lotus root kind block without lesion of rotting is chosen, each drought lotus root kind block includes 1-2 kind tooth, first enters the non-irrigated lotus root kind block
Row sterilization treatment, is pulled out after then being soaked 20-25 minutes using rooting agent solution, then the non-irrigated lotus root kind block is cleaned simultaneously with clear water
Surface moisture is dried, is sowed after being positioned over shady place 1 day to nursery and carries out nursery, described rooting agent solution is by weight
Meter is prepared from by following methods:5-8 parts of camphortree bark, 6-10 parts of the coptis, 80-100 parts of water are put into ceramic pot, using intense fire
Boil after 30-40min, camphortree bark and coptis residue taken out while hot, treat that ceramic pot is cooled to normal temperature, add 10-15 parts of mashed garlic,
20-25 parts of biogas slurry, stirs, that is, obtains rooting agent solution;
(2) choose rich in organic matter and humus, the soil depth 50-60cm and field for having irrigation and drainage system is planted turns over kind
Ground is planted to after depth 30-40cm, by planting site ridging, row spacing 50-60cm, ditch depth 30-40cm, width 30cm, placement 2-3 days between ridge
Flattened afterwards toward earthing after embedment base manure in the ridge inter-drain;
(3) by the non-irrigated lotus root transplantation of seedlings to the planting site when the non-irrigated lotus root seedling length to 3-5 piece leaves, thickness of sowing is line-spacing
50-60cm, spacing in the rows 60-70cm, depth of planting 12-15cm;
(4) after planting, the mode of irrigation is used to keep the planting site humidity for 63-68%, in non-irrigated lotus root plant strain growth phase, every
Foliar fertilizer is imposed every 7-10d.
2. the implantation methods of non-irrigated lotus root according to claim 1, it is characterised in that the base manure described in step (2) be by with
Lower parts by weight material composition, by 20-30 parts of husk, 15-25 parts of straw slag, 10-20 parts of rape cake, 80-120 parts of biogas residue, biogas slurry
20-30 parts, 10-15 parts of urea, 8-10 parts of phosphate fertilizer, 8-10 parts of potash fertilizer be well mixed, stack retting is reused after 5-7 days.
3. the implantation methods of non-irrigated lotus root according to claim 1, it is characterised in that the foliar fertilizer described in step (4) by with
Lower parts by weight material composition:10-20 parts of biogas slurry, 5-10 parts of ferrous sulfate, 8-15 parts of selenium-rich fertilizer, 200-500 parts of water.
4. the implantation methods of non-irrigated lotus root according to claim 3, it is characterised in that the biogas slurry passes through the filter of 200-300 mesh
Used after net filtration.
5. the implantation methods of the non-irrigated lotus root according to any one in claim 1-4, it is characterised in that the biogas slurry is stalk
Biogas slurry.
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CN111602486A (en) * | 2019-02-26 | 2020-09-01 | 贵州省亚热带作物研究所 | Seedling transplanting method for canna edulis ker seedling seeds |
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CN110235722A (en) * | 2018-03-10 | 2019-09-17 | 重庆铺力农业股份合作社 | A kind of implantation methods of high beautiful millettia root |
CN111602486A (en) * | 2019-02-26 | 2020-09-01 | 贵州省亚热带作物研究所 | Seedling transplanting method for canna edulis ker seedling seeds |
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