CN106718513A - The implantation methods of plum - Google Patents
The implantation methods of plum Download PDFInfo
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- CN106718513A CN106718513A CN201611055065.1A CN201611055065A CN106718513A CN 106718513 A CN106718513 A CN 106718513A CN 201611055065 A CN201611055065 A CN 201611055065A CN 106718513 A CN106718513 A CN 106718513A
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- Prior art keywords
- plum
- parts
- implantation methods
- nutrient solution
- plant ash
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Classifications
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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
- A01G17/00—Cultivation of hops, vines, fruit trees, or like trees
- A01G17/005—Cultivation methods
-
- 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
- A01G9/00—Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
- A01G9/02—Receptacles, e.g. flower-pots or boxes; Glasses for cultivating flowers
- A01G9/029—Receptacles for seedlings
- A01G9/0299—Handling or transporting of soil blocks or seedlings
-
- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05D—INORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C; FERTILISERS PRODUCING CARBON DIOXIDE
- C05D1/00—Fertilisers containing potassium
-
- 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
- C05G3/00—Mixtures of one or more fertilisers with additives not having a specially fertilising activity
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- Life Sciences & Earth Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Environmental Sciences (AREA)
- Organic Chemistry (AREA)
- Botany (AREA)
- Soil Sciences (AREA)
- Pest Control & Pesticides (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Inorganic Chemistry (AREA)
- Cultivation Of Plants (AREA)
Abstract
This patent discloses a kind of plum implantation methods, including leveling earth and dig pit, plum seedling is carried out nutrient solution immersion treatment, is transplanted and is watered;The nutrient solution is made up of the raw material of following components by weight percent:13 parts of the root of Dahurain angelica, 25 parts of the sunflower stem heart, 0.1 0.3 parts of Inula britannica chinensis, 0.5 2 parts of the bark of eucommia, 0.8 1.2 parts of plant ash, 20 parts of the limewash that mass concentration is 30%.This patent is that the whole planting process solved in the presence of prior art is cumbersome, and need nourishing ingredient more, planting cost technological deficiency higher, there is provided one kind is not on the premise of Japanese plum survival rate is influenceed, simplify the plantation program of Japanese plum, reduce the implantation methods of the plum of planting cost.
Description
Technical field
The present invention relates to planting fruit trees technical field, especially a kind of plum implantation methods.
Background technology
Plum, latin name Prunus, also known as good Ying Zi, cloth continuous heavy rain, plum, Jade Emperor Lee, mountain plum are, it is rosaceous plant Lee
The fruit of tree.In the prior art, the implantation methods for plum are incorrect so that the survival rate reduction of plum.
In order to solve the above-mentioned technical problem, Chinese patent CN106083247A provides a kind of plum implantation methods, to base
After digging pit, burnt in hole using stalk, then carry out Irrigation levels so that be sterilized treatment in hole, exists in conjunction with plum seedling
The covering treatment of soil and nutritional agents is transplanted, buried after being soaked in nutrient solution so that the survival rate of plum seedling is improved so that move
Plant 100 plums, its survival rate to more than 95%.
But also there is following technological deficiency in above-mentioned patented technology:
Burnt in needing to be cheated before the transplanting, then carry out Irrigation levels, in addition it is also necessary to the covering treatment of nutritional agents, entirely planted
Journey is cumbersome, and needs nourishing ingredient more, and planting cost is higher.
The content of the invention
The technical problems to be solved by the invention are the plantation journeys for simplifying Japanese plum on the premise of Japanese plum survival rate is not influenceed
Sequence, reduces planting cost.
In order to solve the above technical problems, the present invention provides following technical scheme:
The implantation methods of plum, including leveling earth, plum seedling is carried out nutrient solution immersion treatment, transplant with the fertilising in later stage,
Water;The nutrient solution is made up of the raw material of following components by weight percent:2 parts of the root of Dahurain angelica, 3 parts of the sunflower stem heart, 0.2 part of Inula britannica chinensis, Du
Secondary 1 part, 1 part of plant ash, 20 parts of the limewash that mass concentration is 30%.
Using above-mentioned technical proposal, have the following technical effect that:
1st, due to have changed the component formula of nutrient solution, need not be burned in hole when early stage is planted, prepare the behaviour such as nutritional agents
Make the survival rate it is also ensured that more than 95%.
2nd, because the effect of the nutrient solution improves the cold tolerance of whole plant, not only improve plant strain growth and also can
Survival rate is improved indirectly.
Further, described watering needs after the transfer 3-15 days interior to carry out.
Supplement of the limewash as moisture content is had been added in when being planted due to early stage, so later stage moisturizing can be at 3-5 days
After carry out, mitigate early stage plantation operation workload.
Further, the nutrient solution is made up of the raw material of following components by weight percent:It is 2 parts of the root of Dahurain angelica, 3 parts of the sunflower stem heart, sheathed
Spend 0.2 part, 1 part of the bark of eucommia, 1 part of plant ash, 20 parts of the limewash that mass concentration is 30%.
The experiment proved that, the nutrient solution for optimizing component is more beneficial for the raising of plant cold tolerance.
Further, the nutrient solution its preparation method is ground after mixing the root of Dahurain angelica, the sunflower stem heart, Inula britannica chinensis, the bark of eucommia
Into powder, then after being well mixed with plant ash, stirring after being added in limewash and obtain.
It is more simpler than other compound methods using the method for ground and mixed, contribute to simple flow, existing cultivation can be accomplished
Now match somebody with somebody.
Further, the depth in the hole is 20cm.
Hole it is too deep excessively it is shallow be unfavorable for plant thribble grow, so using this experience preferred value of 20cm.
Further, the plum seedling needs the immersion treatment 10min in nutrient solution.
Steep long or it is too short be unfavorable for plant late growing stage, so using this experience preferred value of 10min.
Brief description of the drawings
Fig. 1 is the SOD testing result statistical forms of each experimental group.
Wherein hollow diamonds represent first group, and hollow, rectangular represents second group, and three-pointed hollow star represents the 3rd group.
Specific embodiment
Below by specific embodiment, the present invention is further detailed explanation:
Embodiment one
The implantation methods of the present embodiment plum include:
(1) leveling earth, and treatment of digging pit is carried out, the spacing between hole and hole is 4m, cheats depth 20cm, cheats width 10cm, and hole is dug
After good, to the stalk that filling 10cm in hole is deep, and stalk is lighted, after straw burning is complete, then poured water thereto to 10cm,
It is stand-by;
(2) plum seedling is placed in immersion treatment 10min in nutrient solution, then is transplanted in the hole that step (1) is handled well, and adopted
2cm is covered with soil thick, then 1cm is covered using decomposed cow dung, then after covering the thick soil of 1cm, then covered using potassium dihydrogen phosphate
Lid 0.2cm is thick, then covers 1cm thickness using soil, then thick using nutritional agents covering 1cm, and after one layer of straw of 1cm thickness of covering,
Filled to hole using soil and filled up;
(3) after step (2) to be done, 10 days are spent, are watered, according to the every plant of 2kg that waters, you can.
Described nutrient solution, its material composition is by weight root of Dahurain angelica 3kg, sunflower stem heart 4kg, Inula britannica chinensis 0.2kg, Du
Secondary 1.5kg, plant ash 1kg, the limewash 20kg that mass concentration is 30%.
Described nutrient solution, its preparation method is pulverized after mixing the root of Dahurain angelica, the sunflower stem heart, Inula britannica chinensis, the bark of eucommia
End, then after being well mixed with plant ash, is added in limewash and stirs, and obtains final product.
Described stalk, it is maize straw.Described nutritional agents, its material composition is by weight zinc source 0.5kg, selenium
Source 0.3kg, plant ash 5kg, cow dung 2kg, pig manure 1kg, sheep manure 3kg, waterglass 0.1kg, sulphur 1kg.Described nutritional agents, system
Preparation Method is after being well mixed cow dung, pig manure, sheep manure, to be deposited in the environment that temperature is 40 DEG C, controls biodiversity content
It is 50%, processes 20 days, then after zinc source, selenium source, plant ash are sequentially added stirring, by its ground 30 mesh sieve, then will
Waterglass and sulphur are added and are well mixed, and adjustment biodiversity content is 20%, is obtained final product;Described selenium source is Selenium Sulphate;It is described
Zinc source be zinc sulfate.
Technical scheme according to embodiment one is divided into five groups and is transplanted, 100 plums of every group of transplanting, its average survival
Reach 96.12%.
Embodiment two
The implantation methods of the present embodiment plum include:
(1) leveling earth, and treatment of digging pit is carried out, the spacing between hole and hole is 4m, cheats depth 20cm, cheats width 10cm, and hole is dug
It is stand-by after good;
(2) plum seedling is placed in immersion treatment 10min in nutrient solution, then is transplanted in the hole that step (1) is handled well, and adopted
Cover in and be charged to hole and fill up;
(3) after step (2) to be done, 10 days are spent, waters and apply appropriate farm manure.
Described nutrient solution, its material composition is by weight root of Dahurain angelica 2kg, sunflower stem heart 3kg, Inula britannica chinensis 0.2kg, Du
Secondary 1kg, plant ash 1kg, the limewash 20kg that mass concentration is 30%.
Described nutrient solution, its preparation method is pulverized after mixing the root of Dahurain angelica, the sunflower stem heart, Inula britannica chinensis, the bark of eucommia
End, then after being well mixed with plant ash, is added in limewash and stirs, and obtains final product.
Technical scheme according to embodiment two is divided into five groups and is transplanted, 100 plums of every group of transplanting, its average survival
Reach 96.24%.
Comparative example one
The implantation methods of this comparative example plum include:
(1) leveling earth, and treatment of digging pit is carried out, the spacing between hole and hole is 4m, cheats depth 20cm, cheats width 10cm, and hole is dug
After good;
(2) plum seedling is placed in and is transplanted in the hole that step (1) is handled well, filled to hole using soil and filled up;
(3) after step (2) to be done, 10 days are spent, are watered, according to the every plant of 2kg that waters, you can.
Technical scheme according to comparative example one is divided into five groups and is transplanted, 100 plums of every group of transplanting, its average survival
Reach 83.27%.
Comparative example two
The implantation methods of this comparative example plum include:
(1) leveling earth, and treatment of digging pit is carried out, the spacing between hole and hole is 4m, cheats depth 20cm, cheats width 10cm, and hole is dug
After good, to the stalk that filling 10cm in hole is deep, and stalk is lighted, after straw burning is complete, then poured water thereto to 10cm,
It is stand-by;
(2) plum seedling is placed in immersion treatment 10min in nutrient solution, then is transplanted in the hole that step (1) is handled well, and adopted
2cm is covered with soil thick, then 1cm is covered using decomposed cow dung, then after covering the thick soil of 1cm, then covered using potassium dihydrogen phosphate
Lid 0.2cm is thick, then covers 1cm thickness using soil, then thick using nutritional agents covering 1cm, and after one layer of straw of 1cm thickness of covering,
Filled to hole using soil and filled up;
(3) after step (2) to be done, 10 days are spent, are watered, according to the every plant of 2kg that waters, you can.
Described nutrient solution, its material composition by weight for Bright Yellow 1kg, sweet wormwood 3kg, WUDUOYUN 1kg, bark of eucommia 1kg,
Mass concentration is 30% limewash 20kg, calcium dihydrogen phosphate 1kg, calcium monohydrogen phosphate 0.1kg, plant ash 1kg.
Described nutrient solution, its preparation method is grind into powder after mixing Bright Yellow, sweet wormwood, WUDUOYUN, the bark of eucommia, then
After being well mixed with calcium dihydrogen phosphate, calcium monohydrogen phosphate, plant ash, it is added in limewash and stirs, obtains final product.
Described stalk, it is maize straw.Described nutritional agents, its material composition is by weight zinc source 0.5kg, selenium
Source 0.3kg, plant ash 5kg, cow dung 2kg, pig manure 1kg, sheep manure 3kg, waterglass 0.1kg, sulphur 1kg.
Described nutritional agents, preparation method is that it is 40 DEG C to be deposited in temperature after being well mixed cow dung, pig manure, sheep manure
In environment, biodiversity content is controlled for 50%, processed 20 days, then zinc source, selenium source, plant ash are sequentially added stir
Afterwards, by its ground 30 mesh sieve then waterglass and sulphur addition is well mixed, adjustment biodiversity content is 20%, is obtained final product;
Described selenium source is Selenium Sulphate;Described zinc source is zinc sulfate.
Technical scheme according to comparative example two is divided into five groups and is transplanted, 100 plums of every group of transplanting, its average survival
Reach 96.39%.
The calculating of survival rate in above-described embodiment and comparative example, is the data for starting statistics after transplanting a year.
In contrast from embodiment one and comparative example two, can equally be reached using improved nutrient solution of the invention and carried
The survival rate of Japanese plum high;In from the contrast of embodiment two and comparative example two, using improved nutrient solution of the invention after, it is described
Nutritional agents, decomposed cow dung, potassium dihydrogen phosphate etc. can no longer need, can be cost-effective very on great achievement degree;And the stalk
And burn pour after the operation poured water again, regardless of whether using can not significantly affect final survival rate result.Fired using stalk
That burns and then pour water disinfects, and is only capable of reducing the bacterial content in hole in a short time, and the bacterium after 3-8h in the hole contains
Amount will recover conventional levels again, and the lifting of Japanese plum shoot survival percent depends primarily on the effect of nutritional agents, at the sterilization for being used
Reason method wastes time and energy and produces little effect.
Measuring:
The Japanese plum leaf for having planted 1 year in embodiment two, comparative example one, comparative example two is now made into superoxides discrimination as sample
Change enzyme (SOD) to determine, so as to verify the distinctive points of each embodiment:
The scavenger enzymatic protective system of live body oxygen and free radical is there is in plant:Including catalase (CAT), peroxidating
Thing enzyme (POD), superoxide dismutase (SOD), ascorbic acid oxidase (ASAPOD) can eliminate this murder by poisoning, maintain cell membrane
Stabilization.
SOD is one of enzyme of most important removing free radical in plant, and it is a kind of enzyme containing metal, in the leaf of plant
It is distributed in green body, mitochondria and cytoplasm.And active its cold-resistant power performance with plant of SOD is opposite during low temperature.
Pluck:First group, second group and the 3rd group is respectively designated as with embodiment two, comparative example one, comparative example two, respectively
It is random in each group to select 40 trees as experimental plants, during 9.3 to 10.21, just once plucked work within every 8 days,
It is at night on the same day to pluck every time(Below 10 degrees Celsius, first, second and third group of planting base is located at new for temperature
Boundary, its nocturnal temperature is relatively low, belongs to low temperature environment)Win the blade of first, second and third group of all experimental plants, it is desirable to same
Secondary each blade won comes from different experimental plants.
Sample preprocessing:To each blade, organized with scissors clip 0.4g, add 1mL0.1molL-1PH=7.8's
Phosphate buffer, ice bath is ground to homogenate, makes final volume be 6mL, 10000rmin at 4 DEG C-1Centrifugation 15min, supernatant is
Thick zyme extract(Hereinafter referred to as enzyme liquid), collecting supernatant is used for enzyme assay;
SOD determinations of activity:The phosphate buffer of 0.02mL enzyme liquids plus 1.5mL is taken, reaction mixture 1.7mL [130mmol are added
L-1Methionine (Met) 0.3mL, 750 μm of olL-1Nitroblue tetrazolium (NBT) 0.3mL, 100 μm of olL-1EDTA-Na20.3mL,
20μmol·L-1Riboflavin 0.3mL and distilled water 0.5mL], 18min is reacted under 4000lx fluorescent lamps, surveyed under the light of 560nm wavelength
Determine absorbance.
Calculated as follows:SOD activity=([A0-AS)VT × 60]/[A0 × 0.5 × FW × V1 × T] formula
(2-4)In formula, A0 --- absorbance value of the absorbance value of irradiation control tube, AS --- sample cell, VT --- sample liquid cumulative volume
(mL), FW --- sample fresh weight(g), V1 --- amount of samples during measure(mL), T --- light application time(s), enzymatic activity is with U
g-1FW·min-1Represent.
The SOD activity average values of each group are calculated every time, and the SOD activity average values of each group are carried out into chart show(Such as Fig. 1
It is shown), it can thus be appreciated that first group be embodiment two SOD activity aggregate level it is minimum, i.e., using the plantation side of embodiment two
Japanese plum obtained by method, its cold-resistant ability is most strong(Its cold-resistant power performance is opposite with plant for SOD activity during low temperature), and use right
Japanese plum obtained by the implantation methods of ratio one, two, its cold-resistant ability is close, and the general effect of comparative example two is also less than
Comparative example one, it can be seen that the cold-resistant ability of common Japanese plum can be weakened using the implantation methods of comparative example two.
Above-described is only embodiments of the invention, and the general knowledge such as known concrete structure and characteristic is not made herein in scheme
Excessive description.It should be pointed out that for a person skilled in the art, on the premise of structure of the present invention is not departed from, can be with
Some deformations and improvement are made, these should also be considered as protection scope of the present invention, these are implemented all without the influence present invention
Effect and practical applicability.This application claims protection domain should be defined by the content of its claim, in specification
Specific embodiment etc. records the content that can be used for explaining claim.
Claims (6)
1. the implantation methods of plum, including leveling earth are simultaneously digged pit, plum seedling are carried out nutrient solution immersion treatment, is transplanted and the later stage
Fertilising, water;Characterized in that, the nutrient solution is made up of the raw material of following components by weight percent:Root of Dahurain angelica 1-3 parts, sunflower stem
Heart 2-5 parts, Inula britannica chinensis 0.1-0.3 parts, bark of eucommia 0.5-2 parts, plant ash 0.8-1.2 parts, the limewash 20 that mass concentration is 30%
Part.
2. implantation methods of plum as claimed in claim 1, it is characterised in that 3-15 days for needing after the transfer of watering
Inside carry out.
3. implantation methods of plum as claimed in claim 1, it is characterised in that the nutrient solution by following components by weight percent original
Material composition:2 parts of the root of Dahurain angelica, 3 parts of the sunflower stem heart, 0.2 part of Inula britannica chinensis, 1 part of the bark of eucommia, 1 part of plant ash, the stone that mass concentration is 30%
20 parts of buck.
4. implantation methods of plum as claimed in claim 1, it is characterised in that the nutrient solution its preparation method is will be white
Grind into powder after the root of Dahurian angelica, the sunflower stem heart, Inula britannica chinensis, bark of eucommia mixing, then after being well mixed with plant ash, be added in limewash
Stir afterwards and obtain.
5. implantation methods of plum as claimed in claim 1, it is characterised in that the depth in the hole is 20cm.
6. implantation methods of plum as claimed in claim 1, it is characterised in that the plum seedling needs to be soaked in nutrient solution
Treatment 10min.
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CN201611055065.1A CN106718513A (en) | 2016-11-25 | 2016-11-25 | The implantation methods of plum |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109287365A (en) * | 2018-11-26 | 2019-02-01 | 贵州济生农业科技有限公司 | A kind of bee sugar Lee plantation breeding method |
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CN104402630A (en) * | 2014-12-08 | 2015-03-11 | 镇江市官塘生态农业有限公司 | Peach nutrient solution |
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Application publication date: 20170531 |