CN1564654A - Method of producing rooted cutting of arboreous plant - Google Patents

Method of producing rooted cutting of arboreous plant Download PDF

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Publication number
CN1564654A
CN1564654A CNA028196384A CN02819638A CN1564654A CN 1564654 A CN1564654 A CN 1564654A CN A028196384 A CNA028196384 A CN A028196384A CN 02819638 A CN02819638 A CN 02819638A CN 1564654 A CN1564654 A CN 1564654A
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China
Prior art keywords
solution
scion
cutting
carbonic acid
acid gas
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CNA028196384A
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CN1259816C (en
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湊明久
浅田隆之
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New Oji Paper Co Ltd
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Oji Paper Co Ltd
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Priority claimed from JP2001306454A external-priority patent/JP2003111521A/en
Priority claimed from JP2002154913A external-priority patent/JP2003339227A/en
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Publication of CN1564654A publication Critical patent/CN1564654A/en
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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G22/00Cultivation of specific crops or plants not otherwise provided for
    • A01G22/40Fabaceae, e.g. beans or peas
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G2/00Vegetative propagation
    • A01G2/10Vegetative propagation by means of cuttings
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G22/00Cultivation of specific crops or plants not otherwise provided for
    • A01G22/60Flowers; Ornamental plants
    • A01G22/67Dwarf trees, e.g. bonsai

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  • Life Sciences & Earth Sciences (AREA)
  • Botany (AREA)
  • Environmental Sciences (AREA)
  • Developmental Biology & Embryology (AREA)
  • Cultivation Of Plants (AREA)
  • Agricultural Chemicals And Associated Chemicals (AREA)

Abstract

It is intended to propose a method of improving rooting ability of a cutting which is applicable to afforestation on a mass scale, can be easily controlled and enables improvement in rooting ability even in a hardly rooting arboreous plant. In a method of putting a cutting into a medium to give a rooted cutting, water containing at least one member selected from among carbon dioxide, oxygen, carbonate ion and hydrogencarbonate ion dissolved therein is supplied to the cutting to thereby promote the rooting of the cutting. The water is supplied by intermittently spraying or sprinkling. The arboreous plant is exemplified by those belonging to the genera Eucalyptus and Acacia.

Description

The production method of rooted cutting of arboreous plant
Technical field
The present invention relates to the production method of a kind of woody (arboreous) plant establishment cutting (cutting).Taking root for transplanting a cutting is meant the seedling that the scion of collection on breeding plant trunk forms, and is used for purposes such as large-scale afforestation.
Background technology
Be disclosed by on plant leaf surface, scattering the technology that the moisture-activated photosynthesis of plants be dissolved with carbonic acid gas improves plant products, for example, examine Japanese patent application 61-18131 number and the 08-84530 document in open.
Plant roughly is divided into woody stems the is arranged woody plant of (trunk (bark)) and the pliable and tough many slurries of acrial part but does not present the herbaceous plant of lignitoid.As everyone knows, usually, in the commercial nursery of woody plant, generally have by seedling that comes from seed germination formation and the clone nursery stock that obtains by cuttage, grafting or cell culture.Specifically, cuttage is a kind of most convenient and the technology that obtains clone nursery stock economically, for example in South America, ground such as Europe, Southeast Asia and South Africa use this technology to produce a large amount of eucalyptus to belong to the cutting of taking root of (Eucalyptus) and Acacia (Acacia) and be used for large-scale afforestation.
The prior art write up of the cuttage of taking root that belongs to about eucalyptus is in " eucalyptus domestication and breeding " (" Eucalypt Domestication and Breeding ") (K.G.Eldridge, J.Davidson and C.Harwood, 1993, New York:Oxford University Press Inc., 237-246.)
According to the instruction of the document, cut off 1-4 joint from the branch of elite stand, 2-8 sheet leaf, and blade-section removed with the preparation scion.This scion (Scion) is soaked in germicidal solution (as benomyl (Benlate)), and its base portion is coated with the hormone pulvis, (as the indolebutyric acid of root-inducing promoter) or soak in hormone solution, inserts then in the jack of cuttage medium.As the cuttage medium, the mixture of two or more in bark, sand, sawdust, bog moss, vermiculite, perlite, charcoal or these materials can use.Usually, the cuttage medium is placed on such as seedling-growing container or inserts in the container of dish (plug tray) etc.
Any material with suitable permeability and water retention capacity all can be used as the cuttage medium.The balance of permeability and water retention capacity is successfully taken root to scion and is played key effect.And, rotting in order to prevent scion, the cuttage medium should not comprise organic substance, and preferably will sterilize.Usually, although do not need fertilising, slow release graininess fertilizer can be sneaked into medium, or can add liquid fertilizer when irrigating.Because taking root, scion needs suitable temperature, high humidity and the air of circulation, therefore can be in conjunction with adopting spraying, atomizing, cover polyethylene film, shading and the technology of bottom heating.In order to bring better effect, the sunshine time that needed in every month is approximately 400 hours.
Yet, even use describe in the document of front through the cutting method of approval highly because multiple condition, as use the weather of this scion method country, so be difficult to usually guarantee that scion takes root.In addition, scion rootability is different with seeds.Even these seeds have strong rootability, because the various physiological factors of elite stand, scion also is difficult to take root.And, even prune elite stand and do scion, be difficult to also usually guarantee that scion takes root with the branch that its germinates.
Therefore, the rootability of scion depends on the meteorological factor of Production Regional or the hereditary factor or the physiological factor of scion to a great extent.Therefore,, be difficult to guarantee that scion has consistent rootability according to traditional scion method, thus the extremely difficult cutting of effectively taking root.
As a result, under many circumstances, the production that can only abandon taking root and transplant a cutting, this is the loss on the industry.Thereby, need a kind of scion production method that can effectively improve the scion rootability and keep the rootability unanimity.Especially the technology that needs a kind of effectively production large tracts of land afforestation to take root and transplant a cutting with eucalyptus genus seeds and Acacia seeds.
Japanese unexamined patent publication No. publication number 2001-186814 discloses a kind of method, comprise step: " preparation one usefulness the liquid medium moistening bed of taking root in insulating box; the medium cultivation is inserted in scion; and control the concentration of carbon dioxide in the insulating box ", and described, use this technology can improve the rootability of scion.
Yet, under the situation of afforestation,, also need the amount of growing seedlings (nursery stock) of 1000-10000 strain even under the situation of test, form industry, need the amount of growing seedlings of ten thousand strains more than 100.
Separating a large amount of like this scion in insulating box or culturing room, keep that simultaneously mobile carbonic acid gas is arranged in insulating box or the culturing room, is very difficult.
Purpose of the present invention just provides the method that a kind of production is taken root and transplanted a cutting, and this method can make scion take root high possibility, can be used for large-scale afforestation.Specifically, the invention provides the method for taking root and transplanting a cutting of a kind of woody plant of effectively production rootability difference.
Summary of the invention
In order to address the above problem, the present invention has adopted following technical scheme.Promptly, a first aspect of the present invention provides a kind of production method of rooted cutting of arboreous plant, wherein a kind of medium is inserted in scion, this method comprises that the described scion in inserting described medium provides at least a solution to improve the step of its rootability, and this solution is selected from carbonic acid gas solution, oxygen solution, carbanion solution and bicarbonate ion solution.
A second aspect of the present invention is the first aspect according to the invention described above, comprises the step that described solution is provided to the acrial part of scion in the mode of intermittent spraying.
A third aspect of the present invention is the second aspect according to the invention described above, comprise the time of setting the described solution of spraying and the step of setting each spray intervals, wherein, the described time begins to fall the required time and decides by sticking to described solution on the scion blade face, and decide by sticking to described solution on the scion blade face elapsed time that begins to become dry at described interval.
A fourth aspect of the present invention is the first aspect according to the invention described above, comprises the step that described solution is provided to scion in the mode of irrigating described solution to medium.
A fifth aspect of the present invention is a kind of production method of rooted cutting of arboreous plant, wherein scion is inserted in the medium, the method comprising the steps of: the acrial part of scion provides at least a solution in being inserted in medium off and on, and to medium discontinuous ground irrigation oxygen solution, described at least a solution is selected from carbonic acid gas solution, carbanion solution or bicarbonate ion solution.
A sixth aspect of the present invention is the either side according to first to five aspect of the invention described above, comprises from eucalyptus belonging to seeds or the woody plant of Acacia choice of tree species to gather scion.
The accompanying drawing summary
Fig. 1 has described use membrane module (module) and compressed carbon dioxide gas cylinder (cylinder) preparation carbonic acid gas solution and according to the situation of the acrial part spraying carbonic acid gas solution of the scion of method of the present invention in being inserted in medium.
Fig. 2 has described the situation that the oxygen cylinder that uses membrane module and compression prepares oxygen solution and irrigates oxygen solution according to method of the present invention to medium.
Implement best mode of the present invention
Just as stated in the Background Art, use cutting production clone seedling economy, easy, be applicable to large-scale afforestation.The inventive method can be used for all cutting that are collected in any woody plant.Certainly, this method also can be used for producing the production of taking root and transplanting a cutting that the eucalyptus that is widely used in afforestation recently belongs to seeds and Acacia seeds.
Eucalyptus belongs to seeds and comprises the seeds that are used for papermaking material (pulp wood), as eucalyptus camaldulensis (Eucalyptuscamaldulensis), big eucalyptus (Eucalyptus grandis), blue gum (Eucalyptus globulus), shining gum (Eucalyptus nitens), gray gum (Eucalyptus tereticornis), Eucalyptus urophylla, Eucalyptus dunnii, with one of above-mentioned seeds is parent's crossbreed, and subspecies and mutation.Also comprise the seeds such as Eucalyptus gunii, ribbon gum (Eucalyptus viminalis) or the similar seeds that are used for gardening, greening and decorative purpose.
More detailed description is referring to " environmental improvement: eucalyptus belongs to the effect of seeds and other quick growing species of trees " (" Environmental management; The role of Eucalyptus and Other FastGrowing Species ") K.G.Eldridge, M.P.Crowe and K.M.Old edit; 1995; CSIRO publishing house) and " eucalyptus as green tree species belongs to seeds " (" Eucalyptus Species as greeningtrees ") (T.Ishikawa; 1980, Zorin-Ryokukagijyutu-kenkyusho).
The Acacia seeds comprise the seeds that are used for papermaking material, as ear shape Acacia (Acaciaauriculiformis), Acacia mangium, black chaste tree (Acacia mearnsii), Acacia crassicarpa, Acacia aulacocarpa, Acacia glaucocarpa, with one of above-mentioned seeds is parent's crossbreed, and subspecies and mutation.Also comprise be used for gardening, greening and decorative purpose as Bei Lishi acacia rachii (Acacia baileyana), silver wattle (Acacia dealbata) or similar seeds.
The elite stand of gathering scion can be with potted plant seedling or open-air seedling, and the nursery seedling can be naturally to give birth to tree or the tree of cultivation is pruned in germinating.And the elite stand of gathering scion can be a seedling or by shearing, grafting or the parent clone seedling by being recovered such as the method for cell culture.Though the age to elite stand does not have concrete qualification, the preferred strong low age of tree seeds of rootability.
Now, according to " domestication of eucalyptus and cultivation " (" Eucalypt domestication andbreeding ") (1993, New York:Oxford University Press Inc.) method of describing in detail in is by the scion that obtains from elite stand and be inserted in the cultivating process of taking root the medium and transplanting a cutting.From the elite stand cutting-out 1-4 joint arranged, the branch of 2-8 sheet leaf, blade is partly removed when the preparation scion usually.This scion is immersed in the germicidal solution benomyl, and insertion is placed on such as seedling-growing container or inserts in the cuttage medium that coils in container or the similar containers then.
As the cuttage medium, the mixture of two or more in bark, sand, sawdust, bog moss, vermiculite, perlite, charcoal or these materials can use.Any material with suitable permeability and water retention capacity all can be used as the cuttage medium.Rotten in order to prevent scion, after cuttage, should regularly spray bactericide.
The promotion liquid of taking root among the present invention promotes it to take root by offering the cutting that is inserted in the medium.This solution can be selected from carbonic acid gas solution, oxygen solution, carbanion solution or bicarbonate ion solution.
Term " carbonic acid gas solution " is meant the water that is dissolved with in per 1 premium on currency under 25 ℃ the temperature greater than the 0.52ppm carbonic acid gas.In like manner, term " oxygen solution " is meant and is dissolved with the 8.4ppm or the water of polyoxy more under 25 ℃ the temperature in per 1 premium on currency.
That is to say, are 0.52ppm at the saturation solubility of 25 ℃ of airborne partial pressure carbon dioxides, and under an atmospheric pressure, the saturation solubility of carbonic acid gas is 1491ppm.The saturation solubility of oxygen is 8.4ppm under 25 ℃ of airborne partial pressures, and under an atmospheric pressure, the saturation solubility of oxygen is 40ppm.Foregoing document JP 2001-186814 confirms that the maximum concentration of Carbon Dioxide in Air is 1500ppm.Therefore, if dissolve the carbonic acid gas of saturated concentration in water, the calculated value of gas concentration lwevel is 2.25ppm in the water.
The preferred 10ppm of concentration of carbon dioxide or higher in the solution of the present invention, more preferably 1000ppm or higher, further preferred 1500ppm (as previously mentioned, this saturated concentration is corresponding to an atmospheric pressure) or higher is most preferably greater than 2000ppm.The concentration of carbon dioxide that is dissolved in the water that offers general plant growing is low.Yet,, as mentioned above, especially to effectively possess high gas concentration lwevel in order to significantly improve the rootability of scion.But because it is very difficult above the carbonic acid gas solution of 10000ppm to produce gas concentration lwevel, so concentration of carbon dioxide is lower than 10000ppm in the carbonic acid gas solution of practical application.
The concentration requirement of oxygen is 10ppm or higher in the solution of the present invention, preferred 16ppm or higher, more preferably 40ppm or higher (as previously mentioned, this saturated concentration is corresponding to an atmospheric pressure).
According to the present invention, term " carbanion solution " is meant the solution that the dissolving water soluble carbonate obtains in water, and term " bicarbonate ion solution " is meant the solution that the water-soluble acid carbonate of dissolving obtains in water.The carbanion in the described solution or the concentration of bicarbonate ion are preferably in the scope of gas concentration lwevel when corresponding ion is converted into above-mentioned carbonic acid gas.In other words, the CO that converts by the solute value (mg) that is dissolved in 1 premium on currency 2Amount is preferred in the scope of 10mg-2000mg.
The carbonic acid gas solution that uses among the present invention, its preparation method is without any qualification.
An example of this method is that dry ice is contacted with water.Second example is that dissolvings such as sodium carbonate, ammonium carbonate, potash, carbonic hydroammonium, sodium bicarbonate (heavy carbonate), saleratus are produced carbanion and bicarbonate ion, and adding acid makes the pH reduction of water produce carbonic acid gas.
The 3rd example is by acquisition carbonic acid gas such as burning mineral fuels, obtain carbonic acid gas or use the carbon dioxide separation film to separate and collect carbon dioxide in air obtaining from the chemical gas cylinder that is full of carbonic acid gas, the carbonic acid gas that obtains is blown into obtains carbonic acid gas solution in the water then.The 4th example be with water spray in the pressurizing vessel that is full of carbon dioxide, or opposite, carbonic acid gas is added in the water-filled pressure vessel.The 5th example is to use the approach of porous membrane, be typically hollow fiber film, former water be penetrated into hollow space simultaneously carbonic acid gas penetrate outer surface and make carbonic acid gas be dissolved into to flow through (disclosed) in the former water of hollow space as Japanese patent unexamined publication number JP 2001-293342.The 6th example is by with material with carbon element anode electrolysis water generates carbon dioxide, then it is dissolved in (H6-154760 is disclosed as the Japanese patent unexamined publication number) in the water.
The carbanion solution that uses among the present invention and the preparation method of bicarbonate ion solution are without any qualification.For example, the PH that alkali improves the aqueous solution be can in the carbonic acid gas solution that makes by above-mentioned either party's method, add, the bicarbonate ion aqueous solution or the carbanion aqueous solution are easy to make.In addition, carbonic acid gas dissolves in the alkaline aqueous solution.
And dissolvings such as sodium carbonate, ammonium carbonate, potash, carbonic hydroammonium, sodium bicarbonate (heavy carbonate), saleratus can generate carbanion solution and bicarbonate ion solution.
The preparation method of the oxygen solution that in like manner, uses among the present invention is also without any qualification.First example of preparation oxygen solution methods is to produce O with contacting with water 2Material, for example peromag or calper calcium peroxide contact with water.Second example is to make O by little footpath perforated membrane or atresia Breathable films 2Thereby gas contacts with water making O 2Gas is dissolved in the water.And the 3rd example is that brine electrolysis produces O 2Gas also makes described O 2Dissolving.
According to the present invention, at least use a kind of taking root to promote the acrial part of the scion of liquid in being inserted in medium to spray off and on, the spraying number of times changes because of seeds and environmental condition, and this solution is selected from carbonic acid gas solution, oxygen solution, carbanion solution and bicarbonate ion solution.Therefore, use spraying without limits.Yet, as an example, can be from once selecting by per 10 minutes once a day.
The spray time that promotes liquid of taking root is set at by the described water that sticks on the scion blade face and begins to fall the required time, and the spray intervals of every kind of solution preferably sets the described required time of water evaporation on the plant surface of sticking to of serving as reasons.Spray time, common scope are 5-180 seconds.
And, promote the spray pattern of liquid not have particular determination to taking root.Yet, preferred usually spraying element such as the nozzle of using, spraying nebulizes.The average grain diameter that nebulizes is preferably in the scope of 10-100 micron.Thereby for example, carbonic acid gas solution can be evenly distributed on the blade face, and adheres to the form of fine drop, disperses to enter scion because of concentration gradient makes carbonic acid gas, promotes scion to take root.
Not concrete qualification of amount that scion is taken root and promoted liquid.But spray amount is preferably established at each single spraying element per minute 50-300cc.
In order to irrigate, this solution can be applied in the scion medium continuously, perhaps arrive several times once a day.That is, medium can be suitably moistening, perhaps above the medium some water can be arranged.
Describe the method that production of the present invention is taken root and transplanted a cutting in conjunction with following accompanying drawing with embodiment more specifically, wherein use membrane process to make carbonic acid gas solution and oxygen solution, offer scion, they are taken root.
Fig. 1 has shown an embodiment of the inventive method, and wherein, carbonic acid gas is dissolved in the former water to predetermined concentration, intermittently sprays to scion then.Fig. 1 shows the carbonic acid gas solution generator, and it is made up of the control valve SV2 of raw water vessel WT, booster P, filter F, membrane module MO, dioxide bottle 1 and upstream side, and the overall operation of generator is controlled by unshowned controller.
Raw water vessel WT is the container that holds former water, is used to produce carbonic acid gas solution.Although about not concrete qualification of kind of former water, it is economical that water is preferably wanted.
Booster P is used for providing above-mentioned former water to membrane module MO.Flow and flow velocity depend on the discharge capacity of this booster.In the present embodiment, the flow that provides is a per minute 1-1.5 liter.
Filter F is contained in the dirty of booster P, if necessary, is used for removing the contained particle of former water from booster P discharging.
Membrane module MO makes the former current that transmit from the upstream prepare carbonic acid gas solution through it as the membrane module that discharges air by supplying carbon dioxide simultaneously.Membrane module MO produces barometric gradient inside and outside film, can easily be generated the carbonic acid gas solution of predetermined concentration like this by former water.
And if when a part of water of handling in membrane module MO is got back to the entrance side of booster JN, this treated water can easily produce the carbonic acid gas solution with predetermined concentration by circulating.
By the carbonic acid gas solution that equipment shown in Figure 1 produces, compare CO with the carbonic acid gas solution that other method produces 2Concentration higher.For example, CO under 20 ℃ atmospheric pressure 2Solvability approximately be 1.78 (g/l water), this CO 2Concentration is the upper limit under the atmospheric pressure.On the other hand, according to equipment shown in Figure 1, by apply air pressure (1.1-5.0kgf/cm to membrane module 2), can make CO 2Be dissolved to the corresponding saturated concentration of this air pressure.
And equipment shown in Figure 1 not only can be used for preparing carbonic acid gas solution, also can be used for preparing oxygen solution, with the O that under atmospheric pressure is dissolved in the water 2Gas concentration is compared, and the oxygen solution for preparing by this equipment has higher O 2Concentration.For example, the O under 20 ℃ atmospheric pressure 2Solvability approximately be 44.3 (mg/l water), and this O 2Concentration is the upper limit under the atmospheric pressure.On the other hand, according to equipment shown in Figure 1, with top CO 2Solvability similar, O 2Can in running water (service water), be dissolved to and the corresponding saturated concentration of this air pressure.
In Fig. 1, the outlet of membrane module MO is connected with sprayer 6.In the normal operation, carbonic acid gas solution or oxygen flow of solution arrive sprayer 6 through the outlet of membrane module MO, spray to scion by the spraying element 61 that is installed on the sprayer 6.Sprayer 6 does not specifically limit with the distance of scion.As shown in Figure 1, sprayer can be installed in the top of scion and spray downwards, and is perhaps as described below, and it is installed in the below of scion, irrigates to scion.
As mentioned above, according to equipment shown in Figure 1, can in the extremely short time, produce the carbonic acid gas solution that under pressure, is dissolved in the predetermined concentration in the former water or the oxygen solution of any aequum continuously, and offer scion.
Among the present invention, the process that promotes scion to take root by above-mentioned carbonic acid gas solution (comprising bicarbonate ion solution and carbanion solution) is as follows: at first, and CO soluble in water 2Part becomes carbonic acid (H 2CO 3), carbonic acid ionization produces bicarbonate ion (HCO 3 -) and hydrogen ion (H +).When carbonic acid gas solution offers scion, interior diffusion of unit interval and the CO that is absorbed by scion 2Increase with the amount of bicarbonate ion.Secondly, the bicarbonate ion that is dissolved in the scion is converted into CO rapidly under the catalytic action that extensively is present in the carbonic acid gas dehydration enzyme (carbonic anhydrase) in the plant 2As a result, the gas concentration lwevel in the chloroplast stroma and uprise as the substrate concentration of the ribulose diphosphate carboxylic acid of carbon dioxide fixation enzyme stimulates photosynthesis, thereby has improved the rootability of scion.
In addition, the mechanism of action that oxygen solution promotes scion to take root among the present invention is as follows: at first, when oxygen solution offered scion, oxygen concentration will be higher than in the atmospheric pressure oxygen concentration soluble in water under the partial pressure of oxygen.Then, form concentration gradient in and plant corpus periphery inner by the plant corpus of cellularity, oxygen diffusion as a result also enters scion.Scion obtains oxygen thus as earning a bare living energy needed.That is to say that NADH and FADH2 produce electronics, for example, glycolysis, fatty acid oxidation, or citrate cycle are given oxygen by the series electronic carrier transfer, generate ATP.Need the reaction of biopolymer biosynthesis or other energy to be achieved by combining with this ATP hydrolysis.The supply of oxygen has improved the synthetic of various biopolymers or has quickened other metabolism, thereby has improved the rootability of scion.
As for the photorespiration in the plant leaf blade, oxygen and carbonic acid gas are competed the matrix as the ribulose diphosphate carboxylic acid of carbon dioxide fixation enzyme, and suppress the reaction of other matrix mutually.That is, plant obtains light under the gaseous environment of high-concentration oxygen, and the photorespiration of plant can improve, and it becomes according to a floristic factor that reduces plant products owing to photorespiration.Thereby, to scion spraying oxygen solution,, or adopt method of irrigating oxygen solution to scion described below preferably in the dark period of illumination darkness.
Fig. 2 illustrates the example of irrigation method, and oxygen gas is dissolved in former water and reaches set concentration, obtains oxygen solution, intermittently irrigates to the scion medium.Although oxygen solution can offer the acrial part of scion, preferably offer the base portion cross section of scion.Example as shown in Figure 2, for implementing this method, oxygen solution is irrigated on supporting dielectric, like this, just can absorb oxygen solution from the base portion cross section of scion.That is, irrigation rig 7 is installed in the below of scion among Fig. 2.
Detailed description of preferred embodiment
Embodiment is the take root concrete displaying of cutting method of production of the present invention, but the inventive method not merely is defined in embodiment.
Embodiment 1
Shear the spray (epicornic branch) that the leaf bud that begins after germinateing to grow has just burst forth from the elite stand of biennial blue gum, the long scion of preparation 10cm keeps a pair of blade, and other is removed than low blades.Remove this first half, with the base portion of cutter cut-grafting fringe to blade.Soaked for 5 seconds in germicidal solution on scion top, absorbs water one day one night.Then, medium is inserted in the scion for preparing, this medium is mixed by equivalent vermiculite and bog moss, is filled in to be placed on after moistening and inserts in the dish.
(Mitsubishi Rayon Co. is Ltd.) as the membrane module MO in the method shown in Figure 1 for MHF (three layers of porous fibre) membrane module.In the greenhouse under the natural daylight, light quantity 0.10 (1y/ minute) or higher was sprayed 60 seconds at every turn, and 15 minutes at interval, intermittent spraying carbonic acid gas solution in scion.Simultaneously, according to method shown in Figure 2,8 hours at interval, one day three times, in 43 days of growing seedlings, irrigate oxygen solution to medium.
The concentration of carbonic acid gas solution is 2100ppm, and the concentration of oxygen solution is 40ppm.
Comparative examples 1
Replace carbonic acid gas solution and oxygen solution with running water, in 43 days of growing seedlings, repeat to implement embodiment 1.
Table 1 illustrates the blue gum scion grew seedlings 43 days after, the rooting rate in embodiment 1 and comparative examples 1.
Rooting rate is:
(the taking root cutting number of scion cuttage after 43 days) ÷ (scion sample number) * 100
Test Sample number The number of taking root Rooting rate (%)
Embodiment 1 ????60 ????44 ????73
Comparative examples 1 ????60 ????0 ????0
Table 1 is the result show, when scion is grown seedlings, uses the inventive method that the carbonic acid gas solution and the oxygen solution of high concentration are provided to scion, can promote plant (in the present embodiment, being blue gum) scion to take root.Various plants all obtains similar result after adopting this method, as Eucylyptus camaldulensis ear shape Acacia, big eucalyptus.
Embodiment 2a
The potted plant seedling of the ear shape Acacia of cuttage (biennial, 50cm height) is done elite stand.Branch is gathered in 9 positions of the 5th leaf to the from the top, removes the most advanced and sophisticated a pair of blade of fringe (ear) other blade in addition, prepares the long scion of about 8cm.Remove this first half, with the base portion of cutter cut-grafting fringe to blade.Soaked for 5 seconds in sterilization (disinfectant) solution on scion top, absorbs water one day one night.Then, the scion for preparing be inserted through to fill be placed on the vermiculite medium of inserting in the dish after moistening,
(Mitsubishi Rayon Co. is Ltd.) as the membrane module MO in the method shown in Figure 1 for MHF (three layers of porous fibre) membrane module.Each daytime in 48 days of growing seedlings is under illumination condition (12 hours daytimes, 24 ℃ of temperature, 12 hours nights, 20 ℃ of temperature), to spray 60 seconds spraying carbonic acid gas solution in scion at interval in 1 hour at every turn.The concentration of carbonic acid gas solution is 2400ppm.
Embodiment 2b
With the top of oxygen solution replacement carbonic acid gas solution spray scion, in 48 days of growing seedlings, repeat to implement embodiment 2a.The concentration of oxygen solution is 60ppm.
Comparative examples 2
Replace carbonic acid gas solution with running water, in 48 days of growing seedlings, repeat to implement embodiment 2a.
Table 2 illustrates the scion of ear shape Acacia grew seedlings 48 days after, the rooting rate in embodiment 2a, 2b and comparative examples 2.
Rooting rate is:
(the taking root cutting number of scion cuttage after 48 days) ÷ (scion sample number) * 100
Test Spray solution Rooting rate (%)
Embodiment 2a CO2 solution ????100
Embodiment 2b O2 solution ????80
Comparative examples 2 Running water ????70
Table 2 is the result show, when scion is grown seedlings, uses the inventive method to the carbonic acid gas solution and the oxygen solution of scion intermittent spraying high concentration, can promote plant (in the present embodiment, being ear shape Acacia) scion to take root.Various plants all obtains similar result after adopting this method, as Eucylyptuscamaldulensis, blue gum, big eucalyptus.
Industrial applicibility
According to the above description, the method that adopts production of the present invention to take root and transplant a cutting, the scion rootability of xylophyta can improve greatly. And the present invention is applicable to the production of taking root and transplanting a cutting of the widely used eucalyptus genus of large-scale afforestation and Acacia seeds.

Claims (6)

1. the production method of a rooted cutting of arboreous plant, wherein medium is inserted in scion, this method comprises that the scion in inserting medium provides at least a solution to promote the step of its rootability, and this solution is selected from carbonic acid gas solution, oxygen solution, carbanion solution or bicarbonate ion solution.
2. the production method of taking root and transplanting a cutting according to claim 1, wherein said solution offers the acrial part of scion in the mode of intermittent spraying.
3. the production method of taking root and transplanting a cutting according to claim 2, wherein, the spray time of described solution depends on that the water that sticks on the scion blade face begins to fall the required time, and the time interval of each spraying is depended on the required time of described solution evaporation that sticks on the scion blade face.
4. the production method of taking root and transplanting a cutting according to claim 1, wherein said solution offers scion in the mode of irrigating to medium.
5. the production method of a rooted cutting of arboreous plant, wherein, acrial part to scion provides at least a solution off and on, and irrigates oxygen solution to medium, and described at least a solution is selected from carbonic acid gas solution, carbanion solution or bicarbonate ion solution.
6. the production method of taking root according to claim 1 or 5 and transplanting a cutting, wherein, the described woody plant of gathering scion is selected from eucalyptus and belongs to seeds and Acacia seeds.
CNB028196384A 2001-10-02 2002-10-01 Method of producing rooted cutting of arboreous plant Expired - Fee Related CN1259816C (en)

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JP306454/2001 2001-10-02
JP2001306454A JP2003111521A (en) 2001-10-02 2001-10-02 Method for raising plant and device for raising plant
JP2002154913A JP2003339227A (en) 2002-05-29 2002-05-29 Method for producing cuttage seedling of woody plant
JP154913/2002 2002-05-29

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Cited By (5)

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CN103703998A (en) * 2013-12-31 2014-04-09 中国林业科学研究院热带林业研究所 Reproduction method for improving acacia cutting rooting rate and scion strip utilization rate
CN104957010A (en) * 2015-06-01 2015-10-07 吴迪 Green strawberry cultivation management method
CN105993469A (en) * 2016-05-20 2016-10-12 芜湖欧标农业发展有限公司 Cutting seedling raising method for calliandra haematocephala hassk
CN105993470A (en) * 2016-05-20 2016-10-12 芜湖欧标农业发展有限公司 Cutting seedling raising method for calliandra haematocephala
CN107683087A (en) * 2015-05-13 2018-02-09 佰欧卡布股份有限公司 Trophic system

Family Cites Families (3)

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Publication number Priority date Publication date Assignee Title
JPS62195226A (en) * 1986-02-21 1987-08-28 株式会社 近藤松太郎商店 Nutrient solution culture of plant by rock wool medium
JPH06319380A (en) * 1993-05-12 1994-11-22 Dainippon Ink & Chem Inc Plant cultivation method and apparatus for producing plant cultivation water
JPH0884530A (en) * 1994-09-14 1996-04-02 Toyo Tanso Kk Method for growing plants

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103703998A (en) * 2013-12-31 2014-04-09 中国林业科学研究院热带林业研究所 Reproduction method for improving acacia cutting rooting rate and scion strip utilization rate
CN103703998B (en) * 2013-12-31 2015-07-08 中国林业科学研究院热带林业研究所 Reproduction method for improving acacia cutting rooting rate and scion strip utilization rate
CN107683087A (en) * 2015-05-13 2018-02-09 佰欧卡布股份有限公司 Trophic system
CN107683087B (en) * 2015-05-13 2021-02-26 佰欧卡布股份有限公司 Nutritional system
CN104957010A (en) * 2015-06-01 2015-10-07 吴迪 Green strawberry cultivation management method
CN105993469A (en) * 2016-05-20 2016-10-12 芜湖欧标农业发展有限公司 Cutting seedling raising method for calliandra haematocephala hassk
CN105993470A (en) * 2016-05-20 2016-10-12 芜湖欧标农业发展有限公司 Cutting seedling raising method for calliandra haematocephala

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AU2002343943B2 (en) 2007-03-29

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