CN109601285A - It is a kind of can effective bacteria resistance lesion konjaku implantation methods - Google Patents
It is a kind of can effective bacteria resistance lesion konjaku implantation methods Download PDFInfo
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- CN109601285A CN109601285A CN201910032217.3A CN201910032217A CN109601285A CN 109601285 A CN109601285 A CN 109601285A CN 201910032217 A CN201910032217 A CN 201910032217A CN 109601285 A CN109601285 A CN 109601285A
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- konjaku
- implantation methods
- taro
- bacteria resistance
- ganoid
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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
- A01G22/25—Root crops, e.g. potatoes, yams, beet or wasabi
-
- 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
- A01G22/20—Cereals
-
- 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
- A01G22/40—Fabaceae, e.g. beans or peas
Abstract
The invention discloses it is a kind of can effective bacteria resistance lesion konjaku implantation methods, belong to agricultural plantation technology field.The konjaku implantation methods include making preparations for sowing, site preparation, plantation, interplanting, embryo germination period management, seedling stage top dressing, stalk leaf period management and expanding period management.Wherein, the present invention covers technology by using Xia Shuan, carries out the interplanting of corn, sweet potato or peanut in konjaku two sides, forms three careless syntaxial systems, can play the role of reduction ground temperature, high temperature-proof is shone by force;And in conjunction with the planting patterns that line width strain is close, it can restore ecosystem feature, the growing environment of konjaku is set to have the raw ecosystem feature such as oxygenation, ventilation, sun-proof, drop ground temperature, guarantor's tide, so as to effectively improve the cultural control effect to the bacillary lesion such as soft rot.The present invention also passes through the weeding processing of the science of progress, it is possible to reduce bacterial origin, to avoid the problem that konjaku is infected by bacterial in stalk leaf seedling stage.
Description
Technical field
The present invention relates to agricultural plantation technology field, it is specifically a kind of can effective bacteria resistance lesion konjaku plantation side
Method.
Background technique
Konjaku belongs to herbaceos perennial, has hypoglycemic, reducing blood lipid, decompression, dissipates poison, beauty treatment, promote blood circulation, lose weight, leading to
Just, appetizing etc. functions, can activating microcirculation and removing stasis medicinal, removing toxicity for detumescence, wide intestines defaecation.But, konjaku is easy to produce lesion in plantation, this
It will be greatly reduced the plantation success rate of konjaku.Wherein, konjaku can encounter the problem of " high temperature, high humidity " in growth cycle, and such as
What carries out konjaku in the high temperature and high humidity preventive management of stalk leaf seedling stage and expanding stage, one of method exactly prevented and cured diseases.
However, traditional konjaku implantation methods, when konjaku enters summer during the growth process, due to high temperature, under soil
Insect is successfully multiplied by temperature change, will nibble soil, rhizome etc. in the soil, side by side excrement into soil, thus
These excrement can ferment under the environment of high temperature and humidity generates bacterium.Meanwhile the excrement such as pink bollworm, birds and beasts of ground can also be stained in
On blade face or vitellarium, also it can ferment to form bacterium under the environment of high temperature and humidity.The bacterium of generation can be in high temperature, high humidity
In the environment of immerse the stalk of injury konjaku, will lead to konjaku and generate the bacteroidal lesion of such as soft rot, to understand serious shadow
Ring the plantation success rate of konjaku.So solving to prevent konjaku from the bacillary lesions such as soft rot occur under high temperature, high humidity to be to pass
Important.
Summary of the invention
The purpose of the present invention is to provide it is a kind of can effective bacteria resistance lesion konjaku implantation methods, to solve above-mentioned back
The problem of being proposed in scape technology.
To achieve the above object, the invention provides the following technical scheme:
It is a kind of can effective bacteria resistance lesion konjaku implantation methods, specifically includes the following steps:
(1) it makes preparations for sowing: choosing ganoid konjaku taro, then ganoid konjaku taro is dehydrated to 20-30%, sprayed with agricultural streptomycin or carbendazim
It applies, then dries the ganoid konjaku taro after spraying, it is spare;
(2) site preparation: weeds first are carried out to the raised path through fields of planting site, rand and cut off processing, and weeds are stored in the raised path through fields, rand progress
It dries, it is spare;Then, it is ditched to planting site, the processing of ridging, site preparation;
(3) it plants: being 1.5-2m by wide row space width, duplicate rows plants the mode that small line-spacing is 40-50cm will be treated
Ganoid konjaku taro is planted, and the spacing in the rows for controlling ganoid konjaku taro is 10-20cm;After ganoid konjaku taro plantation, above-mentioned spare weeds are covered on ridge face
On;
(4) it interplants: after being interplanted before lunar calendar mid-March with sweet potato or peanut, then with corn set before lunar calendar mid-April
Kind, form three careless syntaxial systems;
(5) embryo germination period management: during the embryo germination of konjaku, with weeds drug herbicide to the field side of planting site,
Side, limes marginis and planting area carry out comprehensive weeding;
(6) seedling stage top dressing: fertile using corn base fertilizer and top dressing as the seedling stage of konjaku;
(7) stalk leaf period management: comprehensive with carrying out to the leaf surfaces of konjaku with agricultural antibacterials after seedling grows leaf
Spray;
(8) it expands period management: expanding period in konjaku, artificial uprooting weed is carried out to planting site;Then, the grass pulled out is removed into root
After system, it is placed among konjaku duplicate rows;Then, apply top dressing on loosening the soil when uprooting weed, carry out taking out the covering of furrow soil.
A kind of preferred embodiment that the present invention uses, after the middle plantation of the step (3), to the rhizome of planting site recurrent weeds
It pulled out, picked up from processing, return field after then being dried.
Another preferred embodiment that the present invention uses, the mode of sweet potato interplanting in the step (4) are as follows: from ganoid konjaku taro strain 1-
Bilateral at 1.5m is interplanted with sweet potato.
Another preferred embodiment that the present invention uses, the mode of peanut interplanting in the step (4) are as follows: from ganoid konjaku taro strain
Bilateral at 40-50cm is interplanted with peanut.
Another preferred embodiment that the present invention uses, the mode of interplanting corn in the step (4) are as follows: from ganoid konjaku taro strain
Bilateral at 40-50cm is interplanted with corn.
Another preferred embodiment that the present invention uses, the peanut are that blackcurrant pigment or safflower are raw.
Another preferred embodiment that the present invention uses, the applying mode of seedling stage fertilizer in the step (6) are as follows: in the jade of interplanting
Apply corn base fertilizer on one side between rice strain, apply konjaku top dressing on one side, then takes out soil covering top dressing.
Another preferred embodiment that the present invention uses, agricultural antibacterials sprays mode in the step (7) are as follows: every
Intersect within 10-15 days and carries out spraying for primary agricultural antibacterials.
Another preferred embodiment that the present invention uses, the agricultural antibacterials are agricultural streptomycin, Thiodiazole-copper and more
One of bacterium spirit is a variety of.
Compared with prior art, the beneficial effects of the present invention are:
(1) present invention is based on cultural control, prevented with chemical prevention supplemented by, can effectively improve the antibiotic property of konjaku and prevent
Bacillary lesion occurs for konjaku, so as to greatly improve the plantation success rate of konjaku.
(2) present invention covers technology by using Xia Shuan, carries out the interplanting of corn, sweet potato or peanut, shape in konjaku two sides
Cheng Sancao syntaxial system can play the role of reduction ground temperature, high temperature-proof is shone by force;And in conjunction with the planting patterns that line width strain is close,
It can restore ecosystem feature, so that the growing environment of konjaku is had the raw ecosystem such as oxygenation, ventilation, sun-proof, drop ground temperature, guarantor's tide special
Point, so as to effectively improve the cultural control effect to the bacillary lesion such as soft rot.
(3) present invention also by addressing site preparation, plantation when, the embryo germination phase of konjaku and konjaku expanding stage into
The weeding processing of row science, can save and carry out weeding in the stalk leaf seedling stage of konjaku, avoid injuring the leaf bar of konjaku, scratch evil spirit
The bulb of taro and the root system for stepping on disconnected konjaku, and the complementary temperature difference of original ecology will not be changed, so as to reduce bacterial origin.
Specific embodiment
Below in conjunction with the embodiment of the present invention, technical scheme in the embodiment of the invention is clearly and completely described,
Obviously, described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Based in the present invention
Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all
Belong to the scope of protection of the invention.
Embodiment 1
This embodiment offers it is a kind of can effective bacteria resistance lesion konjaku implantation methods, specifically includes the following steps:
S1, select young taro (generation konjaku seed) and two taros (two generation konjaku seeds) as ganoid konjaku taro, to guarantee germination percentage and growth
Fertility;Then ganoid konjaku taro is ordered according to plantation ground area, wherein young taro is mark according to 40 ㎏/mu, 120-160/㎏
Standard, two are ordered according to 250 ㎏/mu, 10-20 Li/㎏ for standard;Then ganoid konjaku taro will be ordered to be dehydrated to after 20%, with more
Bacterium spirit is sprayed, and then dries the ganoid konjaku taro after spraying, spare.
S2, it selects the neutral soil of konjaku adaptability as planting site, weeds then is carried out to the raised path through fields of planting site, rand and are cut
Except processing, and weeds are stored in the raised path through fields, rand dries, spare;Then, planting site is conventionally opened
Ditch, ridging, site preparation processing.
It is 1.5m according to wide row space width after S3, site preparation, duplicate rows plants mode that small line-spacing is 40cm for above-mentioned place
Ganoid konjaku taro after reason is planted, and the spacing in the rows for controlling ganoid konjaku taro is 10cm, can be with to realize the close planting patterns of ecosystem line width strain
Play oxygenation, ventilation and other effects;After ganoid konjaku taro plantation, above-mentioned spare weeds are covered on the face of ridge, it is damp, anti-that guarantor can be played
It shines, the bacteroidal lesion such as soft rot is effectively reduced so as to reduce bacterial origin in live again, the drop effect of ground temperature moisturizing of anti-grass.
In addition, after ganoid konjaku taro plantation, it is also necessary to be pulled out, be picked up from processing to the rhizome of planting site recurrent weeds in time, then by it
Field can be returned after drying to use as green manure.
S4, it was carried out with sweet potato from the bilateral at ganoid konjaku taro strain 1-1.5m (during embryo germination) before lunar calendar mid-March
Interplanting, and (the embryo germination phase is between konjaku seedling stage) uses corn from double at ganoid konjaku taro strain 40cm before lunar calendar mid-April
Side is interplanted, and three careless syntaxial systems are formed, and can be played and be reduced ground temperature, high temperature-proof is shone by force, to restore ecosystem agricultural kind
The diseases prevention system of plant.
S5, during the embryo germination of konjaku (in the lunar calendar the eleventh month of the lunar calendar to lunar calendar March 20), with weeds drug herbicide to kind
Field side, rand, limes marginis and the planting area for planting ground carry out comprehensive weeding, will when konjaku Miao Wei is grown to guarantee before flowering
Spring grass is removed dissolvingly, guarantees to be also beneficial to second year management, while reducing artificial investment without spring grass summer has set in knot son.
S6, when carrying out interplanting corn, it is fertile using corn base fertilizer and konjaku top dressing as the seedling stage of konjaku;Specifically, covering
Apply corn base fertilizer on one side between the corn plants of kind, apply konjaku top dressing on one side, then takes out soil covering top dressing;To control konjaku
The usage amount of top dressing, avoid konjaku in seedling stage when overfertilization, to mention seedling too fast and cause to be left useless fertilizer to produce under high temperature, high humidity
The problem of soft rot, easily occurs for raw burn wound.
S7, after seedling grows leaf, in the way of intersecting every 10 days and carrying out the spraying of primary agricultural antibacterials,
With the drugs such as agricultural streptomycin, Thiodiazole-copper and carbendazim to the leaf surfaces of konjaku with comprehensively being sprayed, play certain
Chemopreventive effects.
S8, period is expanded in konjaku, also artificial uprooting weed is carried out to planting site;Then, the grass pulled out is removed into root system
Afterwards, it is placed among konjaku duplicate rows, anti-afterheat sunburn can be played, protect the effects of tide, the recurrence of anti-weeds;Then, application chases after
Fertilizer carries out taking out the covering of furrow soil, that is, can guarantee the plantation success rate of konjaku on loosening the soil when uprooting weed.
Embodiment 2
This embodiment offers it is another can effective bacteria resistance lesion konjaku implantation methods, specifically includes the following steps:
S1, select young taro (generation konjaku seed) and two taros (two generation konjaku seeds) as ganoid konjaku taro;Then according to plantation ground area
To order ganoid konjaku taro, wherein young taro is standard according to 40 ㎏/mu, 120-160 Li/㎏, and two according to 250 ㎏/mu, 10-20 Li/㎏
It is ordered for standard;Then ganoid konjaku taro will be ordered to be dehydrated to after 30%, sprayed with agricultural streptomycin, then will be sprayed
Ganoid konjaku taro afterwards is dried, spare.
S2, it selects the neutral soil of konjaku adaptability as planting site, weeds then is carried out to the raised path through fields of planting site, rand and are cut
Except processing, and weeds are stored in the raised path through fields, rand dries, spare;Then, planting site is conventionally opened
Ditch, ridging, site preparation processing.
It is 2m according to wide row space width after S3, site preparation, duplicate rows plants mode that small line-spacing is 50cm for above-mentioned processing
Ganoid konjaku taro afterwards is planted, and the spacing in the rows for controlling ganoid konjaku taro is 20cm, to realize the close planting patterns of ecosystem line width strain;Ganoid konjaku taro kind
After plant, above-mentioned spare weeds are covered on the face of ridge.In addition, after ganoid konjaku taro plantation, it is also necessary to miscellaneous to planting site recurrent in time
The rhizome of grass is pulled out, is picked up from processing, and field can be returned after then being dried and is used as green manure.
S4, used blackcurrant pigment or safflower raw at from ganoid konjaku taro strain 40cm (during embryo germination) before lunar calendar mid-March
Bilateral is interplanted, and (the embryo germination phase is between konjaku seedling stage) uses corn from ganoid konjaku taro strain before lunar calendar mid-April
Bilateral at 50cm is interplanted, and the diseases prevention system of three careless symbiosis is formed.
S5, during the embryo germination of konjaku (in the lunar calendar the eleventh month of the lunar calendar to lunar calendar March 20), with weeds drug herbicide to kind
Field side, rand, limes marginis and the planting area for planting ground carry out comprehensive weeding.
S6, when carrying out interplanting corn, it is fertile using corn base fertilizer and konjaku top dressing as the seedling stage of konjaku;Specifically, covering
Apply corn base fertilizer on one side between the corn plants of kind, apply konjaku top dressing on one side, then takes out soil covering top dressing.
S7, after seedling grows leaf, in the way of intersecting every 15 days and carrying out the spraying of primary agricultural antibacterials,
With the drugs such as agricultural streptomycin, Thiodiazole-copper and carbendazim to the leaf surfaces of konjaku with comprehensively being sprayed, play certain
Chemopreventive effects.
S8, period is expanded in konjaku, also artificial uprooting weed is carried out to planting site;Then, the grass pulled out is removed into root system
Afterwards, it is placed among konjaku duplicate rows;Then, apply top dressing on loosening the soil when uprooting weed, carry out taking out the covering of furrow soil, that is, can guarantee
The plantation success rate of konjaku.
Wherein, using the implantation methods of above-described embodiment, the disease-resistant rate of konjaku plant 50% can be improved, reduce by 50% evil spirit
Taro diseased plant disease incidence, so as to improve 30% or more Amorphophallus Yield.
In conclusion when the present invention is by addressing site preparation, plantation, the embryo germination phase of konjaku and expanding for konjaku
Phase carries out the weeding processing of science, can save and carry out weeding in the stalk leaf seedling stage of konjaku, avoids injuring the leaf bar of konjaku, draw
Hurt the bulb of konjaku and step on the root system of disconnected konjaku, and the complementary temperature difference of original ecology will not be changed, so as to reduce bacterium
Source.In addition, the present invention also covers technology by using Xia Shuan, the interplanting of corn, sweet potato or peanut is carried out in konjaku two sides, is formed
Three careless syntaxial systems can play the role of reduction ground temperature, high temperature-proof is shone by force;And it, can in conjunction with the planting patterns that line width strain is close
To restore ecosystem feature, the growing environment of konjaku is set to have the raw ecosystem such as oxygenation, ventilation, sun-proof, drop ground temperature, guarantor's tide special
Point, and the Chemical control methods that cooperation is certain, so as to effectively prevent konjaku to generate the bacillary lesions such as soft rot, significantly
Improve the plantation success rate of konjaku.
Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete
Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention
Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.
Claims (9)
1. one kind can effective bacteria resistance lesion konjaku implantation methods, which comprises the following steps:
(1) it makes preparations for sowing: choosing ganoid konjaku taro, then ganoid konjaku taro is dehydrated to 20-30%, sprayed with agricultural streptomycin or carbendazim
It applies, then dries the ganoid konjaku taro after spraying, it is spare;
(2) site preparation: weeds first are carried out to the raised path through fields of planting site, rand and cut off processing, and weeds are stored in the raised path through fields, rand progress
It dries, it is spare;Then, it is ditched to planting site, the processing of ridging, site preparation;
(3) it plants: being 1.5-2m by wide row space width, duplicate rows plants the mode that small line-spacing is 40-50cm will be treated
Ganoid konjaku taro is planted, and the spacing in the rows for controlling ganoid konjaku taro is 10-20cm;After ganoid konjaku taro plantation, above-mentioned spare weeds are covered on ridge face
On;
(4) it interplants: after being interplanted before lunar calendar mid-March with sweet potato or peanut, then with corn set before lunar calendar mid-April
Kind, form three careless syntaxial systems;
(5) embryo germination period management: during the embryo germination of konjaku, with weeds drug herbicide to the field side of planting site,
Side, limes marginis and planting area carry out comprehensive weeding;
(6) seedling stage top dressing: fertile using corn base fertilizer and top dressing as the seedling stage of konjaku;
(7) stalk leaf period management: comprehensive with carrying out to the leaf surfaces of konjaku with agricultural antibacterials after seedling grows leaf
Spray;
(8) it expands period management: expanding period in konjaku, artificial uprooting weed is carried out to planting site;Then, the grass pulled out is removed into root
After system, it is placed among konjaku duplicate rows;Then, apply top dressing on loosening the soil when uprooting weed, carry out taking out the covering of furrow soil.
2. one kind according to claim 1 can effective bacteria resistance lesion konjaku implantation methods, which is characterized in that it is described
In step (3) after plantation, the rhizome of planting site recurrent weeds is pulled out, is picked up from processing, returns field after then being dried.
3. one kind according to claim 1 can effective bacteria resistance lesion konjaku implantation methods, which is characterized in that it is described
The mode that sweet potato is interplanted in step (4) are as follows: interplanted from the bilateral at ganoid konjaku taro strain 1-1.5m with sweet potato.
4. one kind according to claim 1 can effective bacteria resistance lesion konjaku implantation methods, which is characterized in that it is described
The mode that peanut is interplanted in step (4) are as follows: interplanted from the bilateral at ganoid konjaku taro strain 40-50cm with peanut.
5. one kind according to claim 1 can effective bacteria resistance lesion konjaku implantation methods, which is characterized in that it is described
The mode of interplanting corn in step (4) are as follows: interplanted from the bilateral at ganoid konjaku taro strain 40-50cm with corn.
6. one kind according to claim 1 or 4 can effective bacteria resistance lesion konjaku implantation methods, which is characterized in that
The peanut is that blackcurrant pigment or safflower are raw.
7. one kind according to claim 1 can effective bacteria resistance lesion konjaku implantation methods, which is characterized in that it is described
The applying mode of seedling stage fertilizer in step (6) are as follows: apply corn base fertilizer on one side between the corn plants of interplanting, apply konjaku on one side and chase after
Then fertilizer takes out soil covering top dressing.
8. one kind according to claim 1 can effective bacteria resistance lesion konjaku implantation methods, which is characterized in that it is described
Agricultural antibacterials sprays mode in step (7) are as follows: intersected every 10-15 days and carries out spraying for primary agricultural antibacterials.
9. one kind according to claim 8 can effective bacteria resistance lesion konjaku implantation methods, which is characterized in that it is described
Agricultural antibacterials be one of agricultural streptomycin, Thiodiazole-copper and carbendazim or a variety of.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111201978A (en) * | 2020-03-18 | 2020-05-29 | 农业农村部环境保护科研监测所 | Intercropping cultivation method for alleviating continuous cropping obstacle of konjak |
CN111201976A (en) * | 2020-03-18 | 2020-05-29 | 农业农村部环境保护科研监测所 | Covering plant combination for preventing and controlling soft rot of konjak and application |
CN114431098A (en) * | 2020-11-06 | 2022-05-06 | 赫鲁·普拉桑塔·维贾亚 | Organic konjak (osmyl lily) cultivation using stereoscopic planting method |
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CN105493824A (en) * | 2015-12-07 | 2016-04-20 | 竹溪县雨润特色种养家庭农场 | Multi-cropping interplanting cultivation method for Konjak |
CN106576770A (en) * | 2016-11-28 | 2017-04-26 | 竹溪县泉溪益群魔芋专业合作社 | Method of inter cropping konjak and sweet potato |
CN107087491A (en) * | 2017-05-25 | 2017-08-25 | 汉阴县科农魔芋种植研发有限公司 | A kind of konjac seed cultivates implantation methods |
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CN102630401A (en) * | 2012-04-19 | 2012-08-15 | 重庆市彭水县天娇农业开发有限公司 | Method for preventing disease of konjac |
CN105493824A (en) * | 2015-12-07 | 2016-04-20 | 竹溪县雨润特色种养家庭农场 | Multi-cropping interplanting cultivation method for Konjak |
CN106576770A (en) * | 2016-11-28 | 2017-04-26 | 竹溪县泉溪益群魔芋专业合作社 | Method of inter cropping konjak and sweet potato |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN111201978A (en) * | 2020-03-18 | 2020-05-29 | 农业农村部环境保护科研监测所 | Intercropping cultivation method for alleviating continuous cropping obstacle of konjak |
CN111201976A (en) * | 2020-03-18 | 2020-05-29 | 农业农村部环境保护科研监测所 | Covering plant combination for preventing and controlling soft rot of konjak and application |
CN114431098A (en) * | 2020-11-06 | 2022-05-06 | 赫鲁·普拉桑塔·维贾亚 | Organic konjak (osmyl lily) cultivation using stereoscopic planting method |
JP2022075454A (en) * | 2020-11-06 | 2022-05-18 | プラサンタ ウィジャヤ ヘル | Organic polan (stink lily) culture using multi-stage planting method |
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Application publication date: 20190412 |