JP3534913B2 - Plant activator and method of using same - Google Patents

Plant activator and method of using same

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Publication number
JP3534913B2
JP3534913B2 JP28257195A JP28257195A JP3534913B2 JP 3534913 B2 JP3534913 B2 JP 3534913B2 JP 28257195 A JP28257195 A JP 28257195A JP 28257195 A JP28257195 A JP 28257195A JP 3534913 B2 JP3534913 B2 JP 3534913B2
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JP
Japan
Prior art keywords
plant
soil
water
aloe
growth
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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JP28257195A
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Japanese (ja)
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JPH09100207A (en
Inventor
作次郎 奥井
忠夫 石井
Original Assignee
忠夫 石井
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Priority to JP28257195A priority Critical patent/JP3534913B2/en
Publication of JPH09100207A publication Critical patent/JPH09100207A/en
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Classifications

    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/20Fertilizers of biological origin, e.g. guano or fertilizers made from animal corpses

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  • Fertilizers (AREA)
  • Agricultural Chemicals And Associated Chemicals (AREA)
  • Soil Conditioners And Soil-Stabilizing Materials (AREA)

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、農林業における植
物の栽培、ゴルフ場などでの芝生の育成、あるいは、家
庭園芸など、広汎な分野で利用可能であり、土壌改良や
成長促進の効果を期待できる物活性剤、及びその使用
方法に関する。
TECHNICAL FIELD The present invention can be used in a wide range of fields such as cultivation of plants in agriculture and forestry, cultivation of lawns on golf courses, or home gardening, and is effective in improving soil and promoting growth. promising plant activators, and methods of use thereof.

【0002】[0002]

【従来の技術】アロエの搾り汁を用いて、土壌を改良
し、もって、植物の成長促進を図る技術は既に本発明者
によって特開昭61−136583号として提案されて
いる。この方法の詳細は、アロエの搾り汁を100〜1
000倍に水で稀釈して、これを土壌に散布し、アロエ
が有する生化学的作用によって、土壌の活性化を図り、
植物の成長を促進させ、また、耐病性を高めんとするも
のである。
2. Description of the Related Art A technique for improving soil and thus promoting plant growth by using squeezed aloe juice has already been proposed by the present inventor as JP-A-61-136583. For the details of this method, squeeze 100% of aloe juice.
Dilute with water 000 times, spray this on soil, and aim at soil activation by the biochemical action of aloe,
It promotes plant growth and enhances disease resistance.

【0003】[0003]

【発明が解決しようとする課題】ところが、前記の従来
方法では、アロエの搾り汁を単独で利用する方式である
ので、一応の生物活性効果は得られるものの、生物に対
する吸収性が充分でなく、また、PH値が調整されない
為、アロエの有する生物活性作用を完全に発揮させるこ
とができず、土壌改良においても、また植物成長促進に
おいても、充分な効果を期待できなかった。
However, in the above-mentioned conventional method, since the aloe squeezed juice is used alone, although a tentative bioactive effect can be obtained, its absorbability to living organisms is not sufficient, In addition, since the PH value is not adjusted, the biological activity of aloe could not be fully exerted, and a sufficient effect could not be expected in soil improvement and plant growth promotion.

【0004】本発明はこのような点に鑑み、物への吸
収性が良くて、PH値が調整されるため、物の活力を
効果的に高めることのできる物活性剤を提供せんとす
るものである。
[0004] The present invention has been made in view of such points, and good absorption into plant, because the PH value is adjusted, does not provide a plant active agents capable of enhancing the vitality of plants efficiently It is what

【0005】また、本発明は、前記物活性剤を土壌に
投与することによって、土壌中の微生物の活動を高め、
その増殖を促進させて、植物育成に適した土壌に改良す
ることのできる物活性剤の使用方法を提供せんとする
ものである。
Further, the present invention is that by administering said plant activator to the soil to increase the activity of microorganisms in the soil,
The growth is promoted, there is provided St. the use of plant active agents which can be improved soil suitable for plant growth.

【0006】更に本発明は、育成中の植物に投与するこ
とによって、植物の成長を促進させることのできる
活性剤の使用方法を提供せんとするものである。
[0006] The present invention, by administering to the plant during growth, is to St. provide the use of plant active agents that can promote plant growth.

【0007】また、本発明は、採取後の植物の保存液に
用いることによって、植物の活性を持続させることので
きる物活性剤の使用方法を提供せんとするものであ
る。
Further, the present invention provides that the use in the preservation solution of the plants after harvesting, is to St. provide the use of plant active agents which can prolong the activity of the plant.

【0008】[0008]

【課題を解決するための手段】本発明の物活性剤の技
術的手段は、濃度、0.2〜2%のアロエ水溶液に、
チレンジアミン酢酸塩、トリ酢酸アミン塩、ポリ燐酸塩
から選ばれたキレート化合物を、アロエ純量に対して3
0〜70%添加してなることにある。また、キレート化
合物としては、エチレンジアミン4酢酸ナトリウム塩を
用いるのがよい。
Technical means of plant active agents of the present invention According to an aspect of the concentration, the 0.2 to 2% of aloe solution, et
Tolylenediamine acetate, triacetate amine salt, polyphosphate
A chelate compound selected from 3 to the pure amount of aloe
0 to 70% is added. As the chelate compound, it is preferable to use ethylenediamine tetraacetic acid sodium salt.

【0009】また、本発明の物活性剤の使用方法の技
術的手段は、物活性剤を水で10〜1000倍に稀釈
し、この稀釈液を土壌に投与して、植物育成に適するよ
うに土壌を改良することにある。
Moreover, technical means of the use of plant active agents of the present invention, a plant activator was diluted to 10 to 1000-fold with water, and administering the diluted solution to the soil, suitable for plant growth To improve the soil.

【0010】更に、本発明の物活性剤の他の使用方法
の技術的手段は、物活性剤を水で10〜1000倍に
稀釈し、この稀釈液を育成中の植物に投与して、植物の
成長を促進させることにある。また、この際、アロエ利
用汚泥処理の廃液を、肥料として加えて利用してもよ
い。
Furthermore, the technical means of other uses of plant active agents of the present invention, a plant activator was diluted to 10 to 1000-fold with water, and administering the diluted solution to the plant during growth , To promote the growth of plants. At this time, the waste liquid of the sludge treatment using aloe may be used as a fertilizer.

【0011】また、本発明の物活性剤の更に他の使用
方法の技術的手段は、物活性剤を水で10〜1000
倍に稀釈し、この稀釈液を採取植物の保存液に用い、植
物の活性を持続させることにある。
Further, the technical means of a further use of plant active agents of the present invention, a plant activator with water 10 to 1000
It is diluted twice and this diluted solution is used as a preservation solution for collected plants to maintain the activity of the plants.

【0012】[0012]

【発明の実施の形態】本発明の物活性剤は、アロエ
と、キレート化合物との配合剤である。アロエは、その
搾り汁を加熱乾燥して、固体状態としたものが、医薬品
として市販されているので、実施に際しては、これを用
いるのが便利である。なお、このアロエ乾固体は精製さ
れておらず、アロエの純含有量は製品によって異なるの
で注意を要する。以下に示す実施例では60%以上含有
のものを用いている。
Plant activator of the embodiment of the present invention includes a aloe, a formulation of the chelate compound. Aloe, which is obtained by heating and drying the squeezed juice to give a solid state, is commercially available as a pharmaceutical product, and thus it is convenient to use it in practice. Note that this aloe dry solid has not been purified and the net content of aloe varies depending on the product. In the examples shown below, those containing 60% or more are used.

【0013】キレート化合物は、アロエ有効成分の植物
への吸収促進と、PH値調整の為に用いる。即ち、アロ
エ単独では、植物への吸収性が充分でないが、キレート
化合物の介在によって、物によく吸収されるようにな
り、アロエの有効成分の働きによって物を活性化させ
ることができる。また、キレート化合物は、土壌中に含
まれた他の金属イオン(Ca、Fe、Mg、Cuなど)
と反応して、それらの金属を水可溶性にし、有効保水量
と土壌三相とを改善し、土壌のPHを中性に近ずける作
用をするので、この面からも物の活性効果を期待でき
る。更に、キレート化合物としては、エチレンジアミン
酢酸塩、トリ酢酸アミン塩(NTA)、ホリ燐酸塩など
を用いることができる。エチレンジアミン酢酸塩として
は、エチレンジアミン4酢酸ナトリウム塩(以下、ED
TA−2Naと称す)、エチレンジアミン3酢酸ナトリ
ウム塩、エチレンジアミン5酢酸ナトリウム塩などがあ
る。なお、本発明の物活性剤には、必要に応じて、界
面活性剤、防腐剤、防微剤などを添加して使用すること
も可能である。
The chelate compound is used for promoting the absorption of the active ingredient of aloe into plants and for adjusting the PH value. That is, in the aloe alone but is not sufficient absorption into the plant, by the interposition of chelate compounds, will be well absorbed into plants, the plant by the action of the active ingredient of aloe can be activated. In addition, the chelate compound is another metal ion (Ca, Fe, Mg, Cu, etc.) contained in the soil.
React with, their metal to water-soluble, to improve the effective water retention capacity and soil three phases, since the near-not a Keru act PH soil neutral, activity effect of the plants from the surface Can be expected. Further, as the chelate compound, ethylenediamine acetate salt, triacetate amine salt (NTA), foliphosphate salt and the like can be used. As ethylenediamine acetate, ethylenediamine tetraacetic acid sodium salt (hereinafter, ED
TA-2Na), ethylenediamine triacetic acid sodium salt, ethylenediamine pentaacetic acid sodium salt, and the like. Incidentally, the plant activator of the present invention may optionally contain surfactants, preservatives, can also be used with the addition of such anti-fine agent.

【0014】また、前記両剤を配合して原液を作る際
の、配合割合は次のようにするのが適当である。アロエ
は市販されている乾固体を利用し、これを約70℃程度
の水に溶かし、アロエの濃度を0.2〜2%、好ましく
は0.5〜1.0%程度に調整する。そして、これにキ
レート化合物を、アロエ純量に対して30〜70%添加
する。
In addition, when the above-mentioned two agents are mixed to prepare a stock solution, it is appropriate that the mixing ratio is as follows. Aloe is a commercially available dry solid, which is dissolved in water at about 70 ° C. to adjust the concentration of aloe to 0.2 to 2%, preferably 0.5 to 1.0%. Then, a chelate compound is added thereto in an amount of 30 to 70% based on the pure amount of aloe.

【0015】前記の原液は、通常、使用時に10〜10
00倍に水で稀釈して使用する。土壌改良に用いる場合
には、この稀釈液を土壌上面から散水投与する。この稀
釈液の投与量は土壌1m2 当り、1回に1リットル程度
とするのが好ましい。なお、最適投与量は土壌の種類や
気象条件によって大きく変動するので、投与時に適宜調
節する必要がある。
The above-mentioned stock solution is usually 10 to 10 in use.
Dilute with water to 00 times before use. When used for soil improvement, sprinkle this diluted solution over the soil. The dose of this diluent is preferably about 1 liter per 1 m 2 of soil. The optimum dose varies greatly depending on the type of soil and weather conditions, so it is necessary to adjust it appropriately during administration.

【0016】また、成長促進に利用する際には、前記の
稀釈液を、育成前あるいは育成中の土壌などの栽培基に
散水投与する。また、場合によっては、育成中の植物全
体に直接、噴霧投与してもよい。投与量は、前記の土壌
改良の場合と同程度である。また、水耕栽培に利用する
ことも可能である。
When it is used for growth promotion, the above diluted solution is sprinkled on a cultivation base such as soil before or during growth. Moreover, you may spray-administer to the whole growing plant directly depending on the case. The dose is similar to that for soil improvement described above. It can also be used for hydroponics.

【0017】更に活性保持に利用する場合には、10〜
1000倍の稀釈液を植物保持水に用いる。また、原液
を保存水に直接、滴下投与して、前記と同じ稀釈率とな
るようにしてもよい。
When it is further used to retain activity,
A 1000-fold dilution is used for the plant holding water. Alternatively, the stock solution may be directly administered dropwise to the storage water so that the same dilution ratio as described above is obtained.

【0018】また、本発明の物活性剤は、肥料と共に
用いてもよい。この場合、肥料の種類は自由であるが、
例えば、アロエを用いて有機汚泥を処理(特許第176
2871号による)した際の廃水の上澄分を肥料として
利用することも可能である。この廃水中には各種の養分
が溶け込んでいるので、肥料としては好適である。
Further, plant active agents of the present invention may be used with fertilizers. In this case, the type of fertilizer is free,
For example, treatment of organic sludge with aloe (Patent No. 176
It is also possible to use the supernatant of the waste water obtained as a result of (according to No. 2871) as fertilizer. Since various nutrients are dissolved in this wastewater, it is suitable as a fertilizer.

【0019】[0019]

【実施例】実施例では原液を次の配合割合で作った。 温水(70℃) 20リットル アロエ60%UP乾固体(市販医薬品) 250g EDTA−2Na 100g この実施例の原液では、アロエの純濃度は0.74%で
あった。
EXAMPLES In the examples, stock solutions were prepared in the following blending ratios. Warm water (70 ° C.) 20 liter Aloe 60% UP dry solid (commercial drug) 250 g EDTA-2Na 100 g In the stock solution of this example, the pure concentration of aloe was 0.74%.

【0020】次に、各種試験例について説明する。な
お、原液には前記の実施例のものを用いた。 (土壌改良の試験例) 物活性剤を土壌に散布した際の、有効保水量と土壌三
相の変化を調べた。試験方法は、ゴルフ場の圃場の任意
の位置に、処理区と未処理区とを各1m×1m設定し、
処理区には原液10ccを1リットルの水で稀釈して、
如露で均等に散水投与し、未処理区には1リットルの水
のみを散水した。なお、散水投与は1週間に1回行い、
90日間継続した。有効保水量の測定結果を表1に、ま
た、土壌三相の測定結果を表2に示す。なお、有効保水
量の測定においては、成長有効水をPF2.0−3.0
とし、有効土層の深さを15cmとした。また、PFの
測定は遠心法とし、土の詰め方はJIS規格により、1
層25回突固めとした。
Next, various test examples will be described. The stock solution used was that of the above example. (Soil improvement test example) Changes in the effective water retention capacity and soil three phases when the plant activator was applied to the soil were investigated. The test method is to set a treated section and an untreated section at 1 m x 1 m at arbitrary positions in the field of the golf course,
Dilute 10 cc of stock solution with 1 liter of water in the treated area,
Water was evenly sprayed on the untreated area, and only 1 liter of water was sprayed on the untreated area. In addition, sprinkling administration is performed once a week,
It continued for 90 days. Table 1 shows the measurement results of the effective water retention capacity, and Table 2 shows the measurement results of the three soil phases. In the measurement of the effective water retention amount, the growth effective water is PF2.0-3.0.
And the depth of the effective soil layer was 15 cm. Also, the PF is measured by the centrifuge method, and the soil filling method is 1 according to JIS standard.
The layer was compacted 25 times.

【0021】[0021]

【表1】 [Table 1]

【0022】[0022]

【表2】 [Table 2]

【0023】前記の表1から分かるように、処理区では
土壌の保水性が良くなっている。また、表2から分かる
ように、処理区では土壌のサッチの分解によって液相及
び気相の比率が高くなっている。従って、処理区では土
壌の団粒構造化が進んでいることが分かる。なお、団粒
構造化が進むと、土の保水力や養分保持力が増えて、作
物の根張りがよくなり、いわゆる土壌が肥沃になる。
As can be seen from Table 1 above, the water retention of the soil is good in the treated area. Further, as can be seen from Table 2, in the treated area, the ratio of the liquid phase and the gas phase is high due to the decomposition of the soil thatch. Therefore, it can be seen that the aggregated structure of the soil is advanced in the treated area. It should be noted that as the aggregate structure progresses, the water retention capacity and nutrient retention capacity of the soil increase, the rooting of crops improves, and the so-called soil becomes fertile.

【0024】(牧草の成長促進試験例) ベントグラスとコウライシバとを1:2の割合で配合し
た混合種子を1m2 の処理区に蒔き、生育中の散水時に
物活性剤を如露で投与し、生長状態を調べた。処理区
は3種用意し、一つの処理区には、原液の1000倍稀
釈液を投与し、次の処理区には、原液の100倍稀釈液
を投与し、残りの処理区は未処理区として水のみを投与
した。投与量はそれぞれ1m2 当たり、1リットルとし
た。測定は、生長後に、全ての牧草を抜取り、種分けす
ると共に、地上部と地下部との重量を計った。なお、処
理区は各10ケ所用意し、その平均をとった。表3はそ
の測定結果である。
(Example of grass growth promotion test) Mixed seeds prepared by mixing bentgrass and Korushishiba at a ratio of 1: 2 were sown in a treatment area of 1 m 2 at the time of watering during growth.
The plant activator administered sprinkling was investigated growth state. Three kinds of treatment areas were prepared. One treatment area was administered with a 1000 times dilution of the stock solution, the next treatment area was administered with a 100 times dilution of the stock solution, and the remaining treatment areas were treated untreated. As a result, only water was administered. The dose was 1 liter per 1 m 2 . For the measurement, after growth, all the grass was extracted, the seeds were classified, and the weight of the above-ground part and the below-ground part were weighed. In addition, 10 treatment areas were prepared for each, and the average was taken. Table 3 shows the measurement results.

【0025】[0025]

【表3】 [Table 3]

【0026】表3から分かるように、処理区では牧草の
生長が促進されている。特に、100倍の稀釈液の場合
がより優れている。また、未処理区では牧草に一部黄変
が発生していたが、処理区では皆無であった。これは、
物活性剤によって土壌中の鉄分の吸収が良くなった為
だと考えられる。
As can be seen from Table 3, the growth of grass is promoted in the treated area. In particular, the case of 100 times dilution is more excellent. In the untreated plot, some yellowing occurred in the grass, but none in the treated plot. this is,
It is considered to be because of better absorption of iron in the soil by plant activator.

【0027】(ジャガイモの生長促進試験例)ジャガイ
モを2〜3片にカットして、処理液に半日浸漬した後、
植付け、散水ごとに処理液を投与し、収穫量を調べた。
処理液としては、原液の1000倍、100倍、10倍
の各稀釈液を用い、また、未処理ではただの水を投与し
た。収穫量の測定結果は、表4に示す。なお、収穫量
は、各処理ごとに10本を植付け、その平均をとった。
(Example of Potato Growth Acceleration Test) After cutting potatoes into 2 to 3 pieces and immersing them in the treatment liquid for half a day,
The treatment liquid was administered for each planting and watering, and the yield was examined.
As the treatment liquid, 1000-fold, 100-fold and 10-fold dilutions of the stock solution were used, and untreated water was simply administered. Table 4 shows the measurement results of the yield. The harvest amount was obtained by planting 10 plants for each treatment and averaging them.

【0028】[0028]

【表4】 [Table 4]

【0029】表4から分かるように、処理したものでは
収穫量が増えていた。また、ジャガイモでは稀釈率の低
いものの方が収量増加が大きかった。
As can be seen from Table 4, the treated product had an increased yield. In addition, in potatoes, the yield increase was larger when the dilution rate was lower.

【0030】(イネの水耕栽培時の生長促進の試験例)
水耕栽培のイネに、15日毎に処理液を投与し、生長状
況と、収穫量とを調べた。生長状況は、1カ月置きの葉
長、根長、分けつ数を測定した。処理液としては、原液
の1000倍、100倍、10倍の各稀釈液を用い、未
処理のものと比較した。なお、肥料については、同一条
件とした。表5に生長状況が、また、表6に収穫量が示
されている。
(Test example of growth promotion during hydroponics of rice)
The treatment solution was administered to hydroponically grown rice every 15 days, and the growth status and the yield were examined. For the growth status, the leaf length, root length, and number of splits were measured every other month. As the treatment liquid, 1000-fold, 100-fold and 10-fold dilutions of the stock solution were used and compared with the untreated solution. The fertilizer was used under the same conditions. Table 5 shows the growth status, and Table 6 shows the yield.

【0031】[0031]

【表5】 [Table 5]

【0032】[0032]

【表6】 [Table 6]

【0033】表5、6から分かるように、処理したもの
では未処理のものよりも、籾の収量が多く、また籾/ワ
ラ比でも優れていた。特に、100倍の稀釈液のものが
最も優れていた。
As can be seen from Tables 5 and 6, the treated rice had a higher yield of paddy than the untreated one, and the rice / straw ratio was also excellent. Especially, the one with 100 times dilution was the best.

【0034】(野菜の生長促進試験例)各種の野菜(ダ
イコン、カブ、ハクサイ、キャベツ)についての生長促
進を調べた。処理液としては、原液に、特許第1762
871号による汚泥処理の上澄液を、4:1の割合で加
え、これの100倍と10倍の稀釈液を用いた。処理液
の投与は、育成中の散水時に行い、水のみを投与した未
処理のものと比較した。測定結果は、収穫後の重量によ
った。その結果を表7に示す。
(Example of Vegetable Growth Acceleration Test) Growth acceleration of various vegetables (radish, turnip, Chinese cabbage, cabbage) was examined. As the treatment liquid, the undiluted solution is disclosed in Patent No. 1762
The supernatant of sludge treatment according to No. 871 was added at a ratio of 4: 1, and 100-fold and 10-fold dilutions thereof were used. The treatment liquid was administered at the time of water sprinkling during the growth, and compared with the untreated one in which only water was administered. The measurement result was based on the weight after harvesting. The results are shown in Table 7.

【0035】[0035]

【表7】 [Table 7]

【0036】表7から分かるように、野菜についても増
収効果が認められた。特に10倍稀釈液が優れていた。
As can be seen from Table 7, the yield-increasing effect was also observed for vegetables. Especially, the 10-fold diluted solution was excellent.

【0037】(切り花の活性保持試験例)切り花(カト
レア、ユリ)の活性保持を、処理したものと、未処理の
ものとの日持ち日数の比として試験した。処理液として
は、原液の1000倍と、100倍の稀釈液を用い、未
処理は水のみとした。この処理液又は水を花瓶に入れ、
ここに前記の切り花を各10本づつ入れ、室温を25℃
に保持すると共に、2日置きに同じ液で水替えし、日持
ち日数を調べ、各10本の平均をとり、処理したものと
未処理のものと日持ち比を算出した。日持ち比は、カト
レアでは、1000倍液で2.0、100倍液で1.5
であった。またユリでは、1000倍液で1.8、10
0倍液で1.3であった。この結果から、切り花に対す
る活性保持効果が確認できた。
(Example of cut flower activity retention test) The activity retention of cut flowers (cattleya, lily) was tested as a ratio of the number of days of storage between treated and untreated flowers. As the treatment liquid, a 1000-fold and 100-fold dilution of the stock solution was used, and only untreated water was used. Put this treatment liquid or water in a vase,
Put 10 of each of the above cut flowers here and keep the room temperature at 25 ℃.
In addition to keeping the same, the water was replaced with the same liquid every two days, the number of days of storage was examined, and the average of 10 bottles was calculated, and the storage ratio of treated and untreated was calculated. For Cattleya, the shelf life is 2.0 for the 1000x solution and 1.5 for the 100x solution.
Met. For lilies, 1.8 and 10 with 1000 times liquid
It was 1.3 with a 0-fold solution. From these results, the activity retention effect on cut flowers was confirmed.

【0038】なお、本発明は前記の実施例に限定される
ものではなく、特許請求の範囲の記載の範囲内で自由に
変形実施可能である。特に、原液の配合割合、投与方
法、対象植物の種類などは自由である。
The present invention is not limited to the above-mentioned embodiments, but can be freely modified within the scope of the claims. In particular, the mixing ratio of the undiluted solution, the method of administration, the type of target plant, etc. are free.

【0039】[0039]

【発明の効果】本発明の物活性剤は、物への吸収性
が良く、物の活力を効果的に高めることができる。ま
た、原材料がアロエとキレート化合物だけであるから、
廉価に、かつ簡単に作ることができ、その上、濃縮され
た原液として提供されるので、輸送にも都合がよい。更
に、無毒であり、かつ少量を大幅に稀釈して使用するか
ら、公害のおそれもない。
Plant activator of the present invention according to the present invention has good absorption into plant, can be effectively enhanced the vitality of plants. Also, because the raw materials are only aloe and chelate compounds,
It is inexpensive and easy to make, and moreover, it is provided as a concentrated stock solution, which is convenient for transportation. Furthermore, since it is non-toxic and is used by diluting a small amount to a large extent, there is no fear of pollution.

【0040】請求項2のものでは、キレート化合物とし
てエチレンジアミン4酢酸ナトリウム塩を用いたので、
より廉価で、かつ、優れた物活性剤を提供できる。
In the second aspect of the invention, since ethylenediaminetetraacetic acid sodium salt is used as the chelate compound,
Less expensive, and it can provide excellent plant activator.

【0041】請求項3のものでは、単に土壌に投与する
だけで、土壌中の微生物の活動が高まり、増殖が促進さ
れて、土壌中の有機物の分解が早まる他、土壌の団粒構
造化が進み、かつ、PH値が調整され、いわゆる肥沃な
土壌に改善することができる。
According to the third aspect of the present invention, by simply administering to the soil, the activity of the microorganisms in the soil is enhanced, the growth is promoted, the decomposition of organic matter in the soil is accelerated, and the aggregate structure of the soil is also improved. It is possible to improve so-called fertile soil by advancing and adjusting the PH value.

【0042】請求項4のものでは、植物がアロエの成分
をよく吸収して、活力が高まり、また、キレート化合物
が土壌のPHを調整するので、植物の生長を大幅に促進
させることができる。また、投与法は極めて簡単で、手
間がかからないから、実用性に富む。
According to the fourth aspect of the present invention, the plant absorbs the aloe component well to enhance the vitality, and the chelate compound regulates the PH of the soil, so that the growth of the plant can be greatly promoted. In addition, the administration method is extremely simple and does not require much labor, and thus is highly practical.

【0043】請求項5のものでは、汚泥処理の廃液を肥
料として同時に使用するので、植物の生長を一層促進さ
せることができる。また、汚泥処理の廃液を有効利用す
るので、資源経済上も有益である。
According to the fifth aspect of the present invention, since the waste liquid of sludge treatment is simultaneously used as a fertilizer, the growth of plants can be further promoted. Moreover, since the waste liquid of sludge treatment is effectively used, it is also beneficial in resource economy.

【0044】請求項6のものでは、切り花の日持ちを延
ばすことができるので、高価な花でも切り花としての利
用が可能になる。また、使用方法は極めて簡単で、手間
がかからないので、利用価値が高い。
According to the sixth aspect of the present invention, since the shelf life of cut flowers can be extended, it is possible to use even expensive flowers as cut flowers. In addition, it is extremely easy to use and has no hassle, so it is highly useful.

───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 昭61−136583(JP,A) 特開 昭59−13687(JP,A) 特開 平1−239077(JP,A) 特表 平4−500658(JP,A) 小西千賀三、高橋治助編,土壌肥料講 座4,株式会社朝倉書店,1983年 6月 30日,第2版,第170頁 (58)調査した分野(Int.Cl.7,DB名) A01N 65/00 C05G 5/00 C09K 17/32,17/50 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-61-136583 (JP, A) JP-A-59-13687 (JP, A) JP-A 1-239077 (JP, A) Special Table 4- 500658 (JP, A) Chikazo Konishi, J. Takahashi, Soil Fertilizer Lecture 4, Asakura Shoten Co., Ltd., June 30, 1983, 2nd edition, page 170 (58) Fields investigated (Int.Cl. 7 , DB name) A01N 65/00 C05G 5/00 C09K 17 / 32,17 / 50

Claims (6)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 濃度、0.2〜2%のアロエ水溶液に、
エチレンジアミン酢酸塩、トリ酢酸アミン塩、ポリ燐酸
塩から選ばれたキレート化合物を、アロエ純量に対して
30〜70%添加してなる物活性剤。
1. An aloe aqueous solution having a concentration of 0.2 to 2%,
Ethylenediamine acetate, triacetate amine, polyphosphoric acid
The selected chelating compound from a salt, plant activators obtained by adding 30% to 70% with respect to aloe Junryo.
【請求項2】 キレート化合物として、エチレンジアミ
ン4酢酸ナトリウム塩を用いる請求項1記載の物活性
剤。
Wherein a chelate compound, plant active agent according to claim 1, wherein the use of sodium ethylene diamine tetraacetate salts.
【請求項3】 請求項1の物活性剤を水で10〜10
00倍に稀釈し、この稀釈液を土壌に投与して、植物育
成に適するようにする土壌を改良する、物活性剤の使
用方法。
The plant activator 3. A process according to claim 1 with water 10 to 10
Diluted to 00-fold, and administration of this dilution to the soil, to improve the soil to suit the growing plants, the use of plant active agents.
【請求項4】 請求項1の物活性剤を水で10〜10
00倍に稀釈し、この稀釈液を育成中の植物に投与し
て、植物の成長を促進させる、物活性剤の使用方法。
4. The plant activator of claim 1 with water 10 to 10
Diluted to 00-fold, and administration of this dilution to plants during growth, promoting plant growth, the use of plant active agents.
【請求項5】 請求項1の物活性剤に、アロエ利用汚
泥処理の廃液を肥料として加え、これを水で10〜10
00倍に稀釈し、その希釈液を植物に投与する請求項3
記載の物活性剤の使用方法。
5. A plant active agent according to claim 1, added waste aloe use sludge treatment as fertilizer, this in water 10 to 10
4. Dilute to 00 times and administer the diluted solution to plants.
Using plant activator according.
【請求項6】 請求項1の物活性剤を水で10〜10
00倍に稀釈し、この稀釈液を採取植物の保存液に用
い、植物の活性を持続させる、物活性剤の使用方法。
6. The plant activator of claim 1 with water 10 to 10
Diluted to 00-fold, with the dilution liquid to the preservation solution collection plant, prolong the activity of the plant, the use of plant active agents.
JP28257195A 1995-10-03 1995-10-03 Plant activator and method of using same Expired - Fee Related JP3534913B2 (en)

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JP3534913B2 true JP3534913B2 (en) 2004-06-07

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Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
MY123201A (en) * 1998-11-06 2006-05-31 Kao Corp Plant-activating agent
ES2234431B1 (en) * 2003-12-12 2006-10-16 Universidad Miguel Hernandez APPLICATION OF ALOE VERA AS COVERING ON FRUITS AND VEGETABLES.
US8048190B2 (en) 2007-12-19 2011-11-01 Jose Luis Miranda Valencia Composition of liquid fertilizer
MY176129A (en) * 2015-08-06 2020-07-24 Coats Agri Aloe Llc Compositions and methods to increase plant yield

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
小西千賀三、高橋治助編,土壌肥料講座4,株式会社朝倉書店,1983年 6月30日,第2版,第170頁

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