JPH0651608B2 - Agricultural oxygen supply - Google Patents
Agricultural oxygen supplyInfo
- Publication number
- JPH0651608B2 JPH0651608B2 JP62321691A JP32169187A JPH0651608B2 JP H0651608 B2 JPH0651608 B2 JP H0651608B2 JP 62321691 A JP62321691 A JP 62321691A JP 32169187 A JP32169187 A JP 32169187A JP H0651608 B2 JPH0651608 B2 JP H0651608B2
- Authority
- JP
- Japan
- Prior art keywords
- oxygen supply
- magnesia
- magnesium
- peroxide
- supply agent
- 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.)
- Expired - Fee Related
Links
Landscapes
- Pretreatment Of Seeds And Plants (AREA)
- Agricultural Chemicals And Associated Chemicals (AREA)
- Fertilizers (AREA)
Description
【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、農業用、特に湛水土壌中直播栽培に有用で、
安定性の優れた酸素供給剤に関する。DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention is useful for agriculture, particularly for direct seeding cultivation in submerged soil,
The present invention relates to an oxygen supplier having excellent stability.
湛水土壌中直播栽培に使用される酸素供給剤としては、
過酸化カルシウムを有効成分としたものに、植物種子へ
の粉衣処理を容易にするための助剤(粉衣助剤)として
焼石膏を混合させたものが知られている(例えば、特公
昭53−46726号公報)。As an oxygen supply agent used for direct seeding cultivation in submerged soil,
It is known that calcium peroxide is used as an active ingredient and calcined gypsum is mixed as an aid (a dressing aid) for facilitating dressing treatment of plant seeds (for example, Japanese Patent Publication No. 53-46726).
また、本出願人が特願昭61−154601号で出願したものが
ある。There is also an application filed by the applicant in Japanese Patent Application No. 61-154601.
農業用酸素供給剤、特に湛水土壌中直播栽培用の酸素供
給剤の必要な条件としては、本来の目的である植物栽培
成績が良好であることの他に、種子から剥離しにくいこ
と、水中、土中で崩壊しにくいこと、安定性の大きいこ
と(経時変化が起こりにくいこと)等の物性が良好なこ
とが必要であり更に、寒地、寒冷地でも対応できるよう
に、生育促進効果、特に初期生育促進効果のより大きい
ものであることが望ましい。Oxygen supply agent for agriculture, especially as a necessary condition of oxygen supply agent for direct seeding cultivation in submerged soil, in addition to good original plant cultivation results, difficult to peel from seeds, underwater It is necessary to have good physical properties such as being hard to disintegrate in the soil, having high stability (not likely to change over time), and further promoting the growth effect so that it can be used in cold regions and cold regions. In particular, it is desirable that it has a greater effect of promoting initial growth.
本出願人が先に出願した前述の農業用酸素供給剤は、従
来公知のものに比べて水稲の出芽率、苗立率及び初期生
育促進効果などの栽培成績は優れたものではあるもの
の、その安定性が必ずしも高くないものもあり、この問
題点を解決したより好ましい性質を備えた農業用酸素供
給剤が求められている。The above-mentioned agricultural oxygen supply agent previously filed by the applicant of the present invention has excellent cultivation results such as the emergence rate of rice, the seedling rate and the effect of promoting initial growth, as compared with conventionally known ones, but Some of them are not necessarily stable, and there is a need for an agricultural oxygen supply agent having more preferable properties that solves this problem.
本発明者達は、前述の状況に鑑みて、より安定性の大き
い農業用酸素供給剤を見出すべく研究を重ねた。その結
果、本発明者達が先に出願した前述の農業用酸素供給剤
の粉衣助剤として用いる硫酸マグネシウム化合物に、更
に塩基性物質を添加した処、意外にも物性、特に安定性
(経時変化に対する安定性)の優れたより好ましい性質
を備えた農業用酸素供給剤が得られることを見出し、本
発明を完成するに至った。In view of the above-mentioned situation, the present inventors have conducted research to find a more stable agricultural oxygen supply agent. As a result, when a basic substance was further added to the magnesium sulfate compound used as a dressing aid of the above-mentioned agricultural oxygen supply agent previously filed by the present inventors, unexpectedly physical properties, particularly stability (aging It was found that an agricultural oxygen supply agent having excellent stability (stability against changes) and more preferable properties can be obtained, and completed the present invention.
すなわち、本発明は、 アルカリ土類金属の過酸化物を有効成分とする粉末に、
無水塩乃至六水塩以下の結晶水を含有する硫酸マグネシ
ウム及び無水塩乃至最大水化状態の結晶水から一分子以
上脱水した分子式で示される硫酸マグネシウムの複塩か
ら選ばれた硫酸マグネシウム化合物の少なくとも一種
と、塩基性物質とを添加したことを特徴とする農業用酸
素供給剤であって、植物種子に対する不着性が高く、水
中崩壊性が無く、安定性が高いという物性を有し、しか
も、初期生育を促進して安定した湛水土壌中直播栽培を
可能にしたものである。That is, the present invention is a powder containing an alkaline earth metal peroxide as an active ingredient,
At least a magnesium sulfate compound selected from magnesium sulfate containing an anhydrous salt to hexahydrate or less and a double salt of magnesium sulfate represented by a molecular formula dehydrated by one or more molecules from an anhydrous salt to water of crystallization in the maximum hydrated state. One, and an oxygen supply agent for agriculture, which is characterized by adding a basic substance, has high non-adhesiveness to plant seeds, does not disintegrate in water, has high stability, and, It promotes initial growth and enables stable direct seeding cultivation in flooded soil.
本発明で用いるアルカリ土類金属の過酸化物としては、
過酸化カルシウム、過酸化マグネシウム、カルシウム化
合物とマグネシウム化合物の各々特定量からなる混合物
を過酸化水素により過酸化物とした固形物などが挙げら
れる。この固形物の製造方法としては、例えばカルシウ
ム化合物とマグネシウム化合物とを、各々酸化カルシウ
ム及び苦土又は枸溶性苦土としてモル比が9.9:0.1〜8:
2望ましくは、9.75:0.25〜8.5:1.5の割合で混合し、
必要に応じて水を加えてスラリーとし、30〜90℃、望ま
しくは50〜70℃の温度で、攪拌下30〜70重量%の過酸化
水素水を、前記混合物が全量過酸化物となるのに必要な
化学理論量乃至その90%程度の量を滴下し、次いで95〜
130℃で、1〜2時間静置乾燥させて製造する。また、
過酸化水素が濃厚であれば、生石灰と組合せて、乾式に
よって製造することもできる。このようにして得られた
固形物或いは前述の過酸化カルシウム、過酸化マグネシ
ウムは、これらを各々単独又は混合して用いても良い。As the alkaline earth metal peroxide used in the present invention,
Examples thereof include solid substances obtained by converting a mixture of calcium peroxide, magnesium peroxide, and a specific amount of each of a calcium compound and a magnesium compound into peroxide with hydrogen peroxide. As a method for producing this solid, for example, a calcium compound and a magnesium compound, respectively, the molar ratio as calcium oxide and magnesia or solute-soluble magnesia 9.9: 0.1 to 8:
2 Desirably, mixed at a ratio of 9.75: 0.25 ~ 8.5: 1.5,
If necessary, water is added to form a slurry, and at a temperature of 30 to 90 ° C., preferably 50 to 70 ° C., 30 to 70% by weight of hydrogen peroxide solution with stirring is added, and the mixture becomes the total amount of peroxide. The required theoretical amount of chemical or 90% of that amount is dropped, then 95-
It is manufactured by allowing to stand and dry at 130 ° C for 1 to 2 hours. Also,
If hydrogen peroxide is concentrated, it can also be produced by a dry method in combination with quicklime. The solid matter thus obtained or the above-mentioned calcium peroxide and magnesium peroxide may be used alone or in combination.
また、前述のカルシウム化合物としては、消石灰、生石
灰、炭酸カルシウム、ケイ酸カルシウム、塩化カルシウ
ム又はそれらの混合物などが挙げられ、中でも消石灰、
生石灰が望ましく、これらのカルシウム化合物は、工業
用、肥料用のものが利用でき、粉末状或いはミルク状の
ものでも良い。粉末状のものは、なるべく細かいものが
良く、840μ以下の大きさのものが望ましい。Examples of the above-mentioned calcium compound include slaked lime, quick lime, calcium carbonate, calcium silicate, calcium chloride, or a mixture thereof, among which slaked lime,
Quick lime is desirable, and these calcium compounds can be industrial or fertilizer use, and may be powdery or milky. The powdery material is preferably as fine as possible, and preferably has a size of 840 μ or less.
これらのカルシウム化合物は、他の金属化合物例えば、
鉄、銅、マンガン、クロムなどの混入が少ないものを用
いるのが望ましい。These calcium compounds are other metal compounds such as
It is desirable to use a material with a low content of iron, copper, manganese, chromium, etc.
また、マグネシウム化合物としては、酸化マグネシウ
ム、水酸化マグネシウム、炭酸マグネシウム、塩化マグ
ネシウム、硫酸マグネシウム、硝酸マグネシウム、ケイ
酸マグネシウム、軽焼マグネシア或いは酸化ケイ素を無
水ケイ酸若しくはケイ酸塩として3〜9%、酸化アルミ
ニウムをα型以外の酸化アルミニウム若しくはアルミニ
ウム塩として0.3〜3.0%及び酸化鉄を酸化第一鉄若しく
は第二鉄として0.1〜1%含有するもの又はこれらの混
合物などの軽焼マグネシア類似物が挙げられ、これらの
マグネシウム化合物は、工業用、肥料用のものが利用で
き、溶解度の大きいものは水に溶解して、そうでないも
のは乾式乃至湿式粉砕して使用することができる。As the magnesium compound, magnesium oxide, magnesium hydroxide, magnesium carbonate, magnesium chloride, magnesium sulfate, magnesium nitrate, magnesium silicate, light burned magnesia or silicon oxide is used as anhydrous silicic acid or silicate in an amount of 3 to 9%, Examples include light-burning magnesia analogues such as aluminum oxide containing 0.3 to 3.0% as aluminum oxide or aluminum salt other than α type and 0.1 to 1% iron oxide as ferrous oxide or ferric oxide, or a mixture thereof. As these magnesium compounds, those for industrial use and fertilizers can be used. Those having a high solubility can be dissolved in water, and those not soluble can be used by dry or wet pulverization.
これらのカルシウム化合物及びマグネシウム化合物は、
前述の過酸化カルシウム及び過酸化カルシウムの原料と
しても使用出来るのである。These calcium compounds and magnesium compounds are
It can also be used as a raw material for the above-mentioned calcium peroxide and calcium peroxide.
過酸化マグネシウム及び過酸化マグネシウムには、結晶
水を一部もつものや、過酸化マグネシウムについては一
部MgO2・MgO・nH2O、3MgO2・3MgO・nH2O等組成変化する
ものがある。本発明においては、これらのものを含んで
いて差支えないが、乾燥して水分2%以下として使用す
ることが活性酸素の分解を防ぐ上から必要である。Some magnesium peroxide and magnesium peroxide have some water of crystallization, and some magnesium peroxide changes composition such as MgO 2 · MgO · nH 2 O and 3MgO 2 · 3MgO · nH 2 O. . In the present invention, these substances may be contained, but it is necessary to dry and use them with a water content of 2% or less in order to prevent decomposition of active oxygen.
本発明で粉衣助剤として用いる硫酸マグネシウム化合物
としては、硫酸マグネシウム或いはその複塩であり、例
えば、無水塩乃至六水塩以下の結晶水を含有する硫酸マ
グネシウム、キーゼライト、硫酸加里苦土、蛇紋岩又は
水酸化マグネシウムを硫酸分解した硫酸苦土肥料、蛇紋
岩と軽焼マグネシアに硫酸を反応させた加工苦土硼素肥
料、マンガン鉱とカンラン岩を硫酸で処理した硫酸苦土
マンガン肥料、蛇紋岩、軽焼マグネシウム及び硼酸カル
シウムに硫酸を加えて反応した加工苦土肥料等が挙げら
れるが、本発明においては、複塩については無水塩乃至
最大水化状態の結晶水から一分子以上脱水した分子式で
示されるものが用いられる。The magnesium sulfate compound used as a dressing aid in the present invention is magnesium sulfate or a double salt thereof, for example, magnesium sulfate containing an anhydrous salt to hexahydrate or less, kieselite, potassium sulphate sulfate, serpentine. Magnesium sulfate fertilizer that decomposes rock or magnesium hydroxide with sulfuric acid, processed magnesia boron fertilizer obtained by reacting serpentine and light-burning magnesia with sulfuric acid, magnesia sulfate manganese fertilizer obtained by treating manganese ore and peridotite with sulfuric acid, serpentine Examples include, but are not limited to, processed magnesia fertilizers obtained by adding sulfuric acid to light burned magnesium and calcium borate, and in the present invention, for the double salt, a molecular formula obtained by dehydrating one or more molecules from anhydrous salt or water of crystallization in the maximum hydrated state. The one shown in is used.
もちろん、前記複塩の他、硫酸ナトリウム、硫酸カルシ
ウム、塩化カリウム等との各種天然又は合成の複塩を、
最大水化状態の結晶水から一分子以上脱水して用いても
良い。Of course, in addition to the above double salts, various natural or synthetic double salts with sodium sulfate, calcium sulfate, potassium chloride, etc.
One or more molecules may be dehydrated from the crystallized water in the maximum hydrated state before use.
また、塩基性物質としては、その添加量とも関係する
が、植物の生育を阻害しない物質であればよく、例えば
アルカリ土類金属の水酸化物乃至は水と容易に反応して
水酸化物となるような酸化物、炭酸塩が挙げられ、中で
も消石灰、生石灰、水酸化マグネシウム、軽焼マグネシ
ア等が経済性及び植物の生育上より望ましいものとして
挙げられる。The basic substance, which is related to the amount added, may be any substance that does not inhibit the growth of plants, for example, a hydroxide of an alkaline earth metal or a hydroxide that easily reacts with water. Examples of such oxides and carbonates include slaked lime, quick lime, magnesium hydroxide, and light-burned magnesia, which are preferable in terms of economic efficiency and plant growth.
粉衣助剤の過酸化物に対する添加割合は、過酸化物の有
機酸素濃度、種子の種類、品質、発芽に必要な有効酸素
量によって異なるが、例えば過酸化物の有機酸素濃度が
12.0%〜16.0%で、農業用酸素供給剤としての有効酸素
濃度を7.0%〜10.0%とする場合において、水稲種子
(コシヒカリ)に適用する場合では、通常、重量割合で
15〜75%、望ましくは25〜60%であって、粉衣助剤とし
てのマグネシウム化合物類と塩基性物質との添加重量比
は、過酸化物の種類、その有効酸素量等によっても異な
り一概に規定できないが、通常1:0.5〜1:1.5である。The addition ratio of the dressing aid to the peroxide varies depending on the organic oxygen concentration of the peroxide, the type of seed, the quality, and the amount of effective oxygen required for germination, for example, the organic oxygen concentration of the peroxide is
When applied to paddy rice seeds (Koshihikari) at 12.0% to 16.0% and an effective oxygen concentration of 7.0% to 10.0% as an oxygen supply for agriculture, it is usually expressed in weight percentage.
15 to 75%, preferably 25 to 60%, and the addition weight ratio of the magnesium compound as a dressing aid and the basic substance varies depending on the kind of peroxide, the amount of available oxygen, etc. However, it is usually 1: 0.5 to 1: 1.5.
本発明の農業用酸素供給剤は、前述のような過酸化物に
硫酸マグネシウム化合物と塩基性物質とを添加し、通常
の方法に従って均一に混合することによって得られる。The agricultural oxygen supply agent of the present invention is obtained by adding a magnesium sulfate compound and a basic substance to the above-mentioned peroxide and mixing them uniformly according to a usual method.
尚、粉衣助剤のほか、増量剤として炭酸石灰、苦土石
灰、高分子物質、農薬、ホルモン剤等を必要に応じて添
加しても差支えない。In addition to the dressing aid, lime carbonate, magnesia lime, polymer substances, pesticides, hormones, etc. may be added as necessary as an extender.
本発明の粉衣助剤を用いる理由としては、これが水和
する際の発熱量が大きくて水分の蒸発量が多く、又、粉
末の結晶水化が早くてサラサラしやすくなるので、焼石
膏を助剤とする場合より粉衣しやすいこと。種子へ粉
衣処理したものの物性が良好なこと。特に、塩基性物質
の添加は安定性を向上させる。水稲での栽培試験成績
が良好であること等がある。栽培成績については、種子
の胚乳が過酸化物からの酸素の作用で発芽乃至出芽エネ
ルギーに転換される際、硫酸マグネシウムがエネルギー
効率を高める働きをしているものと推定しているが、そ
の他の理由として、植物生育栄養素的効果やエネルギー
効率を高める効果と植物生育栄養素的効果との複合効果
も考えられる。The reason why the dressing aid of the present invention is used is that the amount of heat generated when it is hydrated is large and the amount of water vaporized is large, and the crystallization of powder is quick and easy to dry. It should be easier to dress than when using it as an auxiliary agent. The seeds should be dressed and have good physical properties. In particular, the addition of basic substances improves stability. The results of cultivation tests on paddy rice are good. Regarding the cultivation results, it is presumed that magnesium sulfate has a function of enhancing energy efficiency when seed endosperm is converted into germination or germination energy by the action of oxygen from peroxide, but other As a reason, a combined effect of a plant growth nutrient effect, an effect of enhancing energy efficiency, and a plant growth nutrient effect may be considered.
粉衣助剤を含む農業用酸素供給剤の種子への粉衣量は、
種子の種類、施用条件等によって決められるが、必要な
有効酸素(AOと称す)量を確保すべきであり、通常湛水
土壌中直播栽培用ではAO濃度が7〜8%程度となる量と
する。農業用酸素供給剤は、水分、保管条件等によって
AO濃度が経時変化するので、なるべく、水分は1%以下
としたり、吸湿しないような包装材料を使用したり、冷
暗所に保管したりする。この様にして得られた農業用酸
素供給剤は、水稲の湛水土壌中直播栽培用、他の作物栽
培用として種子へ粉衣処理して播種するのに適したもの
となる。The amount of agricultural oxygen supply containing seed dressing aids applied to seeds is
Although it depends on the type of seeds, application conditions, etc., it is necessary to secure the necessary amount of available oxygen (called AO). Normally, for direct seeding cultivation in submerged soil, the AO concentration is about 7-8%. To do. Oxygen supply for agriculture depends on moisture, storage conditions, etc.
Since the AO concentration changes over time, keep the water content below 1%, use packaging materials that do not absorb moisture, or store in a cool, dark place. The thus-obtained agricultural oxygen supply agent is suitable for direct seeding cultivation of paddy rice in submerged soil, and for dressing seeds for seeding for cultivation of other crops.
尚、本発明の農業用酸素供給剤は、各種肥料、農薬、ホ
ルモン剤などと混用、併用することによって、一層優れ
た効果を示すことがある。The oxygen supply agent for agriculture of the present invention may exhibit a more excellent effect when used in combination with various fertilizers, pesticides, hormone agents and the like.
製造例 32メッシュ全通の水酸化カルシウム(試薬1級)74.1g
と酸化マグネシウム(試薬1級)2.1gとを混合し、(C
aO:MgOモル比=9.5:0.5)そこへ水を加えて25%スラ
リーとした。次いで、50℃に加温し、35%過酸化水素水
92mlを攪拌下徐々に滴下して反応させた。滴下後20分間
攪拌を続け、その後生成物を濾過、105℃で1時間乾燥
して固形の過酸化物75.1gを得た。Production example 32 mesh Calcium hydroxide (reagent first grade) 74.1g
And 2.1 g of magnesium oxide (first-grade reagent) are mixed, and (C
aO: MgO molar ratio = 9.5: 0.5) Water was added thereto to form a 25% slurry. Next, heat to 50 ° C and use 35% hydrogen peroxide solution.
92 ml was gradually added dropwise with stirring to react. After dropwise addition, stirring was continued for 20 minutes, and then the product was filtered and dried at 105 ° C. for 1 hour to obtain 75.1 g of solid peroxide.
前記過酸化物の有効酸素濃度を分析し、有効酸素濃度が
7.5%となるように、過酸化物55.6gに粉衣助剤として
無水硫酸マグネシウム(試薬1級)22.2gと消石灰22.2
gとを均一に混合して本発明の酸素供給剤100.0gを得
た。Analyzing the effective oxygen concentration of the peroxide, the effective oxygen concentration
7.5% of peroxide was added to 55.6 g of peroxide, 22.2 g of anhydrous magnesium sulfate (first grade reagent) and slaked lime 22.2 as a dressing aid.
g was uniformly mixed to obtain 100.0 g of the oxygen supply agent of the present invention.
試験例1(粉衣助剤の種類と物性) 過酸化物に粉衣助剤を加えて均一混合物とし、これを水
稲種子に粉衣処理した後、このものについて物性(pH、
安定性、水中耐崩壊性及び剥離性)を測定し、表−Iの
結果を得た。Test Example 1 (Type and Physical Properties of Dressing Aid) A powdery dressing aid was added to peroxide to form a uniform mixture, which was dressed with paddy rice seeds, and then the physical properties (pH,
Stability, disintegration resistance in water and peelability) were measured and the results shown in Table-I were obtained.
粉衣処理は、鳩胸状に催芽した水稲種子(コシヒカリ)
500gを傾斜皿型コーティングマシンに採り、これを毎
分20回転で転動しつつ、水のスプレーと400gの酸素供
給剤の投入とを交互に繰返しながら行い、風乾後供試品
とした。The dressing process is rice seed (Koshihikari) germinated in a pigeon chest shape.
500 g was taken in a tilting plate type coating machine, and this was rotated at 20 rpm, while spraying water and introducing 400 g of an oxygen supply agent were alternately repeated, and air-dried to obtain a sample.
ここで使用した過酸化物は、32メッシュ全通の水酸化カ
ルシウム(試薬1級)と酸化マグネシウム(試薬1級)
とを混合し(CaO:MgOモル比=9.25:0.75)、前述の製
造方法に従って得た固形の過酸化物(水分0.3%、pH11.
8、AO濃度12.78%)であり、このものを酸素供給剤とし
てのAO濃度が7.2%となるように粉衣助剤を添加した。
その時の各粉衣助剤の重量割合を表中に表示した。The peroxide used here is calcium hydroxide (first-grade reagent) and magnesium oxide (first-grade reagent) with 32 mesh throughout.
Are mixed (CaO: MgO molar ratio = 9.25: 0.75), and the solid peroxide (water content 0.3%, pH 11.
8. AO concentration was 12.78%), and a dressing aid was added to this product so that the AO concentration as an oxygen supplier was 7.2%.
The weight ratio of each dressing aid at that time is shown in the table.
尚、表中の物性に関するデータは、以下の方法で求め
た。The data on the physical properties in the table were obtained by the following methods.
pH :水500m中に供試品5gを投入し、混合攪拌した
後測定した。pH: 5 g of the sample was put in 500 m of water, mixed and stirred, and then measured.
安定性:恒温(45℃)恒湿(相対湿度70%)の密閉容器
内に供試品を置き、試験前と放置7日後(試験後)のAO
濃度及び重量を測定してその変化した割合(%)を下記
式により求めた。Stability: AO before and after leaving the test sample in an airtight container of constant temperature (45 ℃) and constant humidity (70% relative humidity) for 7 days (after the test).
The concentration and weight were measured, and the changed ratio (%) was determined by the following formula.
水中耐 崩壊性:供試品を水中に投入し、10分後の水中での剥離
乃至崩壊状態を肉眼観察した。 Disintegration resistance in water: The sample was placed in water, and after 10 minutes, the state of peeling or disintegration in water was visually observed.
剥離性:供試品を高さ1mより厚さ10mmの鉄板上へ落下さ
せ、脱落した部分を集めて秤量し、全粉衣量に対する割
合(%)を求めた。Peelability: The test sample was dropped from a height of 1 m onto an iron plate having a thickness of 10 mm, the dropped parts were collected and weighed, and the ratio (%) to the total amount of powder coating was obtained.
また、この表−IのpHと安定性との関係を図に示した。Also, the relationship between pH and stability in Table-I is shown in the figure.
試験例2(栽培試験) 試験例1で使用した試験区No.1、No.15及びNo.18の農
業用酸素供給剤並びに試験区No.19として同一の過酸化
物に粉衣助剤として焼石膏のみを同量使用して得た農業
用酸素供給剤を粉衣した種子を使用して湛水土壌中直播
栽培を行ない、表−IIの試験成績を得た。 Test Example 2 (Cultivation Test) Agricultural oxygen supply agents of test groups No. 1, No. 15 and No. 18 used in Test Example 1 and the same peroxide as Test Group No. 19 as a dressing aid Direct seeding cultivation in submerged soil was carried out using seeds coated with an agricultural oxygen supply agent obtained by using the same amount of calcined gypsum alone, and the test results shown in Table-II were obtained.
栽培試験にはワグネルポット(1/5,000アールポット)
を用い、田土約4.0kgに硫酸アンモニア2.5g、過燐酸石
灰3.0g及び硫酸カリウム1.0gを混合して詰め、水深10mm
の湛水状態下で土壌中15mm下に100粒播種した。播種
後、経過日数と出芽数、播種12日後の苗立数、草丈及び
根長等を調査した。Wagner pot (1 / 5,000 are pot) for cultivation test
Using 4.0 g, the soil of about 4.0 kg is mixed with 2.5 g of ammonium sulfate, 3.0 g of lime superphosphate and 1.0 g of potassium sulfate, and packed to a depth of 10 mm.
100 seeds were sown 15 mm below the soil under flooded condition. After sowing, the number of days elapsed and the number of germination, the number of seedlings 12 days after sowing, the plant height and the root length were investigated.
尚、ポットは温室内に置いて栽培管理したが、この間気
温は最低15℃、最高25℃で、水温は最低12℃、最高18℃
であった。The pots were placed in a greenhouse for cultivation and management. During this period, the temperature was at least 15 ℃ and the maximum was 25 ℃, and the water temperature was at least 12 ℃ and the maximum was 18 ℃.
Met.
尚、本発明の他の農業用酸素供給剤は、前記No.1とNo.1
5の関係の如く、塩基性物質を含まない場合と同様に、
優れた栽培成績を示す。 Incidentally, other agricultural oxygen supply agent of the present invention, No. 1 and No. 1
Similar to the case of not containing a basic substance like the relationship of 5,
Shows excellent cultivation results.
試験例3(栽培試験) 試験例1で使用した試験区No.1〜No.18の農業用酸素供
給剤を粉衣した種子及び試験区No.19として農業用酸素
供給剤無粉衣の種子並びに試験区No.20としてCaO:MgO
モル比=10.0:0より得た過酸化物に焼石膏を添加して得
た農業用酸素供給剤(AO濃度7.2%)を粉衣した種子を
使用して播種の早期限界が平均気温10℃で前後である時
期において湛水土壌中直播栽培を行い、表−IIIの試験
成績を得た。Test Example 3 (Cultivation Test) Seeds coated with the oxygen supply agents for agriculture of the test groups No. 1 to No. 18 used in Test Example 1 and seeds without the oxygen supply agent for agriculture as test group No. 19 And as test zone No. 20, CaO: MgO
Using the seeds dressed with the agricultural oxygen supply agent (AO concentration 7.2%) obtained by adding calcined gypsum to the peroxide obtained from the molar ratio = 10.0: 0, the early limit of sowing is the average temperature of 10 ° C. Direct seeding cultivation was carried out in the submerged soil at the time before and after, and the test results shown in Table-III were obtained.
栽培試験は、屋外圃場の苗代田(面積;3.2m×1.2m、土
壌;グライ埴壌土)において、硫酸アンモニウム78g、
過燐酸石灰93g及び硫酸カリウム31gを均一に施肥し、
各区の間隔を1cmとした。播種は、水深10mmの湛水状態
下で土壌中15mm下に100粒とした。播種後、経過日数と
出芽数、播種25日後の苗立数、草丈及び根長を調査し
た。Cultivation test was carried out in an outdoor field, Naeshiro rice field (area: 3.2m × 1.2m, soil: Grye loam soil), 78g of ammonium sulfate,
Fertilize 93g of superphosphate and 31g of potassium sulfate uniformly,
The distance between each section was 1 cm. Sowing was carried out with 100 grains 15 mm below the soil in a flooded condition with a water depth of 10 mm. After sowing, the number of days elapsed and the number of germination, the number of seedlings 25 days after sowing, the plant height and the root length were investigated.
尚、この間の気温は最低9℃、最高24℃で、水温は最低
8℃、最高24℃であった。During this period, the temperature was a minimum of 9 ° C and a maximum of 24 ° C, and the water temperature was a minimum of 8 ° C and a maximum of 24 ° C.
〔効果〕 種子粉衣用の農業用酸素供給剤は、種子に粉衣処理され
る前及びその後の物性及び栽培成績がともに良好である
ことが必要である。 [Effects] An agricultural oxygen supply agent for seed dressing needs to have good physical properties and cultivation results both before and after dressing of seeds.
本発明の農業用酸素供給剤は、前記実施例から明らかな
様に、市販の農業用酸素供給剤より優れた栽培成績を示
すものであると共に、先に本出願人が出願した塩基性物
質を含まない粉衣助剤を用いた農業用酸素供給剤と同様
に優れた栽培成績を示した。また、本発明の農業用酸素
供給剤は、低温期においても発芽促進効果が認められ
た。Agricultural oxygen supply agent of the present invention, as is clear from the above-mentioned example, shows a cultivation result superior to the commercially available agricultural oxygen supply agent, as well as the basic substance previously filed by the present applicant. It showed the same excellent cultivation results as the oxygen supply agent for agriculture using the dressing aid which did not contain it. Further, the oxygen supply agent for agriculture of the present invention was confirmed to have a germination promoting effect even in the low temperature period.
物性においては、特に安定性(経時変化に対する安定
性)に優れたものであることが判る。添付図面からも明
らかなように、塩基性物質を添加した場合には、添加し
ない場合より安定性が向上することが判る。It can be seen that in terms of physical properties, it is particularly excellent in stability (stability over time). As is clear from the accompanying drawings, it is understood that the stability is improved when the basic substance is added, as compared with the case where the basic substance is not added.
このように、優れた栽培成績を示す農業用酸素供給剤
を、製造保管上、長期にわたって貯蔵することが可能と
なった。In this way, it became possible to store an agricultural oxygen supply agent showing excellent cultivation results for a long period of time in terms of production storage.
また、過酸化物としては、過酸化カルシウムだけの場合
よりも、原料としてカルシウム化合物とマグネシウム化
合物を混合して得られる過酸化物を使用した方が栽培成
績が良好になり、特にCaO/MgOのモル比が特定の範囲内
にあるものを原料として得られる過酸化物を使用した場
合には、栽培成績がより良好になり、より望ましい農業
用酸素供給剤を供給することができる。Further, as the peroxide, cultivation results are better when a peroxide obtained by mixing a calcium compound and a magnesium compound is used as a raw material than when only calcium peroxide is used. In particular, CaO / MgO When a peroxide obtained from a material having a molar ratio within a specific range is used, the cultivation results are better and a more desirable agricultural oxygen supply agent can be supplied.
粉衣助剤として、本発明のものを使用することによっ
て、長期にわたって優れた栽培成績を示す農業用酸素供
給剤を提供することが可能となり、また、水稲の湛水土
壌中直播栽培における初期生育促進効果か得られるの
で、寒地、寒冷地への適応性が拡大できる。By using the one of the present invention as a dressing aid, it becomes possible to provide an oxygen supply agent for agriculture that exhibits excellent cultivation results over a long period of time, and also the initial growth in direct sowing cultivation of paddy rice in flooded soil. Since the promoting effect can be obtained, the adaptability to cold regions and cold regions can be expanded.
図は、本発明の農業用酸素供給剤のpHと安定性との関係
についての試験例1の試験結果を示したものである。 実線Aは、粉衣助剤としての硫酸マグネシウム化合物と
して硫酸苦土肥料・1水塩を用いた場合を、実線Bは、
硫酸苦土肥料・6水塩を用いた場合を、実線Cは、試薬
硫酸マグネシウム(無水塩)を用いた場合を各々示した
ものである。点A′、B′及びC′は各々実線A、Bお
よびCにおいて塩基性物質を添加しなかった場合(比較
区)を示す。The figure shows the test results of Test Example 1 regarding the relationship between pH and stability of the agricultural oxygen supply agent of the present invention. Solid line A shows the case of using magnesium sulfate fertilizer / monohydrate as a magnesium sulfate compound as a dressing aid, and solid line B shows
The solid line C shows the case of using the magnesium sulfate fertilizer / hexahydrate, and the solid line C shows the case of using the reagent magnesium sulfate (anhydrous salt). Points A ', B', and C'indicate solid lines A, B, and C, respectively, when no basic substance was added (comparative plots).
Claims (5)
する粉末に、無水塩乃至六水塩以下の結晶水を含有する
硫酸マグネシウム及び無水塩乃至最大水化状態の結晶水
から一分子以上脱水した分子式で示される硫酸マグネシ
ウムの複塩から選ばれた硫酸マグネシウム化合物の少な
くとも一種と、塩基性物質とを添加したことを特徴とす
る農業用酸素供給剤。1. A molecule of magnesium sulfate containing anhydrous salt to hexahydrate or less of crystallization water in a powder containing an alkaline earth metal peroxide as an active ingredient, and one molecule from anhydrous salt or hydrated water of maximum hydration. An agricultural oxygen supply agent, characterized in that at least one magnesium sulfate compound selected from the double salts of magnesium sulfate represented by the dehydrated molecular formula above and a basic substance are added.
ム化合物とマグネシウム化合物とを、各々酸化カルシウ
ム及び苦土又は枸溶性苦土としてモル比が9.9:0.1〜8:
2となるように混合し、該混合物を過酸化水素により過
酸化物とした固形物である特許請求の範囲第1項記載の
農業用酸素供給剤。2. The alkaline earth metal peroxide comprises a calcium compound and a magnesium compound in the form of calcium oxide and magnesia or solute-soluble magnesia at a molar ratio of 9.9: 0.1 to 8:
The agricultural oxygen supply agent according to claim 1, wherein the oxygen supply agent is a solid substance which is mixed so as to be 2, and the mixture is made into peroxide with hydrogen peroxide.
土、硫酸苦土肥料、加工苦土肥料、硫酸苦土マンガン肥
料及び加工苦土硼素肥料から選ばれた少なくとも一つで
ある特許請求の範囲第1項又は第2項記載の農業用酸素
供給剤。3. The magnesium sulphate compound is at least one selected from magnesium sulphate magnesia, magnesia sulphate fertilizer, processed magnesia fertilizer, magnesia sulphate manganese fertilizer and processed magnesia boron fertilizer. The agricultural oxygen supply agent according to claim 1 or 2.
であり、塩基性物質がアルカリ土類金属の水酸化物乃至
は水と容易に反応して水酸化物となるような酸化物及び
炭酸塩から選ばれた少なくとも一つである特許請求の範
囲第1項、第2項又は第3項記載の農業用酸素供給剤。4. A magnesium oxide compound is a magnesia sulfate fertilizer, and oxides and carbonates in which a basic substance easily reacts with a hydroxide or water of an alkaline earth metal to form a hydroxide. The agricultural oxygen supply agent according to claim 1, 2, or 3, which is at least one selected from the group consisting of:
グネシウム及び軽焼マグネシアから選ばれた少なくとも
一つである特許請求の範囲第1項、第2項、第3項又は
第4項記載の農業用酸素供給剤。5. The claim 1, claim 2, claim 3, or claim 4 wherein the basic substance is at least one selected from slaked lime, quick lime, magnesium hydroxide, and light burned magnesia. Oxygen supply for agriculture.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP62321691A JPH0651608B2 (en) | 1986-12-26 | 1987-12-18 | Agricultural oxygen supply |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP31165686 | 1986-12-26 | ||
JP61-311656 | 1986-12-26 | ||
JP62321691A JPH0651608B2 (en) | 1986-12-26 | 1987-12-18 | Agricultural oxygen supply |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS63270612A JPS63270612A (en) | 1988-11-08 |
JPH0651608B2 true JPH0651608B2 (en) | 1994-07-06 |
Family
ID=26566843
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP62321691A Expired - Fee Related JPH0651608B2 (en) | 1986-12-26 | 1987-12-18 | Agricultural oxygen supply |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0651608B2 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE19650686A1 (en) * | 1996-12-06 | 1998-06-10 | Solvay Interox Gmbh | Alkaline earth metal peroxide product |
DE10140858A1 (en) * | 2001-08-21 | 2003-03-06 | Solvay Interox Gmbh | Homogeneous boron-doped alkaline earth peroxide |
CN103918378B (en) * | 2014-04-01 | 2015-06-24 | 黑龙江八一农垦大学 | Seed processing method for improving the capability of soybean for resisting saline-alkali stress |
EP3244735A4 (en) * | 2015-01-14 | 2018-07-04 | Calix Ltd | Improved pathogen inhibitor |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS547684A (en) * | 1977-06-17 | 1979-01-20 | Daburiyuu Etsukoruto Ag | Device for machining pipes |
JPS59130103A (en) * | 1983-01-12 | 1984-07-26 | 保土谷化学工業株式会社 | Modified rice seed coating agent |
JPS606105A (en) * | 1983-06-22 | 1985-01-12 | 保土谷化学工業株式会社 | Improved spraying method of powdery chemicals to rice seed |
JPS6148495A (en) * | 1984-08-15 | 1986-03-10 | 石原産業株式会社 | Agricultural oxygen supplier |
JPS61286206A (en) * | 1985-06-12 | 1986-12-16 | Nippon Peroxide Co Ltd | Stabilizing method for divalent metallic peroxide |
-
1987
- 1987-12-18 JP JP62321691A patent/JPH0651608B2/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS547684A (en) * | 1977-06-17 | 1979-01-20 | Daburiyuu Etsukoruto Ag | Device for machining pipes |
JPS59130103A (en) * | 1983-01-12 | 1984-07-26 | 保土谷化学工業株式会社 | Modified rice seed coating agent |
JPS606105A (en) * | 1983-06-22 | 1985-01-12 | 保土谷化学工業株式会社 | Improved spraying method of powdery chemicals to rice seed |
JPS6148495A (en) * | 1984-08-15 | 1986-03-10 | 石原産業株式会社 | Agricultural oxygen supplier |
JPS61286206A (en) * | 1985-06-12 | 1986-12-16 | Nippon Peroxide Co Ltd | Stabilizing method for divalent metallic peroxide |
Also Published As
Publication number | Publication date |
---|---|
JPS63270612A (en) | 1988-11-08 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US5106405A (en) | Horticultural medium consisting essentially of natural zeolite particles | |
US4670039A (en) | Timed release fertilizer composition and means | |
US4248617A (en) | Process for producing granular basic phosphate fertilizer | |
JPH0651608B2 (en) | Agricultural oxygen supply | |
Starostka et al. | Influence of soluble salts on the solubility of and plant response to dicalcium phosphate | |
EP3024804B1 (en) | A high efficiency magnesium fertilizer | |
JPH053842B2 (en) | ||
RU2713692C1 (en) | Method of preparing organosilicon fertilizer | |
JP2002020187A (en) | Fertilizer for raising seedling of paddy rice and culture soil for raising seedling of paddy rice | |
EP1298114A1 (en) | Fertilizers containing ammonium thiosulfate | |
TWI483919B (en) | Enhanced fertilizer products with polymer adjuvants | |
US20220348515A1 (en) | Concentrated aqueous suspension of microfibrillated cellulose comprising salts for plant nutrition | |
NO330354B1 (en) | Phosphorous forest manure | |
JP3037907B2 (en) | Plant growing medium obtained by adding zeolite to water purification plant generated soil and its production method | |
DK171130B1 (en) | Encapsulated fertilizer with neutralizing ability | |
JP2506572B2 (en) | Mixture of zeolite and soil from water purification plant | |
CN112280559B (en) | Alkaline soil composite modifier and preparation method thereof | |
JPH0415198B2 (en) | ||
CN107879853A (en) | Bentonite saline land greening tree planting soil conditioner | |
CN107892633A (en) | Loess saline land greening tree planting soil conditioner | |
Gillman | Hydrotalcite: leaching-retarded fertilizers for sandy soils | |
US20220388921A1 (en) | Disaggregable granulated calcium and/or magnesium and potassium fertilizer and method of obtaining thereof | |
JPH0114197B2 (en) | ||
JPS606105A (en) | Improved spraying method of powdery chemicals to rice seed | |
JP2000159590A (en) | Ammonium thiosulfate-containing fertilizer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
LAPS | Cancellation because of no payment of annual fees |