SU728812A2 - Plant growth activating method - Google Patents
Plant growth activating method Download PDFInfo
- Publication number
- SU728812A2 SU728812A2 SU772551918A SU2551918A SU728812A2 SU 728812 A2 SU728812 A2 SU 728812A2 SU 772551918 A SU772551918 A SU 772551918A SU 2551918 A SU2551918 A SU 2551918A SU 728812 A2 SU728812 A2 SU 728812A2
- Authority
- SU
- USSR - Soviet Union
- Prior art keywords
- plant growth
- calcium
- seeds
- activating method
- oxidizing agent
- Prior art date
Links
Classifications
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
Landscapes
- Agricultural Chemicals And Associated Chemicals (AREA)
- Pretreatment Of Seeds And Plants (AREA)
Description
Изобретение относитс к сельскому хоз йству, в частности к области регули ровани ростовых процессов у растений с помощью химических веществ, Известен способ повышени урожа сельскохоз йственных культур при обработке сем н различными химическими соединени ми l 1 , В основном изобретении по авт. св. № 310635, описан способ стимулирован роста растений путем предпосевного на мачивани сем н или посадочных клубней водными растворами пангамовой кислоты или ее производных, например пангамата кальци , в концентраци х 25-150 мг/л по этому способу повыщение эффективнос ти стимул тора достигаетс при применении еще одной повторной обработки уже растущих растений в виде внекорневой подкормки 2. Однако обработка сем н известными стимул торами позвол ет получить невы сокие прибавки урожа сельскохоз йствен ных культур. Целью изобретени шт етс повышение эф41ект1-шности стимулировани за счет повышени урожайности и ускорени созреЕшни урожа сельскохоз йственных культур. Поставленна цель достигаетс тем, что перед обработкой семенного материала воднь ми растворами пангамовой кислоты тши ее производных по авт, св. , ° 31О635, производ т намачивание семенного материала водными растворами одного из веществ, выбранного из группы окислителей, преимущественно, азотной кислоты, йодата кали , перманганата кали , перекиси водорода, причем концентрацию раствора окислител вь б1фа1от опт11мальн5то дл каждого .вида растений, а продолжительность намачивани в пределах 6.12 ч, при обшей продолжительности обработки как окислителем, так и пангаматом кальци , равной 18-24 ч. Предлагаемый способ испытан в полевых и лабораторных опытах на экспериментальной базе Пушкинских лабораторийThe invention relates to agriculture, in particular to the field of regulating growth processes in plants with the help of chemicals. There is a known method of increasing the yield of agricultural crops when processing seeds with various chemical compounds l 1, In the main invention according to the author. St. No. 310635, described a method for stimulating the growth of plants by pre-sowing seeds or planting tubers with water solutions of pangamic acid or its derivatives, such as calcium pangamate, in a concentration of 25-150 mg / l, using this method, is increased when using one reprocessing of already growing plants in the form of foliar top dressing 2. However, the treatment of seeds with known stimulators makes it possible to obtain a slight increase in yield of agricultural crops. The aim of the invention is to increase the effect of stimulation by increasing the yield and speeding up the maturity of the crop of agricultural crops. This goal is achieved by the fact that before the seed is treated with aqueous solutions of pangamic acid, its derivatives are derived from aut. , ° 31O635, the seed material is soaked with aqueous solutions of one of the substances selected from the group of oxidizing agents, mainly nitric acid, potassium iodate, potassium permanganate, hydrogen peroxide, and the concentration of the solution of oxidizing agent within 6.12 hours, with a total duration of treatment with both an oxidizing agent and calcium pangamate, equal to 18-24 hours. The proposed method has been tested in field and laboratory experiments on an experimental base Pushkin FIR laboratories
ВНИИ растениеводства им. Н, И« Вави- лова(Ленинград) „Institute of Plant Industry named. N, and “Vavilova (Leningrad)”
Пример. Семена обрабатывают перед посевом водными растворами одного из окислителей, а затем пангаматом кальци .Example. Seeds are treated before sowing with aqueous solutions of one of the oxidizing agents, and then calcium pangamate.
Контролем ЯВЛ5ВОТСЯ посевыа где се« мена замачивались в водных растворахBy controlling the seeding where they were soaked in aqueous solutions
ei«aaS a9 aBS SrB3 t SaS5SSSJiei "aaS a9 aBS SrB3 t SaS5SSSJi
КультураCulture
ВодеWater
ПангаматPangamat
кальци О, О4Calcium O, O4
Йодат кали +Os5Yodat Kali + Os5
н-пангамат кальци Os04Calcium n-pangamat Os04
ВодаПангаматWater Pangamat
кальци OjOeCalcium OjOe
Пермангш атPermangsh at
кали ,5Kali, 5
-ь Пангамат кальци 0,06Pangamat calcium 0.06
росоroso
ВодаWater
ПангаматPangamat
кальци 0.05calcium 0.05
ПерекисьPeroxide
водорода -1-5hydrogen -1-5
+пангамат + pangamat
0,05 кальци 0.05 calcium
SavtaRiJbSFi-SEs aia В табл 2 приведены далные длины рост ков у сем н некоторых сельскохоз йст юн« SavtaRiJbSFi-SEs aia Table 2 shows the long lengths of growths for the seeds of some agricultural farms.
пангамата кальциЯ) а также в дистилли-Pangamata calcium) as well as in distilled
2 рованной воде, Размер дел нок 2 м2 water, the size of the division of 2 m
(1976) и 3 м (1977), повторность кратна ,(1976) and 3 m (1977), repetition is multiple,
В табл. 1 приведены данные урожа зерна и продолжительность вегетадиопно гх ) периода у пшениц-ы 5фовой; чечев цы и проса в зависимости от способа обработ ки сем н перед посевом,In tab. 1 shows the data of grain yield and the duration of the vegetaladiopno-gh) period in wheat s 5th; lentils and millet, depending on the method of processing seeds before sowing,
10О10A
127127
2434224342
24391И411624391I4116
1212
485139112485139112
1212
101101
24 89,11ОО24 89.11OO
24166,4 12О24166.4 12O
9й9th
1212
121,0 134121.0 134
8686
1212
120120
24 146,5 10024,146.5,100
24 183,4 12511524 183.4 125115
1212
249,5 170111249.5 170111
12 -ных культур в зависимости от продолжительности предпосевной обработки сем н12 crops depending on the duration of pre-sowing seed treatment
Таблица 2table 2
Claims (2)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| SU772551918A SU728812A2 (en) | 1977-12-05 | 1977-12-05 | Plant growth activating method |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| SU772551918A SU728812A2 (en) | 1977-12-05 | 1977-12-05 | Plant growth activating method |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| SU310635 Addition |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| SU728812A2 true SU728812A2 (en) | 1980-04-25 |
Family
ID=20736686
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| SU772551918A SU728812A2 (en) | 1977-12-05 | 1977-12-05 | Plant growth activating method |
Country Status (1)
| Country | Link |
|---|---|
| SU (1) | SU728812A2 (en) |
-
1977
- 1977-12-05 SU SU772551918A patent/SU728812A2/en active
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Wilson et al. | Plant growth in potting media containing worm-worked duck waste | |
| Granéli et al. | The response of planktonic and microbenthic algal assemblages to nutrient enrichment in shallow coastal waters, southwest Sweden | |
| Gissel‐Nielsen | Uptake and distribution of added selenite and selenate by barley and red clover as influenced by sulphur | |
| Geisler | Morphogenetic influence of (CO2+ HCO3−) on roots | |
| Metzger et al. | Liquid ammonium polyphosphate as a fish pond fertilizer | |
| US3118753A (en) | Plant growth stimulating composition and method employing mixtures of a gibberellic acid and purine compound | |
| Joy | Accumulation of oxalate in tissues of sugar-beet, and the effect of nitrogen supply | |
| SU728812A2 (en) | Plant growth activating method | |
| JPH0812478A (en) | Fertilizer for producing vegetable having good taste | |
| JP3830628B2 (en) | Plant growth promotion method and plant growth promoter composition | |
| JP2020080682A (en) | Production method of leafy vegetables | |
| JP2008303122A (en) | Soil, plant growth conditioning material | |
| Robinson | ACTION OF SODIUM NITRITE IN THE SOIL¹ | |
| SU1561859A1 (en) | Method of preseeding treatment of agricultural crop seeds | |
| Hurst et al. | Calcium Cyanamide and other Artificial Fertilisers in the Treatment of Soil infected with Heterodera schachtii | |
| SU1069211A1 (en) | Method of processing potato tubers | |
| Serrem et al. | Soil fertility improvement using crop residues and Azolla for sustainable production of rice and fish in irrigated rice-fish farming system in the Lake Victoria basin of Kenya | |
| JP6390066B1 (en) | Fertilizer composition | |
| RU2119285C1 (en) | Agent for decrease of heavy metals accumulation by agriculture crops | |
| SU1639452A1 (en) | Composition for presowing treatment of wheat seeds | |
| RU2114841C1 (en) | Regulating agent of the growth and development of plants | |
| SU854347A1 (en) | Method of regulating growth of cucumber plants in closed soil | |
| JP2000007506A (en) | How to improve soil nematodes | |
| SU635943A1 (en) | Method of pre-sowing treatment of grain seeds | |
| SU1491364A1 (en) | Method of growing mulberry trees |