RU93040908A - METHOD OF GROWING SEEDLINGS - Google Patents

METHOD OF GROWING SEEDLINGS

Info

Publication number
RU93040908A
RU93040908A RU93040908/13A RU93040908A RU93040908A RU 93040908 A RU93040908 A RU 93040908A RU 93040908/13 A RU93040908/13 A RU 93040908/13A RU 93040908 A RU93040908 A RU 93040908A RU 93040908 A RU93040908 A RU 93040908A
Authority
RU
Russia
Prior art keywords
seedlings
batteries
devices
growing seedlings
microelements
Prior art date
Application number
RU93040908/13A
Other languages
Russian (ru)
Other versions
RU2040884C1 (en
Inventor
В.М. Колесник
А.Г. Балабушевич
Original Assignee
В.М. Колесник
А.Г. Балабушевич
Filing date
Publication date
Application filed by В.М. Колесник, А.Г. Балабушевич filed Critical В.М. Колесник
Priority to RU93040908A priority Critical patent/RU2040884C1/en
Priority claimed from RU93040908A external-priority patent/RU2040884C1/en
Application granted granted Critical
Publication of RU2040884C1 publication Critical patent/RU2040884C1/en
Publication of RU93040908A publication Critical patent/RU93040908A/en

Links

Claims (1)

Изобретение относится к сельскому и лесному хозяйству и касается выращивания саженцев с закрытой корневой системой. Цель: обеспечение оптимального питания саженцев, снижение трудозатрат и увеличение выхода стандартных саженцев. Способ заключается в установке устройства, содержащего полный набор макро- и микроэлементов, в среднюю часть контейнера при снаряжении его несодержащим удобрения субстратом с последующим запуском устройства через 10 - 40 сут после установки посадочного материала. Во время всего периода вегетации дозируют элементы питания со скоростью 8 - 15 мг/ч и в соотношении N: Р2О52О, равном (3:1:4) - (20:16:10). Вместо одного устройства возможна установка группы устройств, обеспечивающих задаваемую производительность или группы устройств, дозирующих индивидуальные элементы питания с той же производительностью. Расчетная масса элементов питания может быть больше необходимой, что обеспечивает подачу удобрений и после установки саженцев на постоянное место.The invention relates to agriculture and forestry and for the cultivation of seedlings with a closed root system. Purpose: ensuring optimal nutrition of seedlings, reducing labor costs and increasing the yield of standard seedlings. The method consists in installing a device containing a complete set of macro- and microelements in the middle part of the container when equipping it with non-containing fertilizer substrate, followed by starting the device 10 to 40 days after installation of planting material. During the entire growing season, the batteries are dosed at a rate of 8-15 mg / h and in a ratio of N: P 2 O 5 : K 2 O equal to (3: 1: 4) - (20:16:10). Instead of a single device, it is possible to install a group of devices that provide a given performance or groups of devices that dispense individual batteries with the same performance. The estimated weight of the batteries may be more than necessary, which ensures the supply of fertilizers even after the seedlings are installed in a permanent place.
RU93040908A 1993-08-12 1993-08-12 Method for growing of seedlings RU2040884C1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
RU93040908A RU2040884C1 (en) 1993-08-12 1993-08-12 Method for growing of seedlings

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
RU93040908A RU2040884C1 (en) 1993-08-12 1993-08-12 Method for growing of seedlings

Publications (2)

Publication Number Publication Date
RU2040884C1 RU2040884C1 (en) 1995-08-09
RU93040908A true RU93040908A (en) 1997-04-20

Family

ID=20146488

Family Applications (1)

Application Number Title Priority Date Filing Date
RU93040908A RU2040884C1 (en) 1993-08-12 1993-08-12 Method for growing of seedlings

Country Status (1)

Country Link
RU (1) RU2040884C1 (en)

Similar Documents

Publication Publication Date Title
AU681950B2 (en) Method for simulating plant growth using gaba
Shoji et al. Simulation of crop response to polyolefin‐coated urea: II. Nitrogen uptake by corn
CA2236496A1 (en) Seed coating composition of gypsum with molybdenum
Smiciklas et al. Role of nitrogen form in determining yield of field‐grown maize
Vadivel et al. Effect of integrated nitrogen management practices on the growth and yield of rainfed winter maize (Zea mays)
PL320606A1 (en) Method of fertilising soil for growing plants
WO2003028437A3 (en) Plant cultivation apparatus and method
RU93040908A (en) METHOD OF GROWING SEEDLINGS
Vaněk et al. The level of soil nitrate content at different management of organic fertilizers application
CA2062501A1 (en) Method of and device for establishing a vegetable cover on at least partially denuded land
CN106804263A (en) Photinia glomerata water floatation seedling method
RU2090039C1 (en) Method for fertilizing cucumber or tomato in protected ground
Arihara et al. Improving responses of chickpea and pigeonpea to phosphorus application in Vertisols and Alfisols
EP1106591A3 (en) Fertiliser formulations containing polysulfonic acid
Benton Jones Jr Advantages gained by controlling root growth in a newly-developed hydroponic growing system
RU2142689C1 (en) Vegetable crops growing method
Golterman et al. Urea fertilization and the N-cycle of rice-fields in the Camargue (S. France)
Lee et al. Changes of chemical contents in groundwater at controlled horticulture in honam area
Eriksen et al. The effect of deep placement and surface application of nitrogen fertilizers at different light intensities on growth and yield of wetland rice
KR920019240A (en) How to transplant leek seedlings
WO1999065291A3 (en) A process for ex vitro sowing and germination of plant somatic embryos
RU2163063C2 (en) Farm crop fertilizing method
IE873385L (en) Plant growth regulator device.
RU2142695C1 (en) Vegetable crop growing method
Sheudzhen et al. Efficiency of applying urea and UTEC carbamide on rice crops