Fig. 1 Agricultural Production Cooperative “Krasnaya Polyana” Pskov region, 2002 year.
Fig. 2 OPH “Rodina”, Pskov region, 2002.
The laboratory and pilot commercial developments and testings of the quantum resonant activation method in agriculture have been carried out in our country for more than 20 years.
The works started in 1994 in N.I. Vavilov Institute of Plant Genetic Resources (VIR) at the seeds production laboratory along with the International Organization for testing of seeds quality. Different specialized institutes and testing laboratories were also involved in this.
The Department of Biotechnology of the Federal State Budgetary Educational Institution of Higher Education Russian State Agrarian University -Moscow Agricultural Institute by K.A. Timiryazev – became the base for the improvement of quantum-resonance activation methods.
The experiments on the application of quantum resonant activation method in the course of processing of flax as a raw material for different industries were successfully carried out in the period of 1998 – 2001 year in the framework of the Federal target program “Flax is in Russian Goods”.
The results showed that the depth and quality of processing had increased in all major indicators.
The pilot commercial developments of the quantum-resonance activation method for growing of flax were carried out in the Tver, Pskov and Smolensk regions households in the crop area of several hundred hectares in the period of 2000-2006 years together with staff of the FSUE “TSNIILKA” (Moscow).
In the Tver region GNU All-Russian Research Institute of Flax – (Torzhok) was involved to the works.
There is shown a visual comparison of the sheaves of flax, prepared with all the requirements of valuation techniques on the example of two households on the Fig. № 1 and № 2.
THE FINDINGS ELOQUENTLY TESTIFIES THE EFFECTIVE USAGE OF THE QUANTUM-RESONANCE ACTIVATION METHODS.
Fig. 3. А satellite photo of the cotton plantation of The “TWYNAM” Company, Australia: the left – the land, that is processed using SSF technology; the right – is control. Increase biomass corresponds to the color shifts towards the blue color. Ultimately, cotton yields in the control experiment exceeded by 18.6%.
Fig. 4. Experiment with the Australian cotton research institute in Narrabri. At the top –are the cotton seeds treated with SCF, at the bottom – are the raw one.
Fig. 5. The condition of the controlled and processed with using of SSF-technology cotton seedlings on the 9th day after the termination of irrigation. The left photo is the control.
Fig. 6. The 7-day sprouts of rape: К- is control; 4” – SSF.
Fig. 7. Hyderabad (India). Samples of rice with a control (left) and pilot check (right).
Fig. 8. The work jointly with Vietnamese experts in 2007. Sprouting sunflower seeds genotype “Kuban 93” from 10th to 5th day on the water, from the 6th to the 10th day – on infiltrate: a) with use of SSF-technology; b) Control.
The results clearly indicate the benefits of using SCF technology.
The successful field tests on the flax field are carried out in 2005 and 2006 years under the long-term stationary experiment (Federal State Budgetary Educational Institution of Higher Education Russian State Agrarian University -Moscow Agricultural Institute by K.A. Timiryazev).
In 2007, there were carried out the experiments with the agricultural crops seeds, provided by the Ethiopian Institute of Agricultural Research, on base of the laboratory facilities of the Department of Agricultural Biotechnology, Russian State Agrarian University – Moscow Timiryazev Agricultural Academy, on the influence of different signals of special shape on the improving of the quality of the agricultural crops seeds, that take the significant place in the agro-industrial complex in Africa.
Based on the tests results there are made conclusions that the developed quantum-resonance activation methods have a high efficiency and may be recommended to the pilot commercial applications.
Since 2000, there were carried out longstanding work for cotton in Tajikistan, India, Australia, in industrial areas.
In 2004-2005 there were conducted laboratory researchs on the influence of proposed exposure factors in the seeds (sort “Elite”) and rapeseed sprouts, in the Department of Agricultural Biotechnology, Federal State Budgetary Educational Institution of Higher Education Russian State Agrarian University -Moscow Agricultural Institute by K.A. Timiryazev.
After laboratory tests, which allowed to determine the optimal version of the quantum resonant activation method, field testing, and then the industrial work was continued in Estonia with positive outcomes.
The works on rice were carried in the Krasnodar region (Russia),Vietnam, India, in 2008-2009.
The investigations were launched in 2008. There were carried out the biological experiments on the joint application of the quantum-resonance activation method and carbamide (calurea) on the different agricultural crops at the Department of of biotechnology- Federal State Budgetary Educational Institution of Higher Education Russian State Agrarian University -Moscow Agricultural Institute by K.A. Timiryazev under supervision of Professor E. Kalashnikova in 2010. The multisectoral experiments at the Department of Agricultural Biotechnology Federal State Budgetary Educational Institution of Higher Education Russian State Agrarian University -Moscow Agricultural Institute by K.A. Timiryazev led to the conclusion that the quantum resonant activation methods have a significant influence on the investigated objects.
The industrial tests of quantum resonant activation methods in the form a significant reduction application rates of nitrogen fertilizer (ammonium nitrate) were carried out in the cotton fields in Kazakhstan in season of the 2010.
As a result, at a lower introduction of activated mineral fertilizers (optimally in 4 times) the total weight of harvested cotton crop in the experimental section of the field № 1 was more than the reference to 23.08% in experimental areas of the field № 2 was more than the controling one to 40.00%.
The results of long-term experiments suggest the creation of a radically new technologies of increase the productivity of mineral fertilizers. The products that are based on this technology, significantly reduce the rate of fertilizer application. This is particularly relevant in today’s reality of economic processes.
There are currently developed the unique and innovative drag of the system of quantum resonant activation – “KREBSAKTIV”, based on a set of scientific and research works.
In October 2014 there were made a report “STRATEGIC APPROACHES AND PROSPECTS IMPROVE MINERAL FERTILIZER” at the 11th Moscow International Forum of Chemical (Industrial and Strategic section “Mineral fertilizers industry: government regulation, Challenges and Prospects”).
It was noticed that the quantum resonant activation methods not only allowed to solve the problem of rapid response on changing internal and external economic factors affecting the production and the use of fertilizers, but also to pick up on a completely different level of quality the manufacturing technologies and application of mineral fertilizers in terms of range, agrochemical efficiency, reduce costs, improve efficiency of mineral resources and fertilizers, improving the quality of finished goods, improve the microbiological condition and soil fertility raise.