Miscellaneous Uses of the Resonant Light Technology

Over the years, people have gotten curious. In what other situations might we want to control detrimental microorganisms? This curiosity is where research often starts - that drive to find out what happens if ......... Thus we now have some anecdotal feedback, including a documented study about how this resonant light technology via the PERL can be used to enhance plant growth, and prolong storage of harvested plant life. From this, it has been suggested that this system can:

  • extend the life of food in clinically controlled food storage lockers:
    A salad factory in Germany has seen a 40% increase
    in shelf life of its products, thus also increasing its profits.
  • slow the growth of mold and fungi in greenhouses
  • reduce the parasitic count in fruit orchards
  • extend the life of cut flowers

Floral Bouquet

The PERL can help extend the life of cut flowers .

Wheat Grass Plant Study

Purpose: To assess the effects of PERL usage on

  • germination rate
  • growth & vitality of the plant
  • mould control

As part of our continuing research on the endless uses and benefits of the PERL (Photon Emission Resonant Light), we began a short study on the effect of frequency protocols on the plant world. The idea for this study was based on anecdotal reports from several of our clients based on their own use and observations. We had reports of the PERL showing benefit in prolonging the shelf life of produce. We felt this was worth investigating. Unfortunately, the banks of frequencies used by these businesses were not shared as they were considered proprietary secrets.

We approached two local businesses that were involved in the production and distribution of wheat grass. This fast growing, quick turnover crop made for an ideal testing ground for the PERL. As the method and environment this therapeutic grass is grown in makes it highly susceptible to slime moulds, it also gave us the additional scope of developing specific frequency protocols for mould control.

This initial plant study looked into three main areas: germination rate, growth and vitality of the plant, and mould control. Solid studies indicating the best frequencies suited for this task are relatively unavailable and as such, we had to create our own based on the available data and our own experience.

We developed three experimental frequency banks to be run 4 hours per day, 7 days per week. A 60-day study using the PERL was conducted in the grow rooms. This was preceded and followed by a 20-day control run, to establish growth characteristics. Attempts to understand variables such as location of the growing trays and environmental influences such as temperature and humidity were taken into consideration in assessing the data collected.

In the end, our study results did show statistically positive changes to the areas of growth, germination and mould reduction in comparison with control runs. One grower commented that there appeared to be a visible enhancement of growth in the first three days, as well as a reduction in mould. Each of the companies involved with the study were pleased with their experience and expressed interest in future participation. For ourselves, future research in this area would begin with the reformulation of the frequency banks in order to achieve even more dramatic results.

We welcome any feedback from clients regarding their own experience with using the PERL and plants.

 

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