Electromagnetic energy stimulates crop growth

Dutch-based Wageningen University & Research (WUR) found that electromagnetic (EM) energy encourages crops to grow faster.

The research was recently published in the report ‘Effects of the ParXtra modulator on the growth of potted plants’. With the same use of light and heat, crops quickly achieve approximately 30 per cent more dry weight than with a traditional treatment. This unique find could be a game changer for the sector. “The technology can make a significant positive contribution to making the greenhouse horticulture sector more sustainable and increasing crop yields; We are going to conduct more in-depth research into this,” says Kees Weerheim, researcher at WUR.

Activating crops by using electromagnetic energy has never before been used in the sector. The inventor of the patented technology, LED specialist Mark van der Ende, discovered by chance that crops respond not only to light but also to certain frequencies of electromagnetic waves. He developed the ParXtra modulator, a device that uses RF-EM (Radio Frequency Electromagnetic Fields) and emits electromagnetic waves in the bandwidth of 1-15 MHz. ‘Par’ stands for photosynthetically active radiation, Xtra for the extra boost this gives.

Startling results

Experiments with the EM modulator in the cultivation of various potted plants, vegetables and grasses revealed sensational results. WUR research with Anthurium and ornamental pineapple confirmed these results. That research took place at Bunnik Bromelia in Kudelstaart. The dry matter biomass of ornamental pineapple increased by 19 per cent due to the use of ParXtra compared to cultivation without modulators, with Anthurium this was even 47 per cent. In the case of ornamental pineapples, the plant grew 20 per cent taller in the same time. In Anthurium, the leaf size increased by 20 per cent and rooting improved with approximately 10 per cent.

EM waves activate crops

The WUR research supports that electromagnetic waves promote the growth, size and weight of the crop and ensure that flowering Anthurium plants produce more and larger flowers in the same time. The first evidence from WUR shows that growth corresponds to the physiological changes in these plants. With EM waves, plants enter active photosynthesis mode with less light and heat. WUR found that the stomata open wider, the leaf temperature drops and photosynthesis accelerates. An explanation for the increase in growth could be that the plant needs less energy to lower the leaf temperature, and therefore more energy is left for crop development. It appears that when low light levels and assimilation lighting are used, the differences with traditional treatments are greatest. In addition to the positive results, the WUR scientists found no negative effects of the EM treatment in cultivation. The inaudible sound waves are safe for humans and animals. WUR sees a lot of potential in the technology and will conduct more and larger tests in the near future, now also on the fruit crops tomato and cucumber.

30 per cent to 40 per cent less energy

Because crops grow faster with the EM modulator, 30 per cent to 40 per cent less energy is needed for light and heat. That makes the technology a real game changer for the sector. With rising energy costs, returns are at risk for many companies. Accelerated crop development with greatly reduced energy costs can give revenues a significant boost. At the same time, it contributes to the CO2 reduction that the sector must achieve. Because the ParXtra has a power of 3-5 Watts, the energy requirement of the device itself is minimal. 200 to 400 modulators are needed per hectare. The device is not yet commercially available. ParXtra is in consultation with parties in order to bring the application to the market in 2024.

Convinced of added value

Siegfried Bunnik, owner of Bunnik Bromelia, is very enthusiastic about the technology and the possibilities it offers. “We conducted the test with two batches of 8,500 plants. Both with identical conditions, one with ParXtra, the other without. When I saw after six weeks that the plants were 30 per cent larger and heavier than the other batch due to the use of electromagnetic energy, with the same use of light and heat, I was quickly convinced. The results have now also been scientifically confirmed. I am sure that this technology will take off.”

The report of the WUR research and more information about ParXtra can be found at www.parxtra.com

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