Biophoton emission in high-potency research on wheat seeds models

Abstract

Background Researchers at the interuniversity college for health and development Graz/Castle of Seggau, showed in a model with seeds ( Triticum aestivum ), that homeopathic gibberellic acid (GA3) D30 is able to influence the growth length of the seeds, which had been measured after 7 days. The inhibition or the stimulation of the growth length correlated to the time period in which the researches had been done (winter, spring or autumn). Objective Is it possible to recognize the long-term effects from homeopathic gibberellic acid on the growth length, in very early stages, by studying coherence effects with biophoton emission measurings? Materials and methods The biophoton emission from Triticum aestivum was measured in dry and wet conditions for different time periods. For wet conditions 4 different trigger solutions were chosen: gibberellic acid (GA3) D30, water D30, gibberellic acid (GA3) molecular and water molecular. The homeopathic agents were ultra-high dilutions above the Avogadro number to prevent molecular interactions. Results In total 64,000 measuring points on the different samples were corrected by the background signal and evaluated. The trigger solutions showed significantly different photon emission patterns during early development. Conclusion The results back the hypothesis, that the effects of homeopathic agents on biological systems may be recognized in very early stages by biophoton coherence measurings. The observations of the present data showed similarities with the growth length experiments, which had been done in the same time period. The wheat seed model which showed some fluctuations, has to be refined, and might thus be an interesting model for studying coherence interactions in relation to homeopathic agents. Further research is required to make the model more stable, to define his boundaries and to increase the amount of data.