Ultrasonics and infrasounds experiments.Įlectromagnetic and radio wave effects in relation to sound. Sonic Bloom techniques developed by Dan CarlsonĤ. Protein music, special melodies to regulate biosynthesis.ģ. List of differents techniques and sounds that can influence plant life On the other hand, he was quite adamant that music for plants couldn’t possibly have an effect, as they “can’t hear.”
George Milstein found that a continuous low hum at 3000 cycles per second accelerated the growth of most of his plants and even caused some of them to bloom six full months ahead of their normal schedule. The sound plot also had 60% fewer larvae and was 3” taller on average. 50% of the corn was damaged in the control plot, and only 5% in the plot with sound. Peter Belton, researcher for Canada’s Department of Agriculture, controlled the European corn-borer moth by broadcasting ultrasonic waves. They were baffled and could not explain why audible sound had nearly doubled wheat harvests. Plants responded best to a frequency of 5000 cycles a second. Two researchers at the University of Ottawa did trials with high-frequency vibrations in wheat. He went on to produce amazing corn harvests using ear-splitting continuous notes at high and low pitches. In one greenhouse, he played George Gershwin’s “Rhapsody in Blue” 24 hours a day, producing thicker, greener plants that weighed 40% more for corn and 24% more for soy. George Smith, skeptical botanist and agricultural researcher, planted corn and soybeans in separate greenhouses under controlled conditions and began to experiment with music and plants. Plants are more aware of their surroundings than we think, probably much more so than us! The right sounds can produce tremendous improvements in growth, and the wrong sounds can do just the opposite. The classic book The Secret Life of Plants by Peter Tompkins and Christopher Bird documents many scientific, statistically-significant studies done on the fascinating relationship between sound and music and plants.
Bach’s violin sonata and observed a 66% increase in yield. It practically changed the plant’s genetic chromosomes!Ĭanadian engineer Eugene Canby exposed wheat to J.S. Singh also discovered that seeds that were exposed to music and later germinated produced plants that had more leaves, were of greater size, and had other improved characteristics. From his analysis of the effects specific circumstances had on plants’ cell membranes, he hypothesised they could both feel pain and understand affection.ĭr. In order to conduct his research, Bose created recorders capable of detecting extremely small movements, like the quivering of injured plants, and he also invented the crescograph, a tool that measures the growth of plants. Bose documented his research in Response in the Living and Non-Living, published in 1902, and The Nervous Mechanism of Plants, published in 1926. He also found that plants are sensitive to factors in the external environment, such as light, cold, heat, and noise. He concluded that they react to the attitude with which they are nurtured. Sir Jagadish Chandra Bose, an Indian plant physiologist and physicist, spent a lifetime researching and studying the various environmental responses of plants. He found that balsam plants grew at a rate that accelerated by 20% in height and 72% in biomass when exposed to music. Singh, head of the Botany Department at India’s Annamalia University, experimented with the effect of musical sounds on the growth rate of plants. Several studies have looked at this question, specifically how music effects plant growth.