Abstract
Audible sound (20–20000 Hz) widely exists in natural world. However, the interaction between audible sound and the growth of plants is usually neglected in biophysics research. Not much effort has been put forth in studying the relation of plant and audible sound. In this work, the effect of audible sound on germination and growth of mung bean (Vigna radiate) was studied under laboratory condition. Audible sound ranging 1000–1500 Hz, 1500–2000 Hz, and 2000–2500 Hz and intensities [80 dB (A), 90 dB (A), 100 dB (A)] were used to stimulate mung bean for 72 hours. The growth of mung bean was evaluated in terms of mean germination time, total length, and total fresh weight. Experimental results indicated that the sound wave can reduce the germination period of mung bean and the mung bean under treatments of sound with intensity around 90 dB and frequency around 2000 Hz and significant increase in growth. Audible sound treatment can promote the growth of mung bean differently for distinct frequency and intensity. The study provides us with a way to understand the effects and rules of sound field on plant growth and a new way to improve the production of mung bean.
Highlights
There are scientific literatures related to studies on the effects of subjecting seeds and plants to sound waves or magnetic field [1,2,3,4,5,6,7,8,9]
There is only one factor difference in each trial, and we only investigate one factor (SFB or SBL); data were analyzed using an analysis of variance (ANOVA) multiple comparison
We found that the germination period of mung bean was reduced after audible sound treatments
Summary
There are scientific literatures related to studies on the effects of subjecting seeds and plants to sound waves or magnetic field [1,2,3,4,5,6,7,8,9]. Studies have shown that some frequencies affect seed germination and the growth of plants differently than others [12, 13, 15]. Studies have been done on the use of music to improve crop yield and quality in plants such as tomato, vegetables, and barley [15, 16]. Hou et al [17] used audible sound waves to stimulate more than 50 different crops and achieved remarkable effects
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