Tsutomu Takamura

Electrochemical Potential Around the Plant Root in Relation to Metabolism and Growth Acceleration

In order to keep our globe in a natural state, the protection of plants becomes more important in our future life. Practically, it is desired to provide suitable environmental conditions for plants to grow. In higher plants, the roots play an important role in their growth since the uptake of all the nutrition, including water, is done through the root (Bibikova and Gilroy 2003). This means that control of the chemistry of the environment around the roots is the key factor for plants to grow strongly. Recently, electrochemical signal detection for the intact higher plants around the roots has been investigated. For example, Iwabuchi et al. (1989) observed the electric patterns around growing cress roots. They reported that a change in the electric patterns was brought about by the growth of the root in a given environment. Toko and coworkers reported on the occurrence of current flow around plant roots (Ezaki et al. 1988), the current flow picture outside the root being shown to be related to growth. Miwa and Kushihashi (1992) reported on the stereoscopic electric current density picture around the root. Their current flow picture was constructed on the basis of the measured spatial assumption of the presence of an active ionic flow. They expected H+ accumulation in the region of the growing position of the root. However, neither the ionic concentration profile nor the time dependence of the potential profile appears to have been studied in detail for the root surface during growth. It is interesting to measure directly the ionic concentration profiled during the growth. Electrochemistry can afford to control the electric field near the plant root as desired. If the electrochemical potential is applied to the root, the signal is supposed to be sensed near the interior of the root, which may possibly stimulate the growth of the plant. We found that growth was accelerated by the application of DC or square wave voltage to the root of a bean radicle planted in a culturing bath (Mizuguchi et al. 1994). It is worthwhile to study how the growing intact plant root is related to the presence of the substance which originates the potential distribution around the root surface. The ATP cycle 15 Electrochemical Potential around the Plant Root in Relation to Metabolism and Growth Acceleration