REDOX DISTRIBUTION PROFILES OF FLOODED PADDY SOILS WITH MICROBIAL FUEL CELL APPLICATIONS

Authors

  • Tharangika Ranatunga
  • Takeo Onishi
  • Ken Hiramatsu
  • Yasushi Ishiguro

Keywords:

Denitrification, Redox potential, microbial fuel cell, paddy soil, nitrogen fertilizer

Abstract

Microbial fuel cell is one of our considerations to control denitrification redox reactions in
flooded rice soils. An independent study was conducted after a nitrogen behavior study in flooded rice soils
accounted for microbial fuel cell systems and microbial fuel cell systems with an externally applied voltage.
External voltage was applied in the aim of increasing microbial fuel cell efficiencies, for the better control of
soil redox potential. But, their redox controlling potentials and denitrification controlling were lower than that
of microbial fuel cell systems. It is hypothesized, that the lower controlling potentials were due to the redox
distributions effected with the distance to the anode of the circuit where the external voltage was connected
through. Therefore, soil redox distributions at three depth profiles were compared in both systems and controls
over the period of flooding. In external voltage applied systems, the redox potential of the soil away from anode
was not much effectively controlled as of microbial fuel cell systems, although the middle soil portions near
anode area were of higher redox potentials. At depths of 10 and 20 cm away from the soil surface, the redox
potential increased more with MFCs and moderately with MFC-extV, but reduced with non-MFCs over the
period. Accordingly, most electrons from whole soils were not freely transferred to the anode, except that from
near anode areas where the external voltage was connected through. Microbial fuel cell systems with externally
applied voltage had a lower impact on controlling denitrification than that of microbial fuel cell systems alone.

Downloads

Published

2018-05-28

How to Cite

Tharangika Ranatunga, Takeo Onishi, Ken Hiramatsu, & Yasushi Ishiguro. (2018). REDOX DISTRIBUTION PROFILES OF FLOODED PADDY SOILS WITH MICROBIAL FUEL CELL APPLICATIONS. GEOMATE Journal, 14(45), 52–57. Retrieved from https://geomatejournal.com/geomate/article/view/2038

Issue

Section

Articles