Real-Time
Imaging Revealed That Exoelectrogens from
Wastewater Are Selected at the Center of a Gradient Electric Field
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Abstract
Exoelectrogens
acclimated from the environment are the key to energy
recovery from waste in bioelectrochemical systems. However, it is
still unknown how these bacteria are selectively enriched on the electrode.
Here we confirmed for the first time that the electric field (EF)
intensity selects exoelectrogens from wastewater using an integrated
electrovisual system with a gradient EF. Under the operating conditions
(<i>I</i> = 3 × 10<sup>–3</sup>A), the EF intensity
on the working electrode ranged from 6.00 V/cm at the center to 1.08
V/cm at the edge. A thick biofilm (88.9 μm) with spherical pink
aggregates was observed at the center, while the color became gray
at the edge (33.8 μm). The coverage of the biofilm also increased
linearly with EF intensity from 0.42 at the edge (12 mm to the center)
to 0.78 at the center. The biofilm at the center contained 76% Geobacter, which was 25% higher than that at the
edge (60%). Geobacter anodireducens was the main species induced by the EF (50% at the center vs 24%
at the edge). These results improve our fundamental knowledge of exoelectrogen
acclimation and mixed electroactive biofilm formation, which has broader
implications for energy recovery from waste and general understanding
of microbial ecology