Physiological and Genotypic Characteristics of Nitrous Oxide (N₂O)-Emitting Pseudomonas Species Isolated from Dent Corn Andisol Farmland in Hokkaido, Japan

Abstract

Dent corn Andisol at the Hokkaido University Shizunai Livestock Experimental Farm actively emits nitrous oxide (N₂O). In order to screen for culturable and active N₂O emitters with high N₂O emission potential, soft gel medium containing excess KNO₃ was inoculated with soil suspensions from farm soil samples collected at different land managements. Dominant bacterial colonies were searched for among 20 of the actively N₂O-emitting cultures from post-harvest soil and 19 from pre-tilled soil, and all isolates were subjected to the culture-based N₂O emission assay. Ten active N₂O-emitting bacteria, four from post-harvest soil and six from pre-tilled soil, out of 156 isolates were identified as genus Pseudomonas by 16S rRNA gene sequencing. These N₂O emitters showed clear responses to NO₃⁻ within a neutral pH range (5.5–6.7), and accelerated N₂O production with 1.5–15 mM sucrose supplementation, suggesting the production of N₂O during the denitrification process. However, the negative responses of 6 active N₂O emitters, 3 from post-harvest soil and 3 from pre-tilled soil, out of the 10 isolates in the acetylene-blocking assay suggest that these 6 N₂O emitters are incomplete denitrifiers that have lost their N₂O reductase (N₂OR) activity. Although the PCR assay for the denitrification-associated genes, narG and nirK/S, was positive in all 10 Pseudomonas isolates, those negative in the acetylene-blocking assay were nosZ-negative. Therefore, these results imply that the high N₂O emission potential of dent corn Andisol is partly attributed to saprophytic, nosZ gene-missing pseudomonad denitrifiers.