Rice cultivation sustains nearly half of the global population but significantly contributes to atmospheric methane (CH₄) emissions. To mitigate these emissions in rice paddies, we estimated CH₄ flux using an automatic closed-chamber system in a pot experiment conducted under continuous flooding (CF) and alternate wetting and drying (AWD) irrigation treatments in a greenhouse at Academia Sinica (Taipei, Taiwan). We used both a japonica rice (Kitaake) and a modified Kitaake genotype containing plant peptides with sulfated tyrosine 2-3 (PSY2-3). Our findings demonstrated the 50% reduction in CH₄ flux under the AWD treatments. Furthermore, the modified PSY2-3 genotype exhibited a significant 10 to 30% lower CH₄ emission compared to the wild type after tillering stage (around 7^th weeks) due to aerenchyma tissue development. These results revealed the importance of both irrigation management and physiological differences in mitigating CH₄ emissions from rice paddies.