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1547799 
Journal Article 
Mitigation of methane emissions from paddy fields by prolonging midseason drainage 
Itoh, M; Sudo, S; Mori, S; Saito, H; Yoshida, T; Shiratori, Y; Suga, S; Yoshikawa, N; Suzue, Y; Mizukami, H; Mochida, T; Yagi, K 
2011 
Agriculture, Ecosystems & Environment
ISSN: 0167-8809 
Elsevier 
141 
3-4 
359-372 
WOS:000292534800012 
In order to analyze the mitigation of methane (CH(4))
emissions and the global warming potentials (GWPs) of CH(4) and nitrous oxide (N(2)O) emissions
from paddy fields by modifying the adopted water-management technique, we conducted field
experiments to measure the CH(4) and N(2)O fluxes at nine sites across Japan. Over 2 years, we
tested different water-management strategies such as prolonged midseason drainage (MD) in each
site. The CH(4) emission rates at each site varied considerably; the rates were dependent on the
ratio of reductive and oxidative capacities of the fields. Seasonal CH(4) emission was
effectively reduced at most sites by prolonging MD beyond its conventional duration, especially
at sites where organic matter was added to the soil before the cultivation. We attribute this
result to the effective suppression of the CH(4) emission peak that occurs early in the
cultivation period. Despite the large variation in seasonal CH(4) emissions among the sites, the
rate of CH(4) emission resulting from alternative water-management strategies relative to that
resulting from conventional water-management strategies is highly dependent on the degree of
drainage during the MD period. N(2)O emission at most sites, in terms of GWP-based CO(2)-
equivalent, was much smaller than that of CH(4) emission. Compared to conventional water-
management strategies, the seasonal CH(4) emissions and the net 100-year GWPs (CH(4) + N(2)O) can
be suppressed to 69.5 +/- 3.4 (SE)% and 72.0 +/- 3.1% while maintaining grain yields as high as
96.2 +/- 2.0% by prolonging MD on average by employing the selected alternative water-management
strategies that satisfied the following conditions: the percent of CH(4) emission of alternative
water-management strategies was less than 90% and the grain yield was greater than 85% relative
to conventional water-management strategies. (C) 2011 Elsevier B.V. All rights reserved. 
Methane; Nitrous oxide; Global warming potential; Paddy field; Water-management strategies; Mitigation