P. Setyanto et al., Crop management affecting methane emissions from irrigated and rainfed rice in Central Java (Indonesia), NUTR CYCL A, 58(1-3), 2000, pp. 85-93
Methane (CH4) emissions were determined from 1993 to 1998 using an automate
d closed chamber technique in irrigated and rainfed rice. In Jakenan (Centr
al Java), the two consecutive crops encompass a gradient from low to heavy
rainfall (wet season crop) and from heavy to low rainfall (dry season crop)
, respectively. Rainfed rice was characterized by very low emission at the
onset of the wet season and the end of the dry season. Persistent flooding
in irrigated fields resulted in relatively high emission rates throughout t
he two seasons. Average emission in rainfed rice varied between 19 and 123
mg CH4 m(-2) d(-1), whereas averages in irrigated rice ranged from 71 to 21
7 mg CH4 m(-)2 d(-1). The impact of organic manure was relatively small in
rainfed rice. In the wet season, farmyard manure (FYM) was completely decom
posed before CH4 emission was initiated; rice straw resulted in 40% increas
e in emission rates during this cropping season. In the dry season, intensi
ve flooding in the early stage promoted high emissions from organically fer
tilized plots; seasonal emissions of FYM and rice straw increased by 72% an
d 37%, respectively, as compared with mineral fertilizer. Four different ri
ce cultivars were tested in irrigated rice. Average emission rates differed
from season to season, but the total emissions showed a consistent ranking
in wet and dry season, depending on season length. The early-maturing Dodo
kan had the lowest emissions (101 and 52 kg CH4 ha(-1)) and the late-maturi
ng Cisadane had the highest emissions (142 and 116 kg CH4 ha(-1)). The high
-yielding varieties IR64 and Memberamo had moderately high emission rates.
These findings provide important clues for developing specific mitigation s
trategies for irrigated and rainfed rice.