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Methane Flux from Indonesian Wetland Rice: The Effects of Water Management and Rice Variety

Dataset ·
DOI:https://doi.org/10.15485/1464252· OSTI ID:1464252
 [1];  [2];  [3];  [3];  [3];  [2];  [2];  [2]
  1. Institut Pertanian Bogor, Department of Forest Resource Conservation; ESS-DIVE
  2. Institut Pertanian Bogor, Department of Forest Resource Conservation
  3. Oregon Graduate Institute, Global Change Research Center
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This study was conducted to determine methane emission rates from wetland rice in tropical regions of West Java, Indonesia, and the effect of various irrigation and water management practices and of rice varieties on the emissions. The experiment tested three water management treatments (continuous flooding, intermittent irrigation, and saturated soil conditions) and three rice variety treatments (unplanted, planted with IR-64, and planted with Cisadane rice) using a split-plot experimental design with three replicates. Methane fluxes were observed during the entire growing period three times per day, one day per week, using a static chamber technique. The results of this study revealed that both water management treatments and rice varieties significantly affected diurnal and seasonal variations of methane flux from wetland rice. Rice with continuously flooded irrigation regimes and intermittent irrigation showed that methane fluxes were 1.4 - 1.9 times higher in the afternoon compared to predawn sampling; however, a reverse phenomenon was observed under saturated soil conditions. The diurnal methane flux variations observed in this study were most likely due to an average difference of 5 degrees C in soil temperature at 5-cm depth between predawn and afternoon.

Research Organization:
Environmental System Science Data Infrastructure for a Virtual Ecosystem
OSTI ID:
1464252
Report Number(s):
cdiac:Methane_Flux_Indonesian_Wetland_Rice
Country of Publication:
United States
Language:
English

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Related Subjects

54 ENVIRONMENTAL SCIENCES
Ambient Methane Concentation (ppbv)
Chamber Temperature (degree C)
Effective Chamber Height (cm)
Flux (mg/m^2/hr)
Irrigation Treatment
Methane Emission
Methane Flux
Replication
Rice Variety
Water Management
Water Regime
West Java
Indonesia
Wetland Rice
continuous flooding
intermittent irrigation
saturated soil