Methane Uptake by Unflooded Paddy Soils : The Influence of Soil Temperature and Atmospheric Methane Concentration
スポンサーリンク
概要
- 論文の詳細を見る
Methane(CH_4)is one of the most abundant organic gases in the atmosphere. Recently the importance of CH_4 as a greenhouse gas has been recognized and studies have been carried out to assess its contribution to global warming. Although the rate of increase has slowed down in the last decade(Steel et al.1992;Rudolph 1994), the results from some of these studies have shown that the atmospheric concentration of CH_4 is increasing at a rate estimated to be approximately 1% per year(Rowland 1991;Blake and Rowland 1988;Bolle et al.1986;Graedel and McRae 1980). Clearly it is important to identify sources and sinks of CH_4, in both terrestrial and oceanic ecosystems, in order to estimate global methane budgets(Cicerone and Oremland 1988). It has been generally recognized for sometime that soils play a significant role in the estimation of CH_4 budgets. Although the majority of studies to date have been centered on soils as sources, soils can however also act as methane sinks. Since Seiler et al.(1984)first demonstrated the uptake of CH_4 by soil in the tropics, methane consumption has been measured in humisol(Megraw and Knowles 1987), moss-derived peat soils(Yavitt et al.1990), tundra soils(Whalen and Reeburgh 1990), temperate forest soils(Steudler et al.1989;Born et al.1990), grasslands(Mosier et al.1991;Minami et al.1993), desert soils(Striegl et al.1992), and fertilized soils(Hutsch et al.1993). However, there is no information about the uptake of CH_4 by paddy soils. We describe the influence of soil temperature and atmospheric CH_4 concentration on CH_4 uptake in three Japanese paddy soils unflooded under laboratory conditions.
- 社団法人日本土壌肥料学会の論文
著者
-
Tsuruta Haruo
National Institute for Agro-Environmental Sciences
-
TSURUTA HARUO
Institute for Agro-Environmental Sciences
-
Tsuruta H
National Inst. Agro‐environmental Sci. Tsukuba Jpn
-
Kanda K
Japan International Research Center For Agricultural Sciences:(present Address)national Institute Fo
-
Minami Katsuyuki
Japan International Research Center for Agricultural Sciences
-
Thurlow Madeline
Macaulay Land Use Research Institute
-
Kanda Ken-ichi
National Institute of Agro-Envrionmental Sciences
-
Minami K
National Institute Of Agro-environmental Sciences
関連論文
- Effect of urea placement on the time-depth profiles of NO, N_2O and mineral nitrogen concentrations in an Andisol during a Chinese cabbage growing season(Environment)
- Emission of N_2O and CO_2 and Uptake of CH_4 in Soil from a Satsuma Mandarin Orchard under Mulching Cultivation in Central Japan
- Effects of Land-Use Change in Tropical Peat Soil on the Microbial Population and Emission of Greenhouse Gases
- 24-24 Emissions of Greenhouse Gasses from Tropical Peatlands
- Effectiveness of a subsurface drainage system in poorly drained paddy fields on reduction of methane emissions(Greenhouse Gas Emissions from Agroecosystems in Monsoon Asia)
- Influence of Temperature and Oxygen Availability on the Flux of Volatile Sulphur Compounds from Wetlands : A Comparison of Peat and Paddy Soils
- Carbon and Nitrogen Mineralization in Soils under Agro-Pastoral Systems in Subtropical Central Brazil
- A Quantitative Model for Estimating Mean Annual Soil Loss in Cultivated Land Using ^Cs Measurements
- Effects of rice straw application, rice planting and soil characteristics on methane flux in a pot experiment
- Methane Emission from Rice Paddy Fields in the Central Plain of Thailand
- Influence of Temperature and Oxygen Availability on the Flux of Methane and Carbon Dioxide from Wetlands : A Comparison of Peat and Paddy Soils
- Measurements of CH_4 and N_2O Emissions from Rice Paddies in Fengqiu, China
- Field Study on Nitrous Oxide Emissions from Upland Cropping Systems in China
- Development of a System for Simultaneous and Continuous Measurement of Carbon Dioxide, Methane and Nitrous Oxide Fluxes from Croplands Based on the Automated Closed Chamber Method (Environment)
- N_2O and N_2 Production Potential in Various Chinese Agricultural Soils by Denitrification(Environment)
- 24-18 Comparison of NO and N2O emissions between banding and surface broadcasting Urea fertilized fields
- Methane Uptake by Unflooded Paddy Soils : The Influence of Soil Temperature and Atmospheric Methane Concentration
- Emissions of Biogenic Sulfur Gases from Maize and Wheat Fields
- Emission of Dimethyl Sulfide, Carbonyl Sulfide, and Carbon Disulfide from Paddy Fields
- Emissions of Sulfur Gases from Various Types of Terrestrial Higher Plants
- 23-11 Concentration profiles of soil NO and N_2O in an Andisol during a Chinese cabbage growing season as affected by urea placement : Why is deep urea placement highly effective in reducing NO emissions, but less effect on N_2O emissions?
- Effects of rice straw application, rice planting and soil characteristics on methane flux in a pot experiment
- Effect of land use management of tropical peatlands on microbial population and emission of greenhouse gases(The Annual Meeting of the Society in 2000)