Eco-balance analysis of six agricultural land uses in the Ikushunbetsu watershed(<Special Section>Greenhouse Gas Emissions from Agroecosystems in Monsoon Asia)
スポンサーリンク
概要
- 論文の詳細を見る
This study quantified and evaluated the greenhouse gas emissions of farmland soils at a watershed scale using parameters available at a regional scale. The estimation was based on field monitoring data in the Ikushunbetsu River Watershed, Hokkaido, Japan. Simple regression models were created for carbon dioxide, nitrous oxide and methane emissions associated with six major agricultural land uses, and forest as an alternative land use to farmland. An eco-balance method involves conducting an analysis on the basis of farmland surplus nitrogen (N) and global warming potential (GWP). Uncertainties associating the estimations were estimated using Mote Carlo simulation. The eco-balance is the analysis of the relationship between production and environmental load. In this study, production and environmental load were compared by changing each of the land use combinations by 10%. Farmland surplus N was lowest for soybean with 8.2 kg N ha^<-1> year^<-1>, followed by paddy rice. The highest value was recorded for vegetables with 99.8 kg N ha^<-1> year^<-1>. The weighted mean of total farmland based on the land use proportion was 44±33.8 kg N ha^<-1> year^<-1>. The calculated GWP was 7.3 Mg CO_2 eq ha^<-1> year^<-1> for paddy rice and 0.1 to 6.8 Mg CO_2 eq ha^<-1> year^<-1> for upland crops. The weighted mean of the total farmland area was 4.0±3.4 Mg CO_2 eq ha^<-1> year^<-1>. The eco-balance analysis showed that there were 59 combinations out of 8008 combinations able to reduce GWP more than 6%, but less than 7%, than the value in 2005. Among them, in 30 combinations, farmland surplus N became less than the value in 2005 ; production was reduced compared with the value in 2005 in 27 combinations. Soybean occupied 20-80% in the seven combinations where production was increased compared with 2005, while keeping farmland surplus N below the value in 2005. The estimation of greenhouse gases in this study exhibited high uncertainty because of variability in management and errors in evaluation procedures. Quantification of the data variability is set at maximum, which comprises the measured values in this area. Based on the quantification of the uncertainty, more efficient quantification methods can be established to clarify mitigation potential. This type of quantification and comparison between production and emission enables decision makers to set some threshold values that allow a compromise between production and environmental load.
- 社団法人日本土壌肥料学会の論文
著者
-
Hatano Ryusuke
Graduate School of Agriculture, Hokkaido University
-
KIMURA Sonoko
Graduate School of Agriculture, Tokyo University of Agriculture and Technology
-
TOMA Yo
Graduate School of Agriculture, Hokkaido University
-
Toma Yoh
Field Science Center For Northern Biosphere Hokkaido University
-
Toma Yo
Graduate School Of Agriculture Hokkaido Univ. Sapporo 060-8589 Jpn
-
Kimura Sonoko
Graduate School Of Agriculture Department Of International Environmental And Agricultural Science To
-
Kimura Sonoko
Tokyo Univ. Agriculture And Technol. Tokyo
-
MU Zhijian
Graduate School of Agriculture, Hokkaido University
-
Hatano Ryusuke
Graduate School Of Agriculture Hokkaido Univ.
-
Toma Yo
Field Science Center For Northern Biosphere Hokkaido University
-
Mu Zhijian
Graduate School Of Agriculture Hokkaido University
関連論文
- 29 GHG emission from different stages of thermokarst in Central Yakutia, Russia
- Clear increases in acetylene reduction by soil bacteria from an East Siberian Taiga forest bed under conditions mimicking the natural soil environment(Soil Biology)
- Effects of environmental factors on temporal variation in annual carbon dioxide and nitrous oxide emissions from an unfertilized bare field on Gray Lowland soil in Mikasa, Hokkaido, Japan(Environment)
- Eco-balance analysis of land use combinations to minimize environmental impacts and maximize farm income in northern Japan
- Ammonium Nitrogen Releasing from Kaolin-Dominant Soil in Leyte of the Philippines
- Variation in the emission factor of N_2O derived from chemical nitrogen fertilizer and organic matter : A case study of onion fields in Mikasa, Hokkaido, Japan(Environment)
- Emergence and behaviors of acid-tolerant Janthinobacterium sp. that evolves N2O from deforested tropical peatland
- N_2O and CH_4 fluxes from a volcanic grassland soil in Nasu, Japan : Comparison between manure plus fertilizer plot and fertilizer-only plot(Environment)
- New method for the estimation of nitrous oxide emission rates from an agricultural watershed(Environment)
- Changes in Net Ecosystem Production Associated with Forest Fire in Taiga Ecosystems, Near Yakutsk, Russia (Environment)
- Comparison of Needle Mass Density in The Tree Crowns of Larix gmelinii and Larix kaempferi Trees
- Soil Respiration in Siberian Taiga Ecosystems with Different Histories of Forest Fire
- Comparison of the closed-chamber and gas concentration gradient methods for measurement of CO_2 and N_2O fluxes in two upland field soils(Environment)
- Effects of agricultural land-use change and forest fire on N_2O emission from tropical peatlands, Central Kalimantan, Indonesia(Environment)
- Nitrous oxide and nitric oxide fluxes from cornfield, grassland, pasture and forest in a watershed in Southern Hokkaido, Japan(Environment)
- Effect of crop residue C:N ratio on N_2O emissions from Gray Lowland soil in Mikasa, Hokkaido, Japan(Environment)
- Estimation of global warming potential from upland cropping systems in central Hokkaido(Soil Chemistry and Mineralogy)
- Three years of nitrous oxide and nitric oxide emissions from silandic andosols cultivated with maize in Hokkaido, Japan(Environment)
- Evaluating the Contribution of Point and Non-Point Sources of Nitrogen Pollution in Stream Water in a Rural Area of Central Hokkaido, Japan(Environment)
- Evaluation of the soil carbon budget under different upland cropping systems in central Hokkaido, Japan(Environment)
- Eco-balance analysis of six agricultural land uses in the Ikushunbetsu watershed(Greenhouse Gas Emissions from Agroecosystems in Monsoon Asia)
- P23-3 Soil respiration and carbon sequestration in different upland cropping systems in central Hokkaido
- P23-5 Greenhouse gas fluxes from two soils under different land uses in Central Hokkaido
- Greenhouse gas fluxes from agricultural soils under different crops in Central Hokkaido
- 34 Soil nitrification and denitrification from different aggregated soil
- 1-21 Soil nitrification and denitrification from different moisture content of aggregated soil
- Soil Respiration and Net Ecosystem Production in an Onion Field in Central Hokkaido, Japan(Environment)
- Dissolved N_2O, CH_4, and CO_2 Emissions from Subsurface-Drainage in a Structured Clay Soil Cultivated with Onion in Central Hokkaido, Japan (Soil Physics)
- Effect of Nitrogen Fertilization on Methane Flux in a Structured Clay Soil Cultivated with Onion in Central Hokkaido, Japan
- Dissolved N_2O, CH_4, and CO_2 in Pipe Drainage, Seepage, and Stream Water in a Livestock Farm in Hokkaido, Japan
- 27 Assessing the Relationships between Pore Structural Indices and CO_2, CH_4, NO and N_2O Fluxes in Various Ecosystems
- 1-1 Assessing the Relationship between Greenhouse Gases Emissions and Soil Chemical and Physical Properties.
- Characteristics of Nutrient Load in a Stream Flowing through a Livestock Farm during Spring Snowmelt (Environment)
- 24-24 Effect of nitrogen fertilizer on methane flux in a structured clay soil
- 23-15 Evaluating Impact of Land Use and Nitrogen Budgets at Community Scale on Stream Water Quality in Hokkaido, Japan
- N2O fluxes in relation to C and N dynamics in upland crop soils in Mikasa, Central Hokkaido
- Nitrous oxide emission derived from soil organic matter decomposition from tropical agricultural peat soil in central Kalimantan, Indonesia
- Detection of Nitrate Leaching through Bypass Flow Using Pan Lysimeter, Suction Cup, and Resin Capsule
- Nitrous oxide emission derived from soil organic matter decomposition from tropical agricultural peat soil in central Kalimantan, Indonesia(Environment)
- 29 Application of SWAT model to understand the baseflow components of river discharge in a groundwater recharging
- Ammonium Nitrogen Releasing from Kaolin-Dominant Soil in Leyte of the Philippines
- 23-42 Evaluating soil C budget and GWP variation in agricultural field at a regional scale in Ikushunbetsu river watershed, Hokkaido Japan
- P23-13 Evaluating spatial and temporal variation in global warming potential (GWP) at a regional scale in Ikushunbetsu river watershed, Hokkaido Japan
- P1-5 Estimating external water contribution to a non-conservative watershed with SWAT model
- The effect of fertilizer and manure application on CH_4 and N_2O emissions from managed grasslands in Japan(Mitigation of methane and nitrous oxide emissions from agricultural lands)
- 10 Effect of soil structure and soil nutrient status on N_2O production