Soil Productivity after Decomposition of Waste Materials under Different Soil Moisture and Temperature(Crop Physiology and Ecology)
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概要
- 論文の詳細を見る
Productivity of the soil with waste material (WM), i.e., bagasse, coir dust, rice chaff and rice straw decomposed for two months at various temperatures and soil moisture were investigated by analyzing the chemical properties and growth of maize cultured on the soil for 45 days. The soil with decomposed WM (WM soil), tended to show lower pH values than the soil without WM soil (control) as a whole. The values of electric conductance were higher in WM soil, especially in the soil with decomposed rice chaff and rice straw referred to as rice-chaff and rice-straw soils, respectively. The total N content tended to be higher in the WM soil except for coir dust soil. The total C content tended to be higher in all WM soils. The difference in the content of total N and total C between WM and control soils was remarkable in bagasse soil. The change of the chemical properties of the soil did not apparently correlate with the rate of CO_2 generation during incubation of WM soils, but pH, electric conductance, content of total N and total C contents were higher in the soils generating CO_2 at a rate of 40 to 80ppm min^<-1>, in bagasse or rice straw soils. The dry matter production of maize on WM soils was positively correlated with the rate of CO_2 generation. It was suggested that the WM soils generating litde CO_2, such as the soil with bagasse or rice straw decomposed in a dry condition, tended to inhibit maize growth owing to low pH and shortage of available nitrogen by rapid decomposition just after the start of maize growth. The wet WM soils generating CO_2 format a rate of 40 to 80ppm min^<-1>, e.g., bagasse and rice straw soils might be favorable for dry matter production of maize.
- 日本作物学会の論文
著者
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Kawakubo Nobumitsu
The United Graduate School Of Agricultural Science Gifu University
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THONGJOO Chaisit
The United Graduate School of Agricultural Science, Gifu University
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MIYAGAWA Shuichi
The United Graduate School of Agricultural Science, Gifu University
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Thongjoo Chaisit
The United Graduate School Of Agricultural Science Gifu University
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Miyagawa Shuichi
The United Graduate School Of Agricultural Science Gifu University
関連論文
- Soil Productivity after Decomposition of Waste Materials under Different Soil Moisture and Temperature
- Soil Productivity after Decomposition of Waste Materials under Different Soil Moisture and Temperature(Crop Physiology and Ecology)
- Effects of Soil Moisture and Temperature on Decomposition Rates of Some Waste Materials from Agriculture and Agro-industry(Agronomy)
- Effects of C-N ratio Adjustment on the Decomposition Rate of Bagasse and Coir Dust in Different Soil Moisture and Temperature
- Effect of a Bio-decomposer on Utilization by Rice (Oryza sativa L.) of ^N Derived from Rice Chaff or Straw
- Effects of Powdered Rice Chaff Application on Si and N Absorption, Lodging Resistance and Yield in Rice Plants (Oryza sativa L.)