Research Highlights - Ghana
国際農林水産業研究センターにおける研究成果のうち、成果が特に顕著で、広く利用を図ることが望ましいと考えられる成果を要約してご紹介しています。 各年度の国際農林水産業研究成果情報。
- Mitigating income stagnation and volatility in African smallholder agriculture using small reservoir irrigation technology and stochastic programming model(2022)
- Phosphate rock-enriched compost with rhizosphere soil increases sorghum yield equivalently to chemical fertilizers(2022)
- Phosphate rock-enriched compost with rhizosphere soil increases sorghum yield equivalently to chemical fertilizers(2022)
- A curve number estimation model to accurately calculate reservoir inflow(2022)
- Development of "Doncella INTA-JIRCAS," a new soybean variety with high Asian soybean rust resistance(2022)
- Multiple drainage can cancel out the enhancement of methane emission by biogas effluent application in a rice paddy(2021)
- Water requirement of ratoon rice is larger in the early growth stage and smaller in the late growth stage compared to transplanted rice(2021)
- Effect of conventionally decomposed oil palm trunks on the soil environment(2021)
- Relationship between leaf and stem growths of a tropical timber tree, Shorea leprosula, in the family Dipterocarpaceae(2021)
- Teak growth doubles in the Lao Mountains depending on the control of stand density and topographic conditions(2021)
- Calculation of rice farmers’ premiums for index-based flood insurance(2021)
- African phosphorus fertilizer from indigenous low-grade phosphate rock could replace imported phosphorus fertilizer in rain-fed rice cultivation(2021)
- Identification and validation of a major QTL for primary root length in soybean(2021)
- The pathogenicity of Asian soybean rust pathogen in Mexico can be grouped into two broad trends(2021)
- Gregarized desert locust females and males encounter just before oviposition in West Africa(2021)
- Predicting body growth and body mass index of farmed milkfish in the Philippines from water temperature(2021)
- Germ cell cryopreservation to conserve genetic diversity in shrimps(2021)
- Increase of rice yield in response to phosphorus fertilizer application can be predicted by soil phosphorus retention capacity(2021)
- A model for estimating soil phosphorus availability in diverse tropical ecosystems by deep learning(2021)
- Efficient phosphorus application strategy to improve rice yields under cold stress-prone and P-deficient environments(2021)