Research Highlights - Madagascar
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。
- Development of a cryogen-free extraction and preservation method for plant-derived RNA(2024)
- Dense planting enhances grain yield and profitability in low-yielding paddy fields of Sub-Saharan Africa(2024)
- Simple soil diagnostic information increases lowland rice yields and income of smallholder farmers in Madagascar(2024)
- Weakening of gene function of OsTB1 by genome editing improves rice productivity under phosphorus deficiency(2023)
- A simple method for estimating phosphorus (P) retention capacity in paddy soils based on soil moisture content: An effective approach for P fertilization diagnosis(2023)
- Localized phosphorus application via P-dipping is effective in avoiding flooding damage for lowland rice production(2023)
- Localized phosphorus application via P-dipping is most effective in increasing lowland rice yields when combined with seedlings at 4.5~6.5 leaf age(2023)
- Selection of a promising donor for developing zinc-biofortified rice based on genomic prediction model(2022)
- Increased lowland rice yield improves nutrition of farmers in Madagascar(2022)
- 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)
- Introducing a quantitative trait locus, MP3, improves rice panicle numbers in nutrient-poor soils(2020)
- Dipping rice seedlings in phosphorus (P)-enriched slurry at transplanting increases yield and avoids cold stress under P-deficient soils in the tropics(2020)
- Soil phosphorus availability for rice plants can be rapidly estimated by laboratory visible and near-infrared spectroscopy(2019)
- Limited Si-nutrient status of rice plants in relation to plant-available Si of soils, nitrogen fertilizer application, and rice-growing environment across Sub-Saharan Africa(2013)