Ejemplares similares: Isotopic 15N signature of grass-alone and grass-legume tropical pastures to estimate sources of nitrogen to grasses in farmer managed pastures
- Plant-parasitic nematodes associated with tropical pastures in Colombia
- Urochloa grasses swap nitrogen source when grown in association with legumes in tropical pastures
- Plan de actividades futuras en semilla de especies forrajeras en Panama
- Effects of improved pastures and phosphorus inputs on phosphorus transformations in a Colombian oxisol
- The use of carbon isotope ratios to evaluate legume contribution to soil enhancement in tropical pastures
- Efecto del intervalo de descanso y la presión de pastoreo sobre el comportameinto de la asociación de Kudzú tropical (Pueraris phaseoloides, (Roxb.) Benth) y pasto ruzi (Brachiaria ruzizienzis, Germain y Evrard).
Autor: Villegas, Daniel Mauricio
- Influence of different nitrogen fertilizer sources and rates on nitrogen use efficiency and N2O emissions of tropical pasture grasses
- Nitrogen use efficiency and N₂O emissions of three tropical forage grasses fertilized with different nitrogen rates
- Using genetic diversity in deep root systems of forage grasses and rice to capture carbon in tropical soils
- Maize-Brachiaria intercropping: A strategy to supply recycled N to maize and reduce soil N₂O emissions?
- Phytoextraction potential of tropical forage grasses
- Determinación de la eficiencia en el uso del nitrógeno (UEN) por principales pasturas forrajeras de trópico bajo en respuesta a diferentes fertilizantes nitrogenados - Informe final de resultados
Autor: Velásquez, Jaime E.
- Pasture degradation affects forms and distribution of phosphorus in aggregates of tropical soils
- Distribution and hydrolyzability of organic phosphorus in aggregates of highlyweathered tropical soils
- Isotopic 15N signature of grass-alone and grass-legume tropical pastures to estimate sources of nitrogen to grasses in farmer managed pastures
- Pasture degradation impacts soil phosphorus storage via changes to aggregate-associated soil organic matter in highly weathered tropical soils
- Pasture degradation decreases organic P content of tropical soils due to soil structural decline
- Urochloa grasses swap nitrogen source when grown in association with legumes in tropical pastures
