Comparison of Biomass Productivity and Its Persistency among Four Perennial Grasses for Bioenergy Feedstock Production in Temperate Region of Japan

The present study was the first report of comparison of above ground biomass yield and its persistence among several bioenergy crops in a temperate zone of eastern Asia

The Effects of Restricting Nitrogen, Phosphorus, and Potassium Fertilizers on Erianthus (\u3cem\u3eErianthus arundinaceus\u3c/em\u3e) Growth and Nutrient Contents

Low inputs and sustainability are the major concerns in bioenergy crop production (Reijnders 2006). Erianthus spp. is a relative of sugarcane and is a perennial crop with high dry matter production (Matsuo et al. 2003). It is expected to become a cellulosic bioenergy crop. However, its fertilizer requirements are still unknown because erianthus has a highly developed root system (Matsuo et al. 2003), and appears to absorb nutrients from the subsoil layer, which is hardly used by other crops. Therefore, it is necessary to experimentally restrict fertilizer application and maintain the rhizosphere to clarify the fertilizer requirements. In this study, we grew Erianthus (Erianthus arundinaceus) in pots and restricted nitrogen (N), phosphorus (P), and potassium (K) fertilizer application to evaluate the fertilizer requirements

Root-shoot relationships in four strains of field-grown Erianthus arundinaceus at seedling stage

The production of cellulosic bioethanol from non-edible plants is a potential countermeasure against global warming. Erianthus species provide cellulosic raw material for bioethanol because they have high biomass productivity and high tolerance to environmental stress, associated with their large, deep root systems. However, it is difficult to select Erianthus species for breeding by direct observation of their root systems because the roots are widely dispersed in the soil. Instead, we examined shoot morphological traits that could be closely related to root morphology to find effective reference indices for selection. The potential to evaluate root structure and function in Erianthus according to bleeding rate was also examined. An analysis of root–shoot relationships in seedlings indicated that root number and mean length were closely related to stem number and diameter, respectively. These results suggest that root–shoot relationships may provide useful criteria for selective breeding of root systems in Erianthus