Abstract
There is a pressing need to find a sustainable alternative to fossil fuels that will not compromise food security or require extensive use of agrochemicals. Miscanthus is a perennial energy grass predominantly used for combustion but with the current advancement of ligno-cellulosic fermentation technologies there is an interest in using Miscanthus for bioethanol production. Currently, the only commercially grown genotype of Miscanthus is M.× giganteus; a high yielding, interspecific hybrid of M. sacchariflorus and M. sinensis. As M.× giganteus is a sterile triploid, it cannot be used as a parent so Miscanthus breeding effort is focused on producing new interspecific varieties that out-perform M.× giganteus. The carbohydrate profiles of four genotypes of Miscanthus, including M. sacchariflorus (Sac-5), M.× giganteus (Gig-311), M. sinensis (Sin-11) and M. sinensis (Goliath), were characterized at replicated field sites in Aberystwyth, West Wales and Harpenden, south-east England. Our hypothesis was that a distinctive carbohydrate profile underlies enhanced biomass accumulation. Biomass accumulation is greatest when day-lengths and solar intensity are highest; so, observations were made in the middle of UK summer (July) for 2 years. Gig-311 had a greater abundance of fructose in its stems at both sites, and both Gig-311 and Sac-5 had low abundance of starch. At both sites, the highest yielding genotype was Gig-311 and Sac-5 was also high yielding at Harpenden, but performed comparatively poorly at Aberystwyth. At both sites Gig-311 had a distinctly high concentration of fructose, low starch and a high ratio of soluble sugars: starch, and at Harpenden, Sac-5 was similar. We conclude that the abundance of starch and fructose and a greater partitioning of soluble sugars, relative to starch, are candidate biomarkers of productivity in Miscanthus.
Highlights
There is a global urgency to replace fossil fuels with a sustainable source of bioenergy without compromising soil health, food security or requiring the heavy use of agrochemicals
At Aberystwyth, in 2012, the canopy height of Sac-5 was greater than the two M. sinensis genotypes which was similar to Harpenden where Sac-5 was significantly taller than Sin-11
At Aberystwyth, M. × giganteus (Gig-311) exhibited a distinct carbohydrate profile showing a high ratio of hexose : starch and sucrose : starch and a low ratio of glucose : fructose owing to a greater abundance of fructose
Summary
There is a global urgency to replace fossil fuels with a sustainable source of bioenergy without compromising soil health, food security or requiring the heavy use of agrochemicals. Dedicated energy crops can produce high yields with low inputs and provide a means by which sustainable energy can be generated. The use of perennial crops can improve water retention, increase climate change adaptation and promote. Despite a large range of diversity in Miscanthus, currently only a single genotype is grown in commercial plantations in Europe and the USA, M. Miscanthus × giganteus is a triploid interspecific hybrid, derived from a cross between a tetraploid M. sacchariflorus and a diploid M. sinensis. × giganteus is a sterile triploid, no improvements to the yield potential of Miscanthus can be achieved through using this genotype as a parent plant. Miscanthus exhibits strong heterosis; in a study of 244 genotypes containing M. sinensis, M. sacchariflorus and hybrids, the highest yielding genotypes were the triploids and interspecific hybrids (Robson et al 2013)
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