Progress on Optimizing Miscanthus Biomass Production for the European Bioeconomy: Results of the EU FP7 Project OPTIMISC

Biomass composition and ash melting behaviour of selected miscanthus genotypes in Southern Germany

(2016) Y. Iqbal et al.   FUEL

Evaluation ofMiscanthus sinensisbiomass quality as feedstock for conversion into different bioenergy products

(2016) Tim van der Weijde et al.   Global Change Biology Bioenergy

Progress in upscalingMiscanthusbiomass production for the European bio-economy with seed-based hybrids

(2016) John Clifton-Brown et al.   Global Change Biology Bioenergy

Radiation capture and conversion efficiencies of Miscanthus sacchariflorus , M. sinensis and their naturally occurring hybrid M . × giganteus

(2016) Christopher Lyndon Davey et al.   Global Change Biology Bioenergy

Impact of drought stress on growth and quality of miscanthus for biofuel production

(2016) Tim van der Weijde et al.   Global Change Biology Bioenergy

Miscanthus as biogas substrate - cutting tolerance and potential for anaerobic digestion

(2016) Andreas Kiesel et al.   Global Change Biology Bioenergy

How low can you go?—Rhizome and shoot frost tolerance in miscanthus germplasm

(2016) Simon Fonteyne et al.   INDUSTRIAL CROPS AND PRODUCTS

Assessment of the production potentials of Miscanthus on marginal land in China

(2016) Shuai Xue et al.   RENEWABLE & SUSTAINABLE ENERGY REVIEWS

Impact of Different Lignin Fractions on Saccharification Efficiency in Diverse Species of the Bioenergy Crop Miscanthus

(2015) Tim van der Weijde et al.   BioEnergy Research

Stress-Tolerant Feedstocks for Sustainable Bioenergy Production on Marginal Land

(2015) Lauren D. Quinn et al.   BioEnergy Research

Environmental costs and benefits of growingMiscanthusfor bioenergy in the UK

(2015) Jon P. McCalmont et al.   Global Change Biology Bioenergy

Chilling tolerance and early vigour-related characteristics evaluated in two Miscanthus genotypes

(2015) S. Fonteyne et al.   PHOTOSYNTHETICA

Present and future options for Miscanthus propagation and establishment

(2015) Shuai Xue et al.   RENEWABLE & SUSTAINABLE ENERGY REVIEWS

Cell wall remodeling under abiotic stress

(2015) Raimund Tenhaken   Frontiers in Plant Science

Prospects for dedicated energy crop production and attitudes towards agricultural straw use: The case of livestock farmers

(2014) P. Wilson et al.   ENERGY POLICY

A Comparison of the Energy Yield at the End User for M. x giganteus Using Two Different Harvesting and Transport Systems

(2013) P. G. Meehan et al.   BioEnergy Research

Lignin: Characterization of a Multifaceted Crop Component

(2013) Michael Frei   TheScientificWorldJOURNAL

The potential of C4 grasses for cellulosic biofuel production

(2013) Tim van der Weijde et al.   Frontiers in Plant Science

Hemicelluloses negatively affect lignocellulose crystallinity for high biomass digestibility under NaOH and H2SO4 pretreatments in Miscanthus

(2012) Ning Xu et al.   Biotechnology for Biofuels

Wheat grain yield on saline soils is improved by an ancestral Na+ transporter gene

(2012) Rana Munns et al.   NATURE BIOTECHNOLOGY

Abiotic and Biotic Stresses and Changes in the Lignin Content and Composition in Plants

(2010) Jullyana Cristina Magalhães Silva Moura et al.   Journal of Integrative Plant Biology

Plant species composition and biofuel yields of conservation grasslands

(2009) Paul R. Adler et al.   ECOLOGICAL APPLICATIONS

The development of MISCANFOR, a newMiscanthuscrop growth model: towards more robust yield predictions under different climatic and soil conditions

(2009) ASTLEY HASTINGS et al.   Global Change Biology Bioenergy

More Productive Than Maize in the Midwest: How Does Miscanthus Do It?

(2009) F. G. Dohleman et al.   PLANT PHYSIOLOGY

The impact of growing miscanthus for biomass on farmland bird populations

(2008) P.E. Bellamy et al.   BIOMASS & BIOENERGY