Breeding Strategies to Improve Miscanthus as a Sustainable Source of Biomass for Bioenergy and Biorenewable Products

Stem growth characteristics of high yielding Miscanthus correlate with yield, development and intraspecific competition within plots

(2019) Paul R. H. Robson et al.   Global Change Biology Bioenergy

Biomass yield in a genetically diverse Miscanthus sinensis germplasm panel evaluated at five locations revealed individuals with exceptional potential

(2019) Lindsay V. Clark et al.   Global Change Biology Bioenergy

New Miscanthus hybrids cultivated at a Polish metal-contaminated site demonstrate high stomatal regulation and reduced shoot Pb and Cd concentrations

(2019) Szymon Rusinowski et al.   ENVIRONMENTAL POLLUTION

Assessing seed priming, sowing date, and mulch film to improve the germination and survival of direct-sown Miscanthus sinensis in the United Kingdom

(2018) Chris Ashman et al.   Global Change Biology Bioenergy

Breeding progress and preparedness for mass-scale deployment of perennial lignocellulosic biomass crops switchgrass, miscanthus, willow, and poplar

(2018) John Clifton-Brown et al.   Global Change Biology Bioenergy

Economic and environmental performance of miscanthus cultivated on marginal land for biogas production

(2018) Moritz Wagner et al.   Global Change Biology Bioenergy

Investigating the potential of novel non-woven fabrics for efficient pollination control in plant breeding

(2018) John C. Clifton-Brown et al.   PLoS One

Genomic index selection provides a pragmatic framework for setting and refining multi-objective breeding targets in Miscanthus

(2018) Gancho T Slavov et al.   ANNALS OF BOTANY

Genetic relationships between spring emergence, canopy phenology, and biomass yield increase the accuracy of genomic prediction in Miscanthus

(2017) Christopher L Davey et al.   JOURNAL OF EXPERIMENTAL BOTANY

Extending Miscanthus Cultivation with Novel Germplasm at Six Contrasting Sites

(2017) Olena Kalinina et al.   Frontiers in Plant Science

Phenomics analysis of drought responses inMiscanthuscollected from different geographical locations

(2016) Marta Malinowska 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

The impact of soil salinity on the yield, composition and physiology of the bioenergy grassMiscanthus × giganteus

(2016) Evangelia Stavridou 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

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

(2016) Iris Lewandowski et al.   Frontiers in Plant Science

History of the development of Miscanthus as a bioenergy crop: from small beginnings to potential realisation

(2015) Clifton-Brown et al.   BIOLOGY AND ENVIRONMENT-PROCEEDINGS OF THE ROYAL IRISH ACADEMY

Comparative Analysis of Miscanthus and Saccharum Reveals a Shared Whole-Genome Duplication but Different Evolutionary Fates

(2014) C. Kim et al.   PLANT CELL

Accelerating the domestication of a bioenergy crop: identifying and modelling morphological targets for sustainable yield increase in Miscanthus

(2013) Paul Robson et al.   JOURNAL OF EXPERIMENTAL BOTANY

Genome-wide association studies and prediction of 17 traits related to phenology, biomass and cell wall composition in the energy grassMiscanthus sinensis

(2013) Gancho T. Slavov et al.   NEW PHYTOLOGIST

Physiological and growth responses to water deficit in the bioenergy crop Miscanthus x giganteus

(2013) Jennifer Ings et al.   Frontiers in Plant Science

Assessment of variability in biomass yield and quality: what is an adequate size of sampling area for miscanthus?

(2012) Heike Knörzer et al.   Global Change Biology Bioenergy

Contrasting geographic patterns of genetic variation for molecular markers vs. phenotypic traits in the energy grassMiscanthus sinensis

(2012) Gancho Slavov et al.   Global Change Biology Bioenergy

Synthetic polyploid production ofMiscanthus sacchariflorus,Miscanthus sinensis, andMiscanthus x giganteus

(2012) Won Byoung Chae et al.   Global Change Biology Bioenergy

High Resolution Genetic Mapping by Genome Sequencing Reveals Genome Duplication and Tetraploid Genetic Structure of the Diploid Miscanthus sinensis

(2012) Xue-Feng Ma et al.   PLoS One

SSR-based genetic maps of Miscanthus sinensis and M. sacchariflorus, and their comparison to sorghum

(2012) Changsoo Kim et al.   THEORETICAL AND APPLIED GENETICS

Establishment of an efficient in vitro culture and particle bombardment-mediated transformation systems in Miscanthus sinensis Anderss., a potential bioenergy crop

(2011) XUN WANG et al.   Global Change Biology Bioenergy

Genomic and small RNA sequencing of Miscanthus × giganteus shows the utility of sorghum as a reference genome sequence for Andropogoneae grasses

(2010) Kankshita Swaminathan et al.   GENOME BIOLOGY

Future energy potential ofMiscanthusin Europe

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

The ecology and agronomy ofMiscanthus sinensis, a species important to bioenergy crop development, in its native range in Japan: a review

(2009) J. RYAN STEWART et al.   Global Change Biology Bioenergy