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C4 bioenergy crops for cool climates, with special emphasis on perennial C4 grassesGenetic diversity of Miscanthus sinensis in US naturalized populationsDiversification and use of bioenergy to maintain future grasslandsPotential impacts on ecosystem services of land use transitions to second-generation bioenergy crops in GBGenome-wide association studies and prediction of 17 traits related to phenology, biomass and cell wall composition in the energy grass Miscanthus sinensisMiscanthus: genetic diversity and genotype identification using ISSR and RAPD markersGenetic diversity and population structure of Miscanthus sinensis germplasm in ChinaEnvironmental costs and benefits of growing Miscanthus for bioenergy in the UK.Extending Miscanthus Cultivation with Novel Germplasm at Six Contrasting Sites.Establishment, Growth, and Yield Potential of the Perennial Grass Miscanthus × Giganteus on Degraded Coal Mine Soils.Radiation capture and conversion efficiencies of Miscanthus sacchariflorus, M. sinensis and their naturally occurring hybrid M. × giganteus.Genetic relationships between spring emergence, canopy phenology, and biomass yield increase the accuracy of genomic prediction in Miscanthus.Natural variation and genetic analysis of the tiller angle gene MsTAC1 in Miscanthus sinensis.NMR-based Metabolomics to Study the Cold-acclimation Strategy of Two Miscanthus Genotypes.Response of farmland biodiversity to the introduction of bioenergy crops: effects of local factors and surrounding landscape contextAMiscanthusplantation can be carbon neutral without increasing soil carbon stocksAn agent-based modelling approach to evaluate factors influencing bioenergy crop adoption in north-east ScotlandSignificant Contribution of Energy Crops to Heat and Electricity Needs in Great Britain to 2050The technical potential of Great Britain to produce ligno-cellulosic biomass for bioenergy in current and future climatesHow does bioenergy compare with other land-based renewable energy sources globally?Management swing potential for bioenergy cropsAn optimization model for energy crop supplyEconomic and greenhouse gas costs of Miscanthus supply chains in the United KingdomFood vs. fuel: the use of land for lignocellulosic ‘next generation’ energy crops that minimize competition with primary food productionThe potential ofMiscanthusto sequester carbon in soils: comparing field measurements in Carlow, Ireland to model predictionsShoot organogenesis in three Miscanthus species and evaluation for genetic uniformity using AFLP analysis
P2860
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P2860
description
article
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 2009
@uk
name
Future energy potential ofMiscanthusin Europe
@en
Future energy potential ofMiscanthusin Europe
@nl
type
label
Future energy potential ofMiscanthusin Europe
@en
Future energy potential ofMiscanthusin Europe
@nl
prefLabel
Future energy potential ofMiscanthusin Europe
@en
Future energy potential ofMiscanthusin Europe
@nl
P2093
P1433
P1476
Future energy potential ofMiscanthusin Europe
@en
P2093
ASTLEY HASTINGS
C. PAUL MITCHELL
JOHN CLIFTON-BROWN
PAUL STAMPFL
P304
P356
10.1111/J.1757-1707.2009.01012.X
P577
2009-04-01T00:00:00Z