The development of MISCANFOR, a newMiscanthuscrop growth model: towards more robust yield predictions under different climatic and soil conditions
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C4 bioenergy crops for cool climates, with special emphasis on perennial C4 grassesGenetic diversity of Miscanthus sinensis in US naturalized populationsProgress on Optimizing Miscanthus Biomass Production for the European Bioeconomy: Results of the EU FP7 Project OPTIMISCPotential impacts on ecosystem services of land use transitions to second-generation bioenergy crops in GBMarker-Trait Association for Biomass Yield of Potential Bio-fuel Feedstock Miscanthus sinensis from Southwest ChinaDevelopment of SSR Markers Based on Transcriptome Sequencing and Association Analysis with Drought Tolerance in Perennial Grass Miscanthus from ChinaPredicting potential global distributions of two Miscanthus grasses: implications for horticulture, biofuel production, and biological invasions.Genetic diversity and population structure of Miscanthus sinensis germplasm in ChinaExtending Miscanthus Cultivation with Novel Germplasm at Six Contrasting Sites.Environmental Influences on the Growing Season Duration and Ripening of Diverse Miscanthus Germplasm Grown in Six Countries.Radiation capture and conversion efficiencies of Miscanthus sacchariflorus, M. sinensis and their naturally occurring hybrid M. × giganteus.Natural variation and genetic analysis of the tiller angle gene MsTAC1 in Miscanthus sinensis.Description and Codification of Miscanthus × giganteus Growth Stages for Phenological Assessment.Physiological basis of chilling tolerance and early-season growth in miscanthus.Enriching Genomic Resources and Transcriptional Profile Analysis of Miscanthus sinensis under Drought Stress Based on RNA Sequencing.The Evaluation of Feedstocks in GCBB Continues with a Special Issue on Agave for BioenergyMiscanthus biomass productivity within US croplands and its potential impact on soil organic carbonHigh-resolution spatial modelling of greenhouse gas emissions from land-use change to energy crops in the United KingdomGlobal change synergies and trade-offs between renewable energy and biodiversityEstimating UK perennial energy crop supply using farm-scale models with spatially disaggregated dataSignificant Contribution of Energy Crops to Heat and Electricity Needs in Great Britain to 2050The potential for bioenergy crops to contribute to meeting GB heat and electricity demandsThe 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 productionFuture energy potential ofMiscanthusin EuropeThe potential ofMiscanthusto sequester carbon in soils: comparing field measurements in Carlow, Ireland to model predictionsYields ofMiscanthus × giganteusandPanicum virgatumdecline with stand age in the Midwestern USAModeling spatial and dynamic variation in growth, yield, and yield stability of the bioenergy crops Miscanthus × giganteus and Panicum virgatum across the conterminous United StatesCarbon budget and methane and nitrous oxide emissions over the growing season in a Miscanthus sinensis grassland in Tomakomai, Hokkaido, JapanApplication of the AquaCrop model to simulate the biomass ofMiscanthus x giganteusunder different nutrient supply conditionsBioenergy crop models: descriptions, data requirements, and future challengesMultisite Yield Gap Analysis of Miscanthus × giganteus Using the STICS Model
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P2860
The development of MISCANFOR, a newMiscanthuscrop growth model: towards more robust yield predictions under different climatic and soil conditions
description
article
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 2009
@uk
name
The development of MISCANFOR, ...... t climatic and soil conditions
@en
The development of MISCANFOR, ...... t climatic and soil conditions
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type
label
The development of MISCANFOR, ...... t climatic and soil conditions
@en
The development of MISCANFOR, ...... t climatic and soil conditions
@nl
prefLabel
The development of MISCANFOR, ...... t climatic and soil conditions
@en
The development of MISCANFOR, ...... t climatic and soil conditions
@nl
P2093
P1433
P1476
The development of MISCANFOR, ...... t climatic and soil conditions
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P2093
ASTLEY HASTINGS
C. PAUL MITCHELL
JOHN CLIFTON-BROWN
P304
P356
10.1111/J.1757-1707.2009.01007.X
P577
2009-04-01T00:00:00Z