Characterisation of Nature-Based Solutions for the Built Environment.Sustainability 9 (1) 149 Cadair2017.
Endophytic bacteria in Miscanthus seed: Implications for germination, vertical inheritance of endophytes, plant evolution, and breeding. GCB Bioenergy 9 (1) pp. 57-77. Cadair2017.
Progress in upscaling Miscanthus biomass production for the European bio-economy with seed-based hybrids. GCB Bioenergy 9 (1) pp. 6-17. Cadair2017.
An efficient assay for ferulic acid esterase and para-coumaric acid esterases in plants at physiologically relevant activities. Cell Chemistry and Biology 6 (5) pp. 300-311.2016. (In press)
An interyear comparison of CO2 flux and carbon budget at a commercial-scale land-use transition from semi-improved grassland to Miscanthus x giganteus. GCB Bioenergy Cadair2016.
Could Miscanthus replace maize as the preferred substrate for anaerobic digestion in the UK? Future breeding strategies. GCB Bioenergy Cadair2016.
Diversification and use of bioenergy to maintain future grasslands. Food and Energy Security 5 (2) pp. 67-75. Cadair2016.
Expanding the biomass resource: sustainable oil production via fast pyrolysis of low input high diversity biomass and the potential integration of thermochemical and biological conversion routes. Applied Energy 177pp. 852-862. Cadair2016.
Partitioning of ecosystem respiration of CO2 released during land-use transition from temperate agricultural grassland to Miscanthus x giganteus: Ecosystem respiration under Miscanthus. GCB Bioenergy GCB-B-OR-16-031 Cadair2016.
Phenomics analysis of drought responses in Miscanthus collected from different geographical locations. GCB Bioenergy2016. (In press)
Predicting future biomass yield in Miscanthus using the carbohydrate metabolic profile as a biomarker. GCB Bioenergy Cadair2016. (In press)
Progress on optimizing miscanthus biomass production for the European bioeconomy: Results of the EU FP7 project OPTIMISC.Frontiers in Plant Science 7 01620 Cadair2016.