| 1 - 2 |
The practical challenges of sustainable bioenergy deployment Preface
Thornley P, Tucker G, Donnison I |
| 3 - 12 |
Evaluating potential policies for the UK perennial energy crop market to achieve carbon abatement and deliver a source of low carbon electricity
Alexander P, Moran D, Rounsevell MDA |
| 13 - 26 |
The changing nature of life cycle assessment
McManus MC, Taylor CM |
| 27 - 39 |
Land use change to bioenergy: A meta-analysis of soil carbon and GHG emissions
Harris ZM, Spake R, Taylor G |
| 40 - 48 |
Bioenergy driven land use change impacts on soil greenhouse gas regulation under Short Rotation Forestry
Parmar K, Keith AM, Rowe RL, Sohi SP, Moeckel C, Pereira MG, McNamara NP |
| 49 - 62 |
Integrating social and value dimensions into sustainability assessment of lignocellulosic biofuels
Raman S, Mohr A, Helliwell R, Ribeiro B, Shortall O, Smith R, Millar K |
| 63 - 72 |
The combustion characteristics of high-heating-rate chars from untreated and torrefied biomass fuels
McNamee P, Darvell LI, Jones JM, Williams A |
| 73 - 86 |
Synergistic carbon metabolism in a fast growing mixotrophic freshwater microalgal species Micractinium inermum
Smith RT, Bangert K, Wilkinson SJ, Gilmour DJ |
| 87 - 93 |
Self-sustainable electricity production from algae grown in a microbial fuel cell system
Gajda I, Greenman J, Melhuish C, Ieropoulos I |
| 94 - 100 |
The sustainability of sugarcane-ethanol systems in Guatemala: Land, labour and law
Tomei J |
