| 95 - 96 |
Sustainable bioenergy production systems: environmental, operational and social implications
Richardson J, Verwijst T |
| 97 - 106 |
Socio-economic drivers in implementing bioenergy projects
Domac J, Richards LK, Risovic S |
| 107 - 117 |
Promoting bioenergy through the clean development mechanism
Silveira S |
| 119 - 132 |
Biomass potentials of miscanthus, willow and poplar: results and policy implications for Eastern Europe, Northern and Central Asia
Fischer G, Prieler S, van Velthuizen H |
| 133 - 150 |
Biomass energy demand and supply for South and South-East Asia -assessing the resource base
Koopmans A |
| 151 - 159 |
Landscape perspective on energy forests
Skarback E, Becht P |
| 161 - 169 |
Residue recovery and site preparation in a single operation in regeneration areas
Laitila J, Asikainen A, Hotari S |
| 171 - 182 |
Logging residues from regeneration fellings for biofuel production - a GIS-based availability analysis in Finland
Ranta T |
| 183 - 191 |
Transport control of forest fuels by fleet manager, mobile terminals and GPS
Sikanen L, Asikainen A, Lehikoinen M |
| 193 - 201 |
Effects of particle size and pile height on storage and fuel quality of comminuted Salix viminalis
Jirjis R |
| 203 - 218 |
Linking phytoremediated pollutant removal to biomass economic opportunities
Licht LA, Isebrands JG |
| 219 - 228 |
Development of short-rotation willow coppice systems for environmental purposes in Sweden
Mirck J, Isebrands JG, Verwijst T, Ledin S |
| 229 - 236 |
Phosphorus sorption, desorption and resorption by soils of the Brazilian Cerrado supporting eucalypt
Barros NF, Comerford NB, Barros NF |
| 237 - 248 |
Biomass energy in organic farming - the potential role of short rotation coppice
Jorgensen U, Dalgaard T, Kristensen ES |
| 249 - 266 |
Opportunities for improving plantation productivity. How much? How quickly? How realistic?
Mead DJ |
