| 2311 - 2314 |
The need for bioenergy policy analysis Foreword
Lynch JM, von Lampe M |
| 2315 - 2322 |
Environmental assessment of biofuels for transport and the aspects of land use Competition
Reinhardt GA, von Falkenstein E |
| 2323 - 2336 |
Soil organic carbon changes in the cultivation of energy crops: Implications for GHG balances and soil quality for use in LCA
Brandao M, Canals LMI, Clift R |
| 2337 - 2360 |
A conceptual framework for estimating the climate impacts of land-use change due to energy crop programs
Delucchi M |
| 2361 - 2373 |
Consequential life cycle assessment of the environmental impacts of an increased rapemethylester (RME) production in Switzerland
Reinhard J, Zah R |
| 2374 - 2384 |
Life cycle greenhouse gas emissions impacts of the adoption of the EU Directive on biofuels in Spain. Effect of the import of raw materials and land use changes
Lechon Y, Cabal H, Saez R |
| 2385 - 2390 |
Impact of EU biofuel policies on world agricultural production and land use
Banse M, van Meijl H, Tabeau A, Woltjer G, Hellmann F, Verburg PH |
| 2391 - 2400 |
Land use change in a biofuels hotspot: The case of Iowa, USA
Secchi S, Kurkalova L, Gassman PW, Hart C |
| 2401 - 2410 |
Simulating the impact of biofuel development on country-wide land-use change in India
Schaldach R, Priess JA, Alcamo J |
| 2411 - 2424 |
Spatially explicit modelling of biofuel crops in Europe
Hellmann F, Verburg PH |
| 2425 - 2434 |
Social sustainability of the Brazilian bioethanol: Power relations in a centre-periphery perspective
Lehtonen M |
| 2435 - 2443 |
Spatial scale and social impacts of biofuel production
van der Horst D, Vermeylen S |
