SEARCH

SEARCH BY CITATION

References

  • Berthelot A, Gavaland A (2007) Produire de la Biomasse Avec les Peupliers. Fiche-Information Forêts FCBA. Fascicule #755, FCBA, Paris.
  • Berthelot A, Bouvet A, Sutter B (1994) Taillis à courtes rotations de peuplier - Influence de la densité sur la biomasse récoltable d'une première rotation. Annales des recherches sylvicoles AFOCEL, 1994, 189210.
  • von Blottnitz H, Curran MA (2007) A review of assessments conducted on bio-ethanol as a transportation fuel from a net energy, greenhouse gas, and environmental life cycle perspective. Journal of Cleaner Production, 15, 607619.
  • Bsi (2008) PAS 2050:2008 – Specification for the Assessment of the Life Cycle Greenhouse gas Emissions of Goods and Services. British Standards Institution, London.
  • Cauvin B, Melun F (1994) Guide de Culture du TCR Eucalyptus. AFOCEL, Fiche Informations-Forêt no 486, Paris.
  • Ceschia E, Béziat P, Dejoux J-F et al. (2010) Management effects on net ecosystem carbon and GHG budgets at European crop sites. Agriculture, Ecosystems & Environment, 139, 363383.
  • Cherubini F (2010) GHG balances of bioenergy systems - overview of key steps in the production chain and methodological concerns. Renewable Energy, 35, 15651573.
  • Croisé L, Ulrich E, Duplat P, Jaquet O (2002) RENECOFOR – Deux Approches Indépendantes Pour L'estimation et la Cartographie des Dépôts Atmosphériques Totaux Hors Couvert Forestier sur le Territoire Français. Office National des Forêts, Paris. ISBN 2-84207-258-8.
  • De Cara S, Goussebaïle A, Grateau R, Levert F, Quinemer J, Vermont B (2012) Critical Review of Studies Evaluating the Effect of Land-use Changes on the Environmental Balances of Biofuels. Environment and Energy Agency (ADEME), Angers, France (in French).
  • Dimitriou I, Aronsson P (2005) Des saules pour l'énergie et la phytoremédiation en Suède. Unasylva, 221, 4750.
  • Djomo SN, El Kasmioui Q, Ceulemans R (2011) Energy and greenhouse gas balance of bioenergy production from poplar and willow: a review. Global Change Biology Bioenergy, 3, 181197.
  • European Commission (2005) Biomass, Green Energy for Europe. Eur21350A, Office for Official Publications of the European Communities, Luxembourg.
  • European Commission (2009) Directive 2009/28/EC of the European Parliament and of the Council of 23 April 2009 on the Promotion of the Use of Energy from Renewable Sources. Official Journal of the European Union, June 5, 2009.
  • Fargione J, Hill J, Tilman D, Polasky S, Hawthorne P (2008) Land clearing and the biofuel carbon debt. Science, 319, 12351237.
  • Gabrielle B, Gagnaire N (2008) Life-cycle assessment of straw use in bio-ethanol production: a case-study based on deterministic modelling. Biomass and Bioenergy, 32, 431441.
  • Galloway JN, Aber JD, Erisman JW, Seitzinger SP, Howarth RW, Cowling EB, Cosby BJ (2003) The nitrogen cascade. BioScience, 53, 341356.
  • Gasol CM, Gabarrell X, Anton A, Rigola M, Carrasco J, Ciria P, Rieradevall J (2009) LCA of poplar bioenergy system compared with Brassica carinata energy crop and natural gas in regional scenario. Biomass and Bioenergy, 33, 119129.
  • Goglio P, Owende PMO (2009) A screening LCA of short rotation coppice willow (Salix sp.) feedstock production system for small-scale electricity generation. Biosystems Engineering, 103, 38994.
  • Grogan P, Matthews R (2001) Review of the Potential for Soil Carbon Sequestration Under Bioenergy Crops in the U.K. Scientific Report, MAFF report on contract NF0418, Institute of Water and Environment, Cranfield University, Silsoe
  • Guinée JB, Gorrée M, Heijungs R et al. (2002) Handbook on Life Cycle Assessment. Operational Guide to the ISO Standards. Centre of Environmental Science, Leiden University, Leiden, The Netherlands.
  • Hedlund K, Regina IS, der Putten WHV et al. (2003) Plant species diversity, plant biomass and responses of the soil community on abandoned land across Europe: idiosyncracy or above-belowground time lags. Oïkos, 103, 4558.
  • Iglesias-Trabado G, Wilstermann D (2008) Eucalyptus universalis. Global cultivated eucalypt forests, 2008 map. Version 1.0.1. In: GIT Forestry Consulting's EUCALYPTOLOGICS. Available at: http://git-forestry.com/download_git_eucalyptus_map.htm (accessed 21 December 2011).
  • Jawjit W, Kroeze C, Soontaranun W, Hordijk L (2006) An analysis of the environmental pressure exerted by the eucalyptus-based kraft pulp industry in Thailand. Environment, Development and Sustainability, 8, 289311.
  • Jenkinson D (1990) The turnover of organic carbon and nitrogen in soil. Philosophical Transactions of the Royal Society of London - Series B: Biological Sciences, 329, 361368.
  • Jenkinson D, Harkness D, Vance E, Adams D, Harrison A (1992) Calculating net primary production and annual input of organic matter to soil from the amount and radiocarbon content of soil organic matter. Soil Biology and Biochemistry, 24, 295308.
  • Kim S, Dale BE (2005) Life cycle assessment of various cropping systems utilized for producing biofuels: bioethanol and biodiesel. Biomass and Bioenergy, 29, 426439.
  • Lindroth A, Båth A (1999) Assessment of regional willow coppice yield in Sweden on basis of water availability. Forest Ecology and Management, 121, 5765.
  • Lopes E, Dias A, Arroja L, Capela I, Pereira F (2003) Application of life cycle assessment to the Portuguese pulp and paper industry. Journal of Cleaner Production, 11, 5159.
  • Manzone M, Airoldi G, Balsari P (2009) Energetic and economic evaluation of a poplar cultivation for the biomass production in Italy. Biomass and Bioenergy, 33, 12581264.
  • MAP (2009) Memorandum on the Methodology to Account for the Sequestration of Carbon in Wood Stands. Ministry of Agriculture and Fisheries, Paris, France (in French).
  • Monti A, Fazio S, Venturi G (2009) Cradle-to-farm gate life cycle assessment in perennial energy crops. European Journal of Agronomy, 31, 7784.
  • Moura-Costa P, Wilson C (2000) An equivalence factor between CO2 avoided emissions and sequestration – description and applications in forestry. Mitigation and Adaptation Strategies for Global Change, 5, 5160.
  • Ndong R, Montrejaud-Vignoles M, Saint-Girons O, Gabrielle B, Pirot R, Domergue M, Sablayrolles C (2009) Life cycle assessment of biofuels from Jatropha curcas in West Africa: a field study. Global Change Biology Bioenergy, 1, 197210.
  • Nemecek T, Heil A, Huguenin O et al. (2003) Life Cycle Inventories of Agricultural Production Systems. Final report Ecoinvent 2000 No. 15, FAL Reckenholz, FAT Tänikon. Swiss Center for Life Cycle Inventories, Dübendorf, CH.
  • Nguyen The N, Deleuze C (2004) Biomass and nutrient accumulation for three short rotation coppices of E. gundal in southern France. In: Proceedings of the IUFRO Conference “Eucalyptus in a Changing World”, Aveiro, Portugal, 11–15 October 2004 (ed. Borralho N), pp. 324325. RAIZ - Instituto de Investigacao da Floresta e Papel, Eixo.
  • Nguyen The N, Lambrecq D, Sionneau J (2004) Eucalyptus establishment in France: 20 years of collaboration between research and industry. In: Proceedings of the IUFRO Conference “Eucalyptus in a Changing World”, Aveiro, Portugal, 11–15 October 2004 (ed. Borralho N), p. 484. RAIZ - Instituto de Investigacao da Floresta e Papel, Eixo.
  • Nguyen The N, da Silva Perez D, Melun F, Bouvet A (2010a) Evaluating the potential of biomass production, nutrient export and woodchips quality by eucalyptus in a perspective of culture in VSRC. In: Proceedings of the 18th European Biomass Conference, Lyon 5–9 May.
  • Nguyen The N, Gaspard M, Ménard P, Kephaliacos K, Ridier-Martos A, Gabrielle B (2010b) The Culiexa Project: Analysis of Technical and Socio-Economic Drivers for the Development of Woody Biomass Crops in Agricultural Farms. Final project report. FCBA, Paris (in French).
  • Paixão FA, Boechat Soares CP, Gonçalves Jacovine LA, Lopes da Silva M, Leite HG, Fernandes da Silva G (2006) Quantificaçao do estoques de carbono e avaliaçao economica de differentes alternativas de manejo em um plantio de eucalipto. Revista Árvore, 30, 411420.
  • Palm CA, Smukler SM, Sullivan CC, Mutuo PK, Nyadzi GI, Walsh MG (2010) Identifying potential synergies and trade-offs for meeting food security and climate change objectives in sub-Saharan Africa. Proceedings of the National Academy of Sciences USA, 46, 1966119666.
  • Reinhardt G (2000) Bio-Energy for Europe. Which Ones fit Best? Final report EC contract CT98-3832. IFEU, Heidelberg.
  • Robertson GP, Dale VH, Doering OC et al. (2008) Sustainable biofuels redux. Science, 322, 4950.
  • Rowe R, Whitaker J, Freer-Smith et al. (2011) Counting the cost of carbon in bioenergy systems: sources of variation and hidden pitfalls when comparing life cycle assessments. Biofuels, 2, 693707.
  • Scharlemann JPW, Laurance WF (2008) How green are biofuels? Science, 319, 4344.
  • Shurpali NJ, Strandman H, Kilpeläinen A et al. (2010) Atmospheric impact of bioenergy based on perennial crop (reed canary grass, Phalaris arundinaceae, L.) cultivation on a drained boreal organic soil. Global Change Biology Bioenergy, 2, 130138.
  • Stehfest E, Bouwman L (2006) N2O and NO emissions from agricultural vegetation: summarizing available of global annual emissions. Nutrient Cycling in Agroecosystems, 74, 207228.
  • Tanabe K, Ngara T, Miwa K et al. (2006) 2006 IPCC Guidelines for National Greenhouse Gas Inventories. Prepared by the National Greenhouse Gas Inventories Programme. IGES, Hayama, Kanagawa.
  • Wilkinson JM, Evans EJ, Bilsborrow PE, Wright C, Hewison WO, Pilbeam DJ (2007) Yield of willow cultivars at different planting densities in a commercial short rotation coppice in the north of England. Biomass and Bioenergy, 31, 469474.
  • WWI (2006) Biofuels for Transportation – Global Potential and Implications for Sustainable Agriculture and Energy in the 21st Century. Worldwatch Institute, Washington, DC.