• 1
    de Jong E, Higson A, Walsh P and Wellisch M, Bio-based chemicals: value added products from biorefineries: IEA Bioenergy Task 42 Biorefineries. IEA, Paris, France (2012).
  • 2
    de Jong E, Higson A, Walsh P and Wellisch M, Product developments in the bio-based chemicals arena. Biofuels Bioprod Bioref 6:606624 (2012).
  • 3
    Werpy T and Petersen G, Top value added chemicals from biomass. Volume 1, Results of screening for potential candidates from sugars and synthesis gas. US Department of Energy. Energy Efficiency and Renewable Energy, Washington, DC (2004).
  • 4
    Bechthold I, Bretz K, Kabasci S, Kopitzky R and Springer A, Succinic acid: a new platform chemical for biobased polymers from renewable resources. Chem Eng Technol 31:647654 (2008).
  • 5
    Bozell JJ and Petersen GR, Technology development for the production of biobased products from biorefinery carbohydrates-the US Department of Energy's ‘Top 10’ revisited. Green Chem 12:539554 (2010).
  • 6
    Patel MK, Crank M, Dornburg V, Hermann B, Roes L, Hüsing B et al., The BREW Project - Medium and long-term opportunities and risks of the biotechnological production of bulk chemicals from renewable resources. Utrecht University – Department of Science, Technology and Society (STS) / Copernicus Institute, Utrecht, the Netherlands (2006).
  • 7
    Zeikus JG, Jain MK and Elankovan P, Biotechnology of succinic acid production and markets for derived industrial products. Appl Microbiol Biotechnol 51:545552 (1999).
  • 8
    Delhomme C, Weuster-Botz D and Kuhn FE, Succinic acid from renewable resources as a C4 building-block chemical-a review of the catalytic possibilities in aqueous media. Green Chem 11:1326 (2009).
  • 9
    Carole TM, Pellegrino J and Paster MD, Opportunities in the industrial biobased products industry. Appl Biochem Biotechnol 113–116:871885 (2004).
  • 10
    Erickson B, Nelson JE and Winters P, Perspective on opportunities in industrial biotechnology in renewable chemicals. Biotechnol J 7:176185 (2012).
  • 11
    ICIS, Chemical industry awaits for bio-succinic acid potential. [Online]. (2012). Available at: [January 30, 2012].
  • 12
    DSM, DSM and Roquette to start bio-based succinic acid joint venture. DSM, Heerlen (2010).
  • 13
    ISO, ISO 14040: Environmental Management – Life Cycle Assessment – Principles and Framework, ISO, Geneva, Switzerland (2006).
  • 14
    ISO/FDIS 14044: Environmental Managament – Life Cycle Assessment – Requirements and Guidelines, ISO, Geneva, Switzerland (2006).
  • 15
    Althaus H-J, Chudacoff M, Hischier R, Jungbluth N, Osses M and Primas A. Life cycle inventories of chemicals. Swiss Centre for Life Cycle Inventories, Dübendorf (2007).
  • 16
    UNFCCC. National Inventory Submissions. [Online]. UNFCCC (2012). Available at: [January 14, 2013].
  • 17
    ICIS. European chemical profile: Adipic acid. [Online]. (2011). Available at: [January 14, 2013].
  • 18
    Tsiropoulos I, Cok B, and Patel MK, Energy and greenhouse gas assessment of European glucose production from corn − a multiple allocation approach for a key ingredient of the bio-based economy. J Cleaner Prod 43:182190 (2013).
  • 19
    EC, Taking bio-based from promise to market – Measures to promote the market introduction of innovative bio-based products. European Commission – Enterprise and Industry, Brussels (2009).
  • 20
    WRI/WBCSD, GHG Protocol Initiative. Product Life Accounting and Reporting Standard. World Resources Institute & World Business Council for Sustainable Development, Geneva, Switzerland (2011).
  • 21
    BSi, PAS 2050:2011 Specification for the assessment of the life cycle greenhouse gas emissions of goods and services. BSI, London (2011).
  • 22
    Pawelzik P, Carus M, Hotchkiss J, Narayan R, Selke S, Wellisch M, et al., Critical aspects in the life cycle assessment (LCA) of bio-based materials – Reviewing methodologies and deriving recommendations. Resour Conserv Recycl 73:211228 (2013).
  • 23
    Raschka A and Carus M, Industrial material use of biomass. Basic data for Germany, Europe and the world. nova-Institute, Hürth (2012).
  • 24
    Seabra JEA, Macedo IC, Chum HL, Faroni CE and Sarto CA, Life cycle assessment of Brazilian sugarcane products: GHG emissions and energy use. Biofuels Bioprod Bioref 5:519532 (2011).
  • 25
    Mang M, Bio-based succinic acid: Transforming the chemicals industry. [Online]. (2012). Available at: [June 25, 2012].
  • 26
    Hermann B and Patel M, Today's and tomorrow's bio-based bulk chemicals from white biotechnology. Appl Biochem Biotechnol 136:361388 (2007).
  • 27
    Dornburg V, Hermann BG and Patel MK, Scenario Projections for Future Market Potentials of Biobased Bulk Chemicals. Environ Sci Technol 42:22612267 (2007).
  • 28
    Cornils B, Lappe P. Ullmann's Encyclopedia of Industrial Chemistry. 7th Edn. Wiley-VCH Verlag GmbH (2007).
  • 29
    UBA, BAT for large volume organic chemicals and production in Austria. Umweltbundesamt Austria, Vienna (2001) Contract No.: BE-183.
  • 30
    ChemSystems, Report Abstract: Maleic Anhydride. PERP07/08-8. [Online]. Nexant (2009). Available at: [January 7, 2013].
  • 31
    ChemSystems, Report Abstract: Maleic Anhydride. PERP03/04-7. [Online]. Nexant (2005). Available at: [January 7, 2013].
  • 32
    Bos HL, Meesters KPH, Conijn SG, Corré WJ and Patel MK, Accounting for the constrained availability of land: a comparison of bio-based ethanol, polyethylene, and PLA with regard to non-renewable energy use and land use. Biofuels Bioprod Bioref 6:146158 (2012).
  • 33
    Jungbluth N, Chudacoff M, Dauriat A, Dinkel F, Doka G, Faist Emmenegger M et al., Life Cycle Inventories for Bioenergy. Swiss Centre for Life Cycle Inventories, Dübendorf (2007).
  • 34
    Frischknecht R, Tuchschmid M, Faist Emmenegger M, Bauer C and Dones R, Strommix und Stromnetz. In: Sachbilanzen von Energiesystemen: Grundlagen für den ökologischen Vergleich von Energiesystemen und den Einbezug von Energiesystemen in Ökobilanzen für die Scheiz. Uster: Paul Scherrer Institut Villigen, Swiss Centre for Life Cycle Inventories (2007) Contract No.: Ecoinvent report No. 6 / Teil XVI, v2.0.
  • 35
    Nemecek T and Kägi T, Life Cycle Inventories of Swiss and European Agricultural Production Systems. Swiss Centre for Life Cycle Inventories, Zürich and Dübendorf (2007).
  • 36
    Tsiropoulos I, Energy and emissions assessment on dextrose production from corn starch: Life cycle principles and multiple allocations. Utrecht University, Utrecht (2010).
  • 37
    ICIS, BASF, CSM form joint venture for biobased succinic acid. [Online]. (2012). Available at: [December 17, 2012].
  • 38
    Myriant, Myriant achieves major milestone: successful start-up at flagship bio-succinic acid plant in Lake Providence, LA [Online]. (2013). Available at: [May 17, 2013].
  • 39
    BioAmber, Form 10-Q. For the Quarter Ended March 31, 2013. [Online]. Security and Exchange Commission, Washington DC, USA (2013). Available at: [June 17, 2013].
  • 40
    IPCC, IPCC Fourth Assessment Report: Climate Change 2007 (AR4). Working Group I: The Physical Science Basis, 2.10.2 Direct Global Warming Potentials, Table 2.14: Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA. (2007).
  • 41
    Xu Y, Isom L and Hanna MA, Adding value to carbon dioxide from ethanol fermentations. Bioresour Technol 101:33113319 (2010).
  • 42
    Kellenberger D, Althaus H-J, Jungbluth N, Künniger T, Lehrmann M and Thalmann P, Life cycle inventories of building products. Swiss Centre for Life Cycle Inventories, Dübendorf (2007).
  • 43
    Doka G, Life cycle inventories of waste treatment services. Swiss Centre for Life Cycle Inventories, Dübendorf (2007).