<P>Forword </P><P>Symposium organization </P><P>Mapping of unit/product system/processes for pavement life-cycle assessment, <I>C.G. Bhat, A. Mukherjee & J. Meijer</P></I><P>Asphalt pavement resurfacing: A review toward a better selection and representativeness of LCI 12, <I>A. de Bortoli</P></I><P>Towards more sustainable airfield pavements using life-cycle assessment of design alternatives, <I>K. Mantalovas, R. Roberts, G. Giancontieri, L. Inzerillo & G. Di Mino</P></I><P>Recommendations for airfield life cycle assessment tool development, <I>A.A. Butt, J.T. Harvey, J. Lea, A. Saboori & N. Garg</P></I><P>Incorporating the impacts of climate change into a life cycle assessment of a slab-on-girder highway bridge, <I>G. Guest, J. Zhang, B. Kadhom & J. Sing</P></I><P>Life cycle environmental impact considerations for structural concrete in transportation infrastructure, <I>S.A. Miller</P></I><P>Life cycle assessment of ultra-high performance concrete bridge deck overlays, <I>M. Rangelov, R.P. Spragg, Z.B. Haber & H. Dylla</P></I><P>How do funds allocation and maintenance intervention affect the deterioration process of urban bridges in Shanghai, <I>Y. Fang & L. Sun</P></I><P>Assessment of asphalt concrete EPDs in Scandinavia and the United States, <I>L. Strömberg, S. Hintze, I.L. Al-Qadi & E. Okte</P></I><P>Life cycle assessment in public procurement of transport infrastructure, <I>S. Toller, S. Miliutenko, M. Erlandsson, S. Nilsson & M. Larsson</P></I><P>Technical and organizational challenges to developing product category rules for asphalt pavement construction, <I>C.G. Bhat, J. Shacat & A. Mukherjee</P></I><P>Using environmental product declarations to support pavement green public procurement, <I>M. Rangelov, H. Dylla & N. Sivaneswaran</P></I><P>A feasibility study to assess the use of EPDs in public procurement, <I>L.K. Miller & B.T. Ciavola</P></I><P>Integrated evaluation method of life cycle economic and environmental impact for permeable pavement: Model development and case study, <I>J. Liu, H. Li & Y. Wang</P></I><P>Pavement life cycle management: Towards a sustainability assessment framework in Europe, <I>A.J.d.B. Carrión, T. Parry, E. Keijzer, B. Kalman, K. Mantalovas, A. Butt, J. Harvey & D.L. Presti</P></I><P>Impacts of climate-change and realistic traffic conditions on asphalt pavement and rehabilitation decisions using life cycle assessment, <I>K. Haslett, E. Dave & W. Mo</P></I><P>Pavement life cycle assessment of State Highway Network with Caltrans PaveM System, <I>I.A. Basheer</P></I><P>Exploring the cost benefit value and relative emissions of pavement preservation treatments using RoadResource.org, <I>S. Casillas & A. Braham</P></I><P>A case study of using life cycle cost analysis in pavement management system, <I>D. Cheng & K. Joslin</P></I><P>Pavement preservation and maintenance schedule evaluation using a life-cycle assessment tool, <I>Q. Zhou, H. Ozer & I.L. Al-Qadi</P></I><P>Climate action plans: Review and recommendations, <I>M.T. Lozano, A.M. Kendall, A.A. Butt & J.T. Harvey</P></I><P>LCA consortium for a road environmental-friendly infrastructure in Mexico City, <I>N. Hernandez-Fernández, L.P. Güereca-Hernandez, A. Ossa-Lopez, M. Flores-Guzmán & C.E. Caballero-Güereca</P></I><P>Lessons learned from the supply curve approach, <I>A.A.Butt, J.T. Harvey, A. Saboori, C. Kim, M. Lozano & A. Kendall</P></I><P>Comparison of life cycle greenhouse gas emissions and energy consumption between complete streets vs. conventional streets, <I>A. Saboori, J. Harvey, M. Ostovar, A.A. Butt & A. Kendall</P></I><P>Network-level life cycle assessment of reclaimed asphalt pavement in Washington State, <I>M.Z. Ashtiani & S.T. Muench</P></I><P>Including sustainability and life cycle perspectives in decision making, <I>R.I. Karlsson & Å. Lindgren</P></I><P>Combined life cycle assessment and life cycle cost analysis for the Illinois Tollway, <I>E. Okte, I.L. Al-Qadi & H. Ozer</P></I><P>eLCAP: A web application for environmental life cycle assessment of pavements focused on California, <I>J. Harvey, J. Lea, A. Saboori, M. Ostovar & A.A. Butt</P></I><P>Green up pavement rehabilitation decision tool, <I>D. Andrei & R.E. Kochan</P></I><P>Fuel and non-fuel vehicle operating costs comparison of select vehicle types and fuel sources: A parametric study, <I>R. Chkaiban, E.Y. Hajj, G. Bailey, M. Sime, H. Xu & P.E. Sebaaly</P></I><P>Bayesian economic analyses of including reclaimed asphalt pavements in flexible pavement rehabilitation, <I>H. Gong, M. Zhang, W. Hu & B. Huang</P></I><P>Global warming potential and fossil depletion of enhanced rubber modified asphalt, <I>A. Farina, A. Anctil & M.E. Kutay</P></I><P>Interpreting life cycle assessment results of bio-recycled asphalt pavements for more informed decision-making, <I>K. Mantalovas, A.J.D.B Carrión, J. Blanc, E. Chailleux, P. Hornych, J.P. Planche, L. Porot, S. Pouget, C. Williams & D.L. Presti</P></I><P>Use of recycled aggregates in concrete pavement: Pavement design and life cycle assessment, <I>X. Shi, Z. Grasley, A. Mukhopadhyay & D. Zollinger</P></I><P>Carbon footprint of asphalt road pavements using warm mix asphalt with recycled concrete aggregates: A Colombian case study, <I>D.V. Araujo, J. Santos & G. Martinez-Arguelles</P></I><P>Sustainable flexible pavement overlay policy for reduced life-cycle cost and environmental impact, <I>C. Xin & Q. Lu</P></I><P>LCA and cost comparative analysis of half-warm mix asphalts with varying degrees of RAP, <I>T. Mattinzioli, F. Moreno, M. Rubio & G. Martínez</P></I><P>Life cycle assessment of a thin bonded concrete overlay of asphalt project in Woodland, California, <I>M. Ostovar, A.A. Butt, A. Mateos & J.T. Harvey</P></I><P>Sensitivity analysis of the benefits of replacing virgin materials with RAP considering rejuvenator type and hauling distance, <I>M. Elkashef, A. Saboori, M. Ostovar, J. Harvey, A.A. Butt & D. Jones</P></I><P>A framework for selection between end-of-life alternatives at the project-level considering full life cycle environmental impacts, <I>A. Saboori, J. Harvey, J. Lea & D. Jones</P></I><P>Quantification of potential reductions in greenhouse gas emissions by allowing increased use of reclaimed asphalt pavement in Caltrans projects, <I>A. Saboori, J. Harvey, A.A. Butt & M. Elkashef</P></I><P>Pavement recycling: A case study of life-cycle assessment and life-cycle cost analysis, <I>Q. Zhou, I.L. Al-Qadi, H. Ozer & B. Diefenderfer</P></I><P>ACCIONA's expertise in the use of LCA in construction sector, <I>A.C. Ocampo & E.G. Bustamante</P></I><P>LCA of construction and demolition waste recycling: Case study of production phase, <I>T. Desbois, O. Yazoghli-Marzouk & A. Feraille</P></I><P>Life cycle assessment of pervious concrete pavements reinforced by recycled carbon fiber composite elements, <I>M. Rangelov, S. Nassiri & K. Englund</P></I><P>Effect of durability on fiber-reinforced asphalt mixtures sustainability, <I>E. Lizasoain-Arteaga, D. Castro-Fresno & G. Flintsch</P></I><P>Life Cycle Assessment (LCA) study on asphalt binders manufactured in North America, <I>M. Buncher, R. Corun, M. Wildnauer & E. Mulholland</P></I><P>Preliminary evaluation of using intelligent compaction for life cycle assessment and life cycle cost analysis of pavement structures, <I>S. Satani, S.F. Aval, J. Garrido, & M. Mazari</P></I><P>Impact of allocation method on carbon footprint of pervious concrete with industry byproducts, <I>X. Chen & H. Wang</P></I><P>Development of pavement performance prediction models for in-situ recycled pavements in Virginia, <I>E.A. Amarh, J. Santos, G.W. Flintsch & B.K Diefenderfer</P></I><P>Mechanistic modeling of the effect of pavement surface mega-texture on vehicle rolling resistance, <I>S. Rajaei & K. Chatti</P></I><P>Effect of pavement structural response on vehicle fuel consumption: Lessons learned from data collection, processing and analysis, <I>A.A. Butt, J.T. Harvey, D.T. Fitch, D. Reger, D. Balzarini, I. Zabaar, K. Chatti, M. Estaji, E. Coleri & A. Louhghalam</P></I><P>PVI related decision-making tools in use phase of LCA: A literature review, <I>K. Mohanraj, D. Merritt, N. Sivaneswaran & H. Dylla</P></I><P>Context-specific assessment of the life cycle environmental performance of pavements considerin.