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Estimation of the Water Footprint of Wood Construction in Chile Using a Streamlined Input–Output-Based Model

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  • Ximena Vallejos

    (Natural Resources Engineering Program, Faculty of Sciences, University of Bío-Bío, Chillán 3800708, Chile
    Resilience and Sustainability Research Group (GIRES), Department of Basic Sciences, Faculty of Sciences, University of Bío-Bío, Chillán 3800708, Chile
    Water Research Center for Agriculture and Mining - CRHIAM, ANID FONDAP Center, Victoria 1295, Concepción 4030000, Chile)

  • Steven Hidalgo

    (Resilience and Sustainability Research Group (GIRES), Department of Basic Sciences, Faculty of Sciences, University of Bío-Bío, Chillán 3800708, Chile
    Doctoral Program in Sciences with Mention in Renewable Natural Resources, Faculty of Sciences, University of Bío-Bío, Chillán 3800708, Chile)

  • Belén González

    (Natural Resources Engineering Program, Faculty of Sciences, University of Bío-Bío, Chillán 3800708, Chile
    Resilience and Sustainability Research Group (GIRES), Department of Basic Sciences, Faculty of Sciences, University of Bío-Bío, Chillán 3800708, Chile
    Water Research Center for Agriculture and Mining - CRHIAM, ANID FONDAP Center, Victoria 1295, Concepción 4030000, Chile)

  • Patricio Neumann

    (Resilience and Sustainability Research Group (GIRES), Department of Basic Sciences, Faculty of Sciences, University of Bío-Bío, Chillán 3800708, Chile
    Water Research Center for Agriculture and Mining - CRHIAM, ANID FONDAP Center, Victoria 1295, Concepción 4030000, Chile)

Abstract

Wood construction is often proposed to reduce the construction sector’s greenhouse gas emissions due to its carbon sequestration potential. However, forestry significantly impacts natural water flows and increases water use—a critical concern in Chile. This study evaluates the water footprint of wood construction in Chile, considering direct and indirect water consumption under various scenarios. An input–output model was developed to quantify economic interactions, incorporating a new wood-construction sector based on data from a model house. An environmental extension matrix was also created to account for blue water (groundwater and surface water extraction) and green water (rainwater absorbed from soil) consumption. Future scenarios for the residential building sector were defined based on different growth rates for wood-based construction and current construction methods, and the model was resolved using the scenarios as demand vectors. The results indicate that wood construction’s water footprint is 2.38–2.47 times higher than conventional construction methods, with over 64% linked to forestry’s green water demand. By 2050, increased wood construction could raise the sector’s total water footprint by 30.0–31.8%. These findings underscore the need to assess water consumption as a critical sustainability parameter for wood construction and highlight the value of tools like the water footprint to guide decision-making.

Suggested Citation

  • Ximena Vallejos & Steven Hidalgo & Belén González & Patricio Neumann, 2025. "Estimation of the Water Footprint of Wood Construction in Chile Using a Streamlined Input–Output-Based Model," Sustainability, MDPI, vol. 17(3), pages 1-13, January.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:3:p:1061-:d:1578754
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    References listed on IDEAS

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    1. Shabir Hussain Khahro & Aftab Hameed Memon & Nafees Ahmed Memon & Ali Arsal & Tauha Hussain Ali, 2021. "Modeling the Factors Enhancing the Implementation of Green Procurement in the Pakistani Construction Industry," Sustainability, MDPI, vol. 13(13), pages 1-15, June.
    2. Rabaka Sultana & Ahmad Rashedi & Taslima Khanam & Byongug Jeong & Homa Hosseinzadeh-Bandbafha & Majid Hussain, 2022. "Life Cycle Environmental Sustainability and Energy Assessment of Timber Wall Construction: A Comprehensive Overview," Sustainability, MDPI, vol. 14(7), pages 1-30, March.
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