Applying the Technology Choice Model in Consequential Life Cycle Assessment: A Case Study in the Peruvian Agricultural Sector

Summary Demand for grapes to produce pisco in southern‐coastal Peru is expected to double by 2030. However, the appellation of this beverage confines the production and limits the space for agricultural expansion, leading to a situation in which potential competition for resources with established c...

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Veröffentlicht in:	Journal of industrial ecology 2019-06, Vol.23 (3), p.601-614
Hauptverfasser:	Larrea‐Gallegos, Gustavo, Vázquez‐Rowe, Ian, Wiener, Hugo, Kahhat, Ramzy
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural industry Agricultural practices Agricultural production agriculture Case studies Chloride channels (calcium-gated) Climate change consequential LCA Crop production Decision making models Environmental assessment Environmental changes Environmental impact GHG emissions Greenhouse effect Greenhouse gases industrial ecology Life cycle analysis Life cycle assessment Life cycles Peru pisco Stochasticity Technology Valleys Viticulture Water consumption
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container_title	Journal of industrial ecology
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creator	Larrea‐Gallegos, Gustavo Vázquez‐Rowe, Ian Wiener, Hugo Kahhat, Ramzy
description	Summary Demand for grapes to produce pisco in southern‐coastal Peru is expected to double by 2030. However, the appellation of this beverage confines the production and limits the space for agricultural expansion, leading to a situation in which potential competition for resources with established constraints is foreseen. Hence, the objective of this study is to understand the environmental impacts, focused on climate change and water consumption, linked to the agricultural dynamism in the valleys of Ica and Pisco due to an increase in the demand of pisco. For this, the viticulture system was analyzed regarding predicted changes in terms of expansion, displacement or intensification using a consequential life cycle assessment (CLCA) approach, identifying the environmental consequences of these shifts. A two‐step CLCA model was used based on the results of a previous attributional study, in which marginal effects were estimated following the stochastic technology‐of‐choice model (STCM) operational framework. Results identified a potential for the increase of pisco production based on crop substitution in the valleys of Ica and Pisco and suggest that greenhouse gas emissions and water consumption will be reduced locally, but the displaced agricultural production would reverse this tendency. Regardless of the policy implications of the results in the analyzed system, the proposed methodology constitutes a robust methodology that can be applied to other highly constrained agricultural systems, namely, those regulated by geographic indications.
doi_str_mv	10.1111/jiec.12812
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However, the appellation of this beverage confines the production and limits the space for agricultural expansion, leading to a situation in which potential competition for resources with established constraints is foreseen. Hence, the objective of this study is to understand the environmental impacts, focused on climate change and water consumption, linked to the agricultural dynamism in the valleys of Ica and Pisco due to an increase in the demand of pisco. For this, the viticulture system was analyzed regarding predicted changes in terms of expansion, displacement or intensification using a consequential life cycle assessment (CLCA) approach, identifying the environmental consequences of these shifts. A two‐step CLCA model was used based on the results of a previous attributional study, in which marginal effects were estimated following the stochastic technology‐of‐choice model (STCM) operational framework. Results identified a potential for the increase of pisco production based on crop substitution in the valleys of Ica and Pisco and suggest that greenhouse gas emissions and water consumption will be reduced locally, but the displaced agricultural production would reverse this tendency. 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However, the appellation of this beverage confines the production and limits the space for agricultural expansion, leading to a situation in which potential competition for resources with established constraints is foreseen. Hence, the objective of this study is to understand the environmental impacts, focused on climate change and water consumption, linked to the agricultural dynamism in the valleys of Ica and Pisco due to an increase in the demand of pisco. For this, the viticulture system was analyzed regarding predicted changes in terms of expansion, displacement or intensification using a consequential life cycle assessment (CLCA) approach, identifying the environmental consequences of these shifts. A two‐step CLCA model was used based on the results of a previous attributional study, in which marginal effects were estimated following the stochastic technology‐of‐choice model (STCM) operational framework. 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subjects	Agricultural industry Agricultural practices Agricultural production agriculture Case studies Chloride channels (calcium-gated) Climate change consequential LCA Crop production Decision making models Environmental assessment Environmental changes Environmental impact GHG emissions Greenhouse effect Greenhouse gases industrial ecology Life cycle analysis Life cycle assessment Life cycles Peru pisco Stochasticity Technology Valleys Viticulture Water consumption
title	Applying the Technology Choice Model in Consequential Life Cycle Assessment: A Case Study in the Peruvian Agricultural Sector
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