Assessing Water Deprivation at the Sub-river Basin Scale in LCA Integrating Downstream Cascade Effects

Physical water deprivation at the midpoint level is assessed in water-related LCIA methods using water scarcity indicators (e.g., withdrawal-to-availability and consumption-to-availability) at the river basin scale. Although these indicators represent a great step forward in the assessment of water-...

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Veröffentlicht in:	Environmental science & technology 2013-12, Vol.47 (24), p.14242-14249
Hauptverfasser:	Loubet, Philippe, Roux, Philippe, Núñez, Montserrat, Belaud, Gilles, Bellon-Maurel, Véronique
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Sprache:	eng
Schlagworte:	Consumption Earth sciences Earth, ocean, space Ecology - methods Environmental science Exact sciences and technology France Freshwater Geography Hydrology Hydrology. Hydrogeology Life Sciences River basins Rivers Scarcity Spain Water Water resources Water Supply
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description	Physical water deprivation at the midpoint level is assessed in water-related LCIA methods using water scarcity indicators (e.g., withdrawal-to-availability and consumption-to-availability) at the river basin scale. Although these indicators represent a great step forward in the assessment of water-use-related impacts in LCA, significant challenges still remain in improving their accuracy and relevance. This paper presents a methodology that can be used to derive midpoint characterization factors for water deprivation taking into account downstream cascade effects within a single river basin. This effect is considered at a finer scale because a river basin must be split into different subunits. The proposed framework is based on a two-step approach. First, water scarcity is defined at the sub-river basin scale with the consumption-to-availability (CTA) ratio, and second, characterization factors for water deprivation (CFWD) are calculated, integrating the effects on downstream sub-river basins. The sub-river basin CTA and CFWD were computed based on runoff data, water consumption data and a water balance for two different river basins. The results show significant differences between the CFWD in a given river basin, depending on the upstream or downstream position. Finally, an illustrative example is presented, in which different land planning scenarios, taking into account additional water consumption in a city, are assessed. Our work demonstrates how crucial it is to localize the withdrawal and release positions within a river basin.
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subjects	Consumption Earth sciences Earth, ocean, space Ecology - methods Environmental science Exact sciences and technology France Freshwater Geography Hydrology Hydrology. Hydrogeology Life Sciences River basins Rivers Scarcity Spain Water Water resources Water Supply
title	Assessing Water Deprivation at the Sub-river Basin Scale in LCA Integrating Downstream Cascade Effects
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