Development of impact factors on damage to health by infectious diseases caused by domestic water scarcity

Motoshita, Masaharu; Itsubo, Norihiro; Inaba, Atsushi

doi:10.1007/s11367-010-0236-8

Cited by 70 publications

(61 citation statements)

References 16 publications

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“…It was outside the scope of this research to explore variability in freshwater impacts resulting from applying different sets of characterization factors (e.g. Motoshita et al 2011;Boulay et al 2011b). We excluded impacts of degradative water use, which refers to withdrawal of water from a watershed and the discharge of this water with degraded quality into the same watershed (Bayart et al 2010).…”

Section: Discussionmentioning

confidence: 99%

Assessing environmental impacts associated with freshwater consumption along the life cycle of animal products: the case of Dutch milk production in Noord-Brabant

Boer

Hoving

Vellinga

et al. 2012

Int J Life Cycle Assess

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Purpose The assessment of water footprints of a wide range of products has increased awareness on preserving freshwater as a resource. The water footprint of a product was originally defined by Hoekstra and Hung (2002) as the sum of the volumetric water use in terms of green, blue and grey water along the entire life cycle of a product and, as such, does not determine the environmental impact associated with freshwater use. Recently, several papers were published that describe building blocks that enable assessment of the site-specific environmental impact associated with freshwater use along the life cycle of a global food chain, such as the impact on human health (HH), ecosystem quality (EQ) or resource depletion (RD). We integrated this knowledge to enable an assessment of the environmental impact associated with freshwater use along the life cycle of milk production, as a case for a global food chain. Material and methods Our approach innovatively combined knowledge about the main impact pathways of freshwater use in life cycle assessment (LCA), knowledge about sitespecific freshwater impacts and knowledge about modelling of irrigation requirements of global feed crops to assess freshwater impacts along the life cycle of milk production. We evaluated a Dutch model farm situated on loamy sand in the province of Noord-Brabant, where grass and maize land is commonly irrigated. Results and discussion Production of 1 kg of fat-and-protein corrected milk (FPCM) on the model farm in Noord-Brabant required 66 L of consumptive water. About 76 % of this water was used for irrigation during roughage cultivation, 15 % for production of concentrates and 8 % for drinking and cleaning services. Consumptive water use related to production of purchased diesel, gas, electricity and fertiliser was negligible (i.e. total 1 %). Production of 1 kg of FPCM resulted in an impact on HH of 0.8×10 −9 disability adjusted life years, on EQ of 12.9×10 −3 m 2 ×year and on RD of 6.7 kJ. The impact of producing this kilogram of FPCM on RD, for example, was caused mainly by cultivation of concentrate ingredients, and appeared lower than the average impact on RD of production of 1 kg of broccoli in Spain. Conclusions Integration of existing knowledge from diverse science fields enabled an assessment of freshwater impacts along the life cycle of a global food chain, such as Dutch milk production, and appeared useful to determine its environmental hotspots. Results from this case study support earlier findings that LCA needs to go beyond simple water volume accounting when the focus is on freshwater scarcity. The approach used, however, required high-resolution inventory global data (i.e.

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Section: Discussionmentioning

confidence: 99%

Assessing environmental impacts associated with freshwater consumption along the life cycle of animal products: the case of Dutch milk production in Noord-Brabant

Boer

Hoving

Vellinga

et al. 2012

Int J Life Cycle Assess

View full text Add to dashboard Cite

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“…Approaches differ significantly in terms of considered water types, whether or not they account for local water scarcity and differentiation between watercourses and quality aspects (Berger and Finkbeiner, 2010). Some LCA applications also explicitly quantify potential health impacts (Boulay et al, 2011b;Motoshita et al, 2011), ecosystem impacts (Milà i Canals et al, 2009, and resource depletion impacts (Milà i Canals et al, 2009;) whereas others do not. Approaches focusing on comprehensive water quality assessment also exist which consider the potential water use impacts caused by a loss of functionality (due to water quality impairment) for human users (Boulay et al, 2011a).…”

Section: Attempts To Estimate Impacts Of Water Usefull-blown Lca Apprmentioning

confidence: 99%

Quantifying the human impact on water resources: a critical review of the water footprint concept

Chenoweth

Hadjikakou

Zoumides

2014

Hydrol. Earth Syst. Sci.

123

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Abstract. The water footprint is a consumption-based indicator of water use, referring to the total volume of freshwater used directly and indirectly by a nation or a company, or in the provision of a product or service. Despite widespread enthusiasm for the development and use of water footprints, some concerns have been raised about the concept and its usefulness. A variety of methodologies have been developed for water footprinting which differ with respect to how they deal with different forms of water use. The result is water footprint estimates which vary dramatically, often creating confusion. Despite these methodological qualms, the concept has had notable success in raising awareness about water use in agricultural and industrial supply chains, by providing a previously unavailable and (seemingly) simple numerical indicator of water use. Nevertheless, and even though a range of uses have already been suggested for water footprinting, its policy value remains unclear. Unlike the carbon footprint which provides a universal measure of human impact on the atmosphere's limited absorptive capacity, the water footprint in its conventional form solely quantifies a single production input without any accounting of the impacts of use, which vary spatially and temporally. Following an extensive review of the literature related to water footprints, this paper critically examines the present uses of the concept, focusing on its current strengths, shortcomings and promising research avenues to advance it.

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“…The LCIA could be developed as well as the prospective perspective. Especially water scarcity should be analyzed with country specific damage factors [41].…”

Section: Next Stepsmentioning

confidence: 99%

Comparative Screening Life Cycle Impact Assessment of Renewable and Fossil Power Supply for a Radio Base Station Site

Anders¹,

Ab²

2018

Int. J. Green Technol.

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Abstract:The global energy usage driven by Information and Communication Technology (ICT) cloud services is set to soar, with the wireless cloud computing being at the core of the radio technology trend. At the same time the market for renewable energy supply is growing fast. In this context the aim of a new radio base station (RBS) site solution concept (i-Site) is to optimize energy costs, speed of deployment, and site equipment such as the number of photovoltaic (PV) modules. The present study provides the first example of a screening Life Cycle Impact Assessment (LCIA) estimating the future eco-environmental benefits of i-Site for support of an RBS in a South African radio access network. This study uses advanced attributional life cycle assessment (AALCA) showing the effect of changing battery type and diesel fuel markets on the results. Despite high uncertainty and best case scenario, the LCIA confirms the hypothesis that the environmental loadings and potential eco-environmental impacts will decrease when changing from traditional Site (tSite) to i-Site. Avoiding diesel combustion and introducing an electricity efficient air cooling solution for i-Site (loop thermosyphon and DC Fan) explain the results. The AALCA based sensitivity check, including battery and diesel fuel markets, do not change the conclusion that i-Site seemingly is a better solution than t-Site from an eco-environmental point of view.

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Development of impact factors on damage to health by infectious diseases caused by domestic water scarcity

Cited by 70 publications

References 16 publications

Assessing environmental impacts associated with freshwater consumption along the life cycle of animal products: the case of Dutch milk production in Noord-Brabant

Assessing environmental impacts associated with freshwater consumption along the life cycle of animal products: the case of Dutch milk production in Noord-Brabant

Quantifying the human impact on water resources: a critical review of the water footprint concept

Comparative Screening Life Cycle Impact Assessment of Renewable and Fossil Power Supply for a Radio Base Station Site

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