Abstract
A panel of monthly aggregate data from the Northwest of Spain is used to estimate domestic water demand functions under linear and non-linear tariffs. Price, billing, climatic, and sociodemographic variables are used as explanatory variables. The use of intraannual data constitutes a relevant contribution in the European context. Overall marginal price elasticity estimates lie between −0.12 and −0.17. Summer-only elasticities and elasticities associated with uses beyond the effectively free allowances seem significantly higher. Climatic variables significantly affect monthly use, although probably less than in other wealthier and drier areas. Domestic water use appears to be a normal good.
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References
Amemiya, T. and T. MaCurdy (1986), ‘Instrumental-Variable Estimation of an Error-Components Model’, Econometrica 54(4), 869–880.
Baltagi, B. H. (1995), Econometric Analysis of Panel Data. New York: Wiley & Sons.
Billings, B. (1982), ‘Specification of Block Rate Price Variables in Demand Models’, Land Economics 58(3), 386–393.
Billings, R. B. and W. M. Day (1989), ‘Demand Management Factors in Residential Water Use: The Southern Arizona Experience’, Journal of the American Water Works Association 81(3), 58–64.
Breusch, T., G. Mizon, and P. Schmidt (1989), ‘Efficient Estimation Using Panel Data’, Econometrica 57(3), 695–700.
Chicoine, D. and G. Ramamurthy (1986), ‘Evidence on the Specification of Price in the Study of Domestic Water Demand’, Land Economics 62(1), 26–32.
Chowdhury, G. and S. Nickell (1985), ‘Hourly Earnings in the United States: Another Look at Unionization, Schooling, Sickness and Unemployment Using PSID Data’, Journal of Labor Economics 3(1), 38–69.
Cornwell, C. and P. Rupert (1988), ‘Efficient Estimation with Panel Data. An Empirical Comparison of Instrumental Variables Estimators’, Journal of Applied Econometrics 3(4), 149–155.
Corral, L., A. Fisher and N. Hatch (1998), Price and Non-Price Influences on Water Conservation: An Econometric Model of Aggregate Demand under Nonlinear Budget Constraint. Working Paper No. 881, Department of Agricultural and Resource Economics and Policy, University of California at Berkeley.
Dandy, G., T. Nguyen and C. Davies (1997), ‘Estimating Residential Water Demand in the Presence of Free Allowances’, Land Economics 73(1), 125–139.
Gibbons, D. (1986), The Economic Value of Water. Washington, DC: Resources for the Future.
Greene, W. H. (1993), Econometric Analysis. Englewood Cliffs, N.J.: Prentice Hall.
Hanke, S. and L. de Maré (1982), ‘Residential Water Demand: A Pooled Time Series Cross-Section Study of Malmö, Sweden’, Water Resources Bulletin 18(4), 621–625.
Hansen, L. (1996), ‘Water and Energy Price Impacts on Residential Water Demand in Copenaghen’, Land Economics 72(1), 66–79.
Hausman, J. (1978), ‘Specification Test in Econometrics’, Econometrica 46(6), 1251–1270.
Hausman, J. and W. Taylor (1981), ‘Panel Data and Unobservable Individual Effects’, Econometrica 49(6), 1377–1398.
Hewitt, J. and W. Hanemann (1995), ‘A Discrete/Continuous Choice Approach to Residential Water Demand under Block Rate Pricing’, Land Economics 71(2), 173–192.
Höglund, L. (1999), ‘Household Demand for Water in Sweden with Implications of a Potential Tax on Water Use’, Water Resources Research 35(12), 3853–3863.
Hsiao, C. (1986), Analysis of Panel Data. Cambridge: Cambridge University Press.
Kerkhofs, M. and M. Lindeboom (1997), ‘Age Related Health Dynamics and Changes in Labour Market Status’, Health Economics 6(1), 407–423.
Maresca, B., G. Poquet, L. Pouquet and K. Ragot (1997), ‘L'Eau et Les Usages Domestiques. Comportements de Consommation de l'Eau Dans Les Menages’, CREDOC Cahier de Recherche.
Nauges, C. and A. Thomas (2000), ‘Privately-Operated Water Utilities Municipal Price Negotiation, and Estimation of Residential Water Demand: The Case of France’, Land Economics 76(1), 68–85.
Nieswiadomy, M. and S. Cobb (1993), ‘Impact of Pricing Structure Selectivity on Urban Water Demand’, Contemporary Policy Issues 11(6), 101–113.
Nieswiadomy, M. L. and D. J. Molina (1989), ‘Comparing Residential Water Estimates Under Decreasing and Increasing Block Rates Using Household Data’, Land Economics 65(3), 280–289.
Nordin, J. (1976), ‘A Proposed Modification on Taylor's Demand-Supply Analysis: Comment’, Bell Journal of Economic Management and Science 7(2), 719–721.
OECD (1987), Pricing of Water Services. Paris: OECD.
OECD (1999), Household Water Pricing in OECD Countries. Paris: OECD. Unclassified document ENV?EPOC/GEEI(98) 12/FINAL.
Opaluch, J. (1982), ‘Urban Residential Demand for Water in the United States: Further Discussion’, Land Economics 58(2), 225–227.
Opaluch, J. (1984), ‘A Test of Consumer Demand Response toWater Prices: Reply’, Land Economics 60(4), 417–421.
Pint, E. (1999), ‘Household Responses to Increased Water Rates During the California Drought’, Land Economics 75(2), 246–266.
Renwick, M. and S. Archibald (1998), ‘Demand Side Management Policies for Residential Water Use: Who Bears the Conservation Burden?’, Land Economics 74(3), 343–359.
Schefter, J. and E. David (1985), ‘Estimating Residential Water Demand under Multi-Tariffs Using Aggregate Data’, Land Economics 61(3), 272–280.
Shin, J. (1985), ‘Perception of Price When Information is Costly: Evidence From Residential Electricity Demand’, Review of Economics and Statistics 67(4), 591–598.
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Martinez-Espiñeira, R. Residential Water Demand in the Northwest of Spain. Environmental and Resource Economics 21, 161–187 (2002). https://doi.org/10.1023/A:1014547616408
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DOI: https://doi.org/10.1023/A:1014547616408