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Pollution, public health and social welfare

Pollution, public health and social welfare. WP 7: Social dimension. Social block. Labor market Health and labor market effects of pollution Income distribution (poverty and inequality). Health effects of pollution in a CGE model.

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Pollution, public health and social welfare

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  1. Pollution, public health and social welfare WP 7: Social dimension

  2. Social block • Labor market • Health and labor market effects of pollution • Income distribution (poverty and inequality)

  3. Health effects of pollution in a CGE model • Mayeres and Van Regemorter (2003), GEM-E3 (economy-energy-environment). • Consider 5 energy-related pollutants (CO2, nitrogen oxides (NOx), sulphur dioxide (SO2), volatile organic compounds (VOC) and particulates (PM)) and translates them into concentration or deposition of pollutants (ambient concentration) • To restore health, you need money and time inputs • Introduce health into the utility function • Health production function (health index). Money is necessary to buy medical services. Public health expenditures: price subsidies to co-finance private expenditures on medical care. • Pollution reduces the total available time of HH. • Feedback effects: • Pollution reduces the total available time of HH, hence, income and labor and leisure decisions (directly and via income). • Pollution affects labor productivity (labor in efficient units decreases) • Yang, Matus, Paltsev and Reilly (2005), EPPA (Emissions Prediction and Policy Analysis) model, MIT • Consider six pollutants (tropospheric ozone (O3), nitrates, SO2, CO, and particulate matter (PM 10, PM 2.5)) • Introduce household healthcare production sector to combat adverse effects of pollution • The HHP relies on hh labor and medical services bought in the market. Separate production relationships for health effects of each pollutant.

  4. Health effects in GEM-E3 • Representative consumer, two level nested LES utility function (as in the standard GEM-E3) but with a health component. Direct effect of pollution: do we need a separable effect of air pollution on utility? • Health production function (health index) • Budget constraint • Public health expenditures: transfers from the budget to finance private expenditures on health or a subsidy in price? • or MED=MEDHH – MEDPUB, and MEDHH in HP • Feedback on LS: pollution reduces the total available time, hence, income and labor and leisure decisions. Reflects time costs of investment into health.

  5. Health-related effects in production • In addition, the productivity of labor in the production sectors is affected. • A way to introduce the effect of deteriorated health on productivity (labor in efficiency units decreases) and the institutional setting where the monetary effects of time of illness are shared by households and employers • A rise in air pollution reduces labor productivity: more labor is needed to produce one unit of output (via gamma function - % of working days lost) • The increased costs of labor induce a substitution towards the other production factors

  6. An alternative: MIT Emissions Prediction and Policy Analysis (EPPA) model

  7. Household production (HHP) sector in EPPA • Household production sector that provides a “pollution health service” to final consumption to capture economic effects of morbidity and mortality from acute exposure. This household production sector is shown as “household mitigation of pollution health effects.” • It uses “health services” (i.e., hospital care and physician services) from the SERV sector of EPPA and household labor to produce a health service. • The household labor is drawn from labor and leisure and thus reduces the amount available for other uses; i.e., an illness results in purchase of medical services and/or patient time to recover when they cannot work or participate in other household activities.

  8. Parameters to calibrate • Parameters of the utility function, the health production function and the production functions are to take into account the air pollution externalities. • Θm(total time reduction due to pollution) and β1m/β2 (parameters in health function) are identified based on estimation of marginal WTP for a reduction in the ambient concentration of pollutant m and the equation from FOC • WTP for a reduction in the ambient concentration of pollutant is based on the environmental cost estimates by the European research project ExternE (partially based on US WTP surveys) • α ‘s of the LES utility function are calibrated such as to target labor supply elasticity.

  9. ExternE • Presents estimates for the total damage of air pollution, including the mortality, morbidity and non-health related impacts • For the calibration of the model these values need to be decomposed further by distinguishing between • different economic agents (consumers, producers and government) • different components of the MWTP (i.e., time cost, nonseparable health cost and separable cost component).

  10. Valuation of damage • Assessment of the value (in monetary terms) of the environmental damages caused by the incremental pollution (compared to a reference situation). Damage to public health include acute morbidity and mortality, chronic morbidity. • For the monetary valuation of the physical damage, a valuation function VAL for the physical damage is used. • Mortality is evaluated at either statistical value of life or at lost life year value. • The economic valuation of morbidity effects of the damage should be based on the willingness-to-pay or willingness to accept concept. • For market-goods, the valuation can be performed using the market price. • When impacts occur in non-market goods, three broad approaches have been developed to value the damages: contingent valuation, hedonic price method and travel cost method. • Costs related to hospital costs could be treated as a demand for medical services, lost work time - as a reduction in the labor force (in money equivalents), and damages beyond these market effects as a loss of leisure. • Alternatively, if non-market effects could be omitted, then the components of value are measures of the quantity of labor or leisure lost, or of the quantity of medical services required to treat the health effect. A hospitalization day is then valued at the average cost of a day in the hospital to treat the endpoint; and lost work time is valued at the average wage rate.

  11. Labor market • Walrasian framework vs search/matching • Adjustment via wages rather than quantity • Unemployment (voluntary?)

  12. Income distribution issues • CGE model with representative agents (CGE-RH) • Integrated multi-households CGE analysis (CGE-IMH) • Sequential micro-simulation approach (CGE-SMS)

  13. CGE model with representative agents • Basic idea: poverty analysis is performed by using the variation of income of RH generated by CGE model • “+”: • the easiest model to implement; widely used in the literature; • “-”: • there is no intra-group income distribution change (or it is linked to a theoretical statistical relationship between average and variance of the lognormal distribution, so there is no economic behavior behind this change in intra-group distribution)

  14. Integrated multi-households CGE analysis • Basic idea: large number of representative households; the idea is to add as many households in the CGE model as could be found in income and expenditure household surveys. • “+”: • quite easy to implement; • allow for intra-group income distributional changes as well as leaving the modeler free from pre-selecting household grouping or aggregation; • a modeler can perform any decomposition of poverty and income distribution analysis • “-”: • the model dimension can quickly become a constraint • the model imposes some limits in terms of microeconomic household behavior (for example, modeling that introduces switching regimes are not easily modeled with standard CGE software)

  15. Sequential micro-simulation approach • Basic idea: • the approach is to use the CGE model to generate a price vector (including wage rates) • a household micro-simulation (HHMS) model is used to calculate the household behavior (consumption and labor supply). • The aggregate vectors from HHMS (consumption and LS) are then fed into the CGE model in which they are now exogenous variables and the iteration process continues until the results, between two iteration processes for all variables, are equal to zero. • “+”: • Richness in household behavior; • “-”: • Coherence between the macro and micro models can be imperfect

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