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Adapting to Changing Labor Productivity as a Result of Intensified Heat Stress in a Changing Climate
- Source :
- GeoHealth, GeoHealth, Vol 5, Iss 4, Pp n/a-n/a (2021)
- Publication Year :
- 2021
- Publisher :
- John Wiley and Sons Inc., 2021.
-
Abstract
- The intensification of heat stress reduces the labor capacity and hence poses a threat to socio‐economic development. The reliable projection of the changing climate and the development of sound adaptation strategies are thus desired for adapting to the decreasing labor productivity under climate change. In this study, an optimization modeling approach coupled with dynamical downscaling is proposed to design the optimal adaptation strategies for improving labor productivity under heat stress in China. The future changes in heat stress represented by the wet‐bulb globe temperature (WBGT) are projected with a spatial resolution of 25 × 25 km by a regional climate model (RCM) through the dynamical downscaling of its driving global climate model (GCM). Uncertain information such as system costs, environmental costs, and subsidies are also incorporated into the optimization process to provide reliable decision alternatives for improving labor productivity. Results indicate that the intensification of WBGT is overestimated by the GCM compared to the RCM. Such an overestimation can lead to more losses in working hours derived from the GCM than those from the RCM regardless of climate scenarios. Nevertheless, the overestimated heat stress does not alter the regional measures taken to adapt to decreasing labor productivity. Compared to inland regions, the monsoon‐affected regions tend to improve labor productivity by applying air conditioning rather than working overtime due to the cost differences. Consequently, decision‐makers need to optimally make a balance between working overtime and air conditioning measures to meet sustainable development goals.<br />Key Points An optimization model coupled with dynamical downscaling is developed to improve labor productivity under intensified heat stress in ChinaCivilian workers in inland regions will be more vulnerable to the intensified heat stress in a changing climateCompared to the regional climate model, the global climate model overestimates heat stress and thus exaggerates related system costs to recover from the working hour loss
- Subjects :
- labor productivity
Epidemiology
adaptation
Biogeosciences
Volcanic Effects
heat stress
Global Change from Geodesy
Volcanic Hazards and Risks
Oceans
Sea Level Change
Stochastic Phenomena
Disaster Risk Analysis and Assessment
Waste Management and Disposal
Water Science and Technology
Global and Planetary Change
Climate and Interannual Variability
Overtime
Subsidy
Pollution
Climate Impact
Earthquake Ground Motions and Engineering Seismology
Explosive Volcanism
Earth System Modeling
Atmospheric Processes
Probability Distributions, Heavy and Fat‐tailed
Ocean Monitoring with Geodetic Techniques
Ocean/Atmosphere Interactions
Mathematical Geophysics
Atmospheric
Regional Modeling
Downscaling
Atmospheric Effects
Volcanology
Temporal Analysis and Representation
Management, Monitoring, Policy and Law
Hydrological Cycles and Budgets
Decadal Ocean Variability
Land/Atmosphere Interactions
Extreme Events
TD169-171.8
Geodesy and Gravity
Global Change
Time Series Analysis
Air/Sea Interactions
Numerical Modeling
Solid Earth
Geological
Ocean/Earth/atmosphere/hydrosphere/cryosphere interactions
Water Cycles
Public Health, Environmental and Occupational Health
Modeling
Avalanches
Volcano Seismology
Benefit‐cost Analysis
Space Plasma Physics
Computational Geophysics
Regional Climate Change
Scaling: Spatial and Temporal
Natural Hazards
Abrupt/Rapid Climate Change
Informatics
Natural resource economics
Health, Toxicology and Mutagenesis
Surface Waves and Tides
Atmospheric Composition and Structure
Time Series Experiments
Environmental protection
dynamical downscaling
Volcano Monitoring
uncertainty
Seismology
Climatology
Nonlinear Geophysics
Radio Oceanography
Gravity and Isostasy
Marine Geology and Geophysics
Physical Modeling
Oceanography: General
Air conditioning
Cryosphere
Impacts of Global Change
Oceanography: Physical
Research Article
Risk
Persistence, Memory, Correlations, Clustering
Oceanic
Theoretical Modeling
Climate change
Radio Science
Tsunamis and Storm Surges
Paleoceanography
Climate Dynamics
Productivity
Numerical Solutions
Sustainable development
Climate Change and Variability
Stochastic Processes
Effusive Volcanism
business.industry
Climate Variability
General Circulation
Policy Sciences
Climate Impacts
Mud Volcanism
Air/Sea Constituent Fluxes
Mass Balance
interval programming model
Ocean influence of Earth rotation
Volcano/Climate Interactions
Environmental science
Climate model
Hydrology
business
Sea Level: Variations and Mean
Subjects
Details
- Language :
- English
- ISSN :
- 24711403
- Volume :
- 5
- Issue :
- 4
- Database :
- OpenAIRE
- Journal :
- GeoHealth
- Accession number :
- edsair.doi.dedup.....675309e0acdbeaba42b1c12e1bd2ee91