CO2 emissions cause lost labor productivity - 5 minutes read
CO2 emissions cause lost labor productivity: Extreme heat days take a big economic toll, especially on countries that can least afford it -- ScienceDaily
The planet's warming climate has led to countless changes that are affecting all of us. Droughts, hurricanes, rising sea levels and forest fires -- all are now regular events in a world that saw close to 40 billion metric tons of carbon dioxide (CO) emissions released into our atmosphere last year.
Climate change may also be making outdoor labour more dangerous, according to a new study published in Scientific Reports. It was led by Yann Chavaillaz, a former postdoctoral researcher at Concordia and the Ouranos Institute, and Damon Matthews, professor and Concordia Research Chair in Climate Science and Sustainability in the Department of Geography, Planning and Environment.
The researchers examine how extreme high temperatures caused by CO emissions could lead to losses in labour productivity. Using calculations based on widely used guidelines regarding rest time recommendations per hour of labour and heat exposure, the authors found that every trillion tonnes of CO emitted could cause global GDP losses of about half a percent. They add that we may already be seeing economic losses of as much as two per cent of global GDP as a result of what we have already emitted.
They identify agriculture, mining and quarrying, manufacturing and construction as the economic sectors most vulnerable to heat exposure. These sectors account for 73 per cent of low-income countries' output, according to the authors.
"The thresholds of heat exposure leading to labour productivity loss are likely to be exceeded sooner and more extensively in developing countries in warmer parts of the world," says Matthews.
"These countries are also more vulnerable because a higher fraction of their work force is employed in these sectors and because they have less ability to implement infrastructural changes that deal with a changing climate."
The research suggests that lower-income countries will experience much stronger economic impacts than higher-income countries. Worst hit are tropical areas of the globe such as Southeast Asia, north-central Africa and northern South America.
"The labour productivity loss computed for low- and lower-middle-income countries is approximately nine times higher than the one of high-income countries," reads the report.
(The authors are also careful to point out that health recommendations are not obligatory and are often not seriously or consistently applied at real-world work sites. Their estimates of productivity loss is based on the strict adherence to health guidelines regarding labour in extreme heat.)
Matthews and his co-authors based their calculations of historical and future increases of heat exposure using simulations from eight separate Earth Systems Models. While many academic studies have estimated socioeconomic impacts of climate change, he says this paper is novel because it predicts future impacts as a direct function of CO emissions.
"The relationship between emissions and impact is pretty linear, so we are able to say that this additional quantity of CO emissions will lead to this additional increase in impact," he explains. "The impact scales pretty well with the total amount of emissions we produce."
The authors write that their research linking CO emissions to loss of labour productivity from heat exposure can help countries adopt mitigating measures. But Matthews says it may also help people change their thinking about the overall consequences of a relentlessly warming planet.
"We can see that every additional ton of CO emission that we produce will have this additional impact, and we can quantify that increase," he says. "So this study can help us point to specific countries that are experiencing a quantifiable share of the economic damages that result from the emissions we produce."
Source: Sciencedaily.com
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Greenhouse gas • Workforce productivity • Heat • Economy • Science Daily • Planet • Global warming • Climate • Drought • Tropical cyclone • Sea level rise • Wildfire • Tonne • Carbon dioxide • Carbon monoxide • Air pollution • Atmosphere • Climate change • Wilderness • Labour economics • Research • Postdoctoral researcher • Damon Matthews • Professor • Concordia University • Professor • Climatology • Sustainability • Urban planning • Natural environment • Research • Temperature • Carbon monoxide • Air pollution • Workforce productivity • Tonne • Carbon dioxide • Gross world product • Agriculture • Mining • Manufacturing • Construction • Economy • Poverty • Gross domestic product • Workforce productivity • Workforce • Infrastructure • Climate change • Research • Working class • Economy • Tropics • Earth • Southeast Asia • Central Africa • South America • Workforce productivity • Middle class • Middle class • World Bank high-income economy • Health • Employment • Productivity • Health • Labour economics • Future • Simulation • Earth • System • Socioeconomics • Climate change • Future • Air pollution • Correlation and dependence • Air pollution • Linearity • Quantity • Air pollution • Carbon monoxide • Greenhouse gas • Workforce productivity • Nation • Global warming • Planet • Tonne • Air pollution • Nation • Quantity • Air pollution •
The planet's warming climate has led to countless changes that are affecting all of us. Droughts, hurricanes, rising sea levels and forest fires -- all are now regular events in a world that saw close to 40 billion metric tons of carbon dioxide (CO) emissions released into our atmosphere last year.
Climate change may also be making outdoor labour more dangerous, according to a new study published in Scientific Reports. It was led by Yann Chavaillaz, a former postdoctoral researcher at Concordia and the Ouranos Institute, and Damon Matthews, professor and Concordia Research Chair in Climate Science and Sustainability in the Department of Geography, Planning and Environment.
The researchers examine how extreme high temperatures caused by CO emissions could lead to losses in labour productivity. Using calculations based on widely used guidelines regarding rest time recommendations per hour of labour and heat exposure, the authors found that every trillion tonnes of CO emitted could cause global GDP losses of about half a percent. They add that we may already be seeing economic losses of as much as two per cent of global GDP as a result of what we have already emitted.
They identify agriculture, mining and quarrying, manufacturing and construction as the economic sectors most vulnerable to heat exposure. These sectors account for 73 per cent of low-income countries' output, according to the authors.
"The thresholds of heat exposure leading to labour productivity loss are likely to be exceeded sooner and more extensively in developing countries in warmer parts of the world," says Matthews.
"These countries are also more vulnerable because a higher fraction of their work force is employed in these sectors and because they have less ability to implement infrastructural changes that deal with a changing climate."
The research suggests that lower-income countries will experience much stronger economic impacts than higher-income countries. Worst hit are tropical areas of the globe such as Southeast Asia, north-central Africa and northern South America.
"The labour productivity loss computed for low- and lower-middle-income countries is approximately nine times higher than the one of high-income countries," reads the report.
(The authors are also careful to point out that health recommendations are not obligatory and are often not seriously or consistently applied at real-world work sites. Their estimates of productivity loss is based on the strict adherence to health guidelines regarding labour in extreme heat.)
Matthews and his co-authors based their calculations of historical and future increases of heat exposure using simulations from eight separate Earth Systems Models. While many academic studies have estimated socioeconomic impacts of climate change, he says this paper is novel because it predicts future impacts as a direct function of CO emissions.
"The relationship between emissions and impact is pretty linear, so we are able to say that this additional quantity of CO emissions will lead to this additional increase in impact," he explains. "The impact scales pretty well with the total amount of emissions we produce."
The authors write that their research linking CO emissions to loss of labour productivity from heat exposure can help countries adopt mitigating measures. But Matthews says it may also help people change their thinking about the overall consequences of a relentlessly warming planet.
"We can see that every additional ton of CO emission that we produce will have this additional impact, and we can quantify that increase," he says. "So this study can help us point to specific countries that are experiencing a quantifiable share of the economic damages that result from the emissions we produce."
Source: Sciencedaily.com
Powered by NewsAPI.org
Keywords:
Greenhouse gas • Workforce productivity • Heat • Economy • Science Daily • Planet • Global warming • Climate • Drought • Tropical cyclone • Sea level rise • Wildfire • Tonne • Carbon dioxide • Carbon monoxide • Air pollution • Atmosphere • Climate change • Wilderness • Labour economics • Research • Postdoctoral researcher • Damon Matthews • Professor • Concordia University • Professor • Climatology • Sustainability • Urban planning • Natural environment • Research • Temperature • Carbon monoxide • Air pollution • Workforce productivity • Tonne • Carbon dioxide • Gross world product • Agriculture • Mining • Manufacturing • Construction • Economy • Poverty • Gross domestic product • Workforce productivity • Workforce • Infrastructure • Climate change • Research • Working class • Economy • Tropics • Earth • Southeast Asia • Central Africa • South America • Workforce productivity • Middle class • Middle class • World Bank high-income economy • Health • Employment • Productivity • Health • Labour economics • Future • Simulation • Earth • System • Socioeconomics • Climate change • Future • Air pollution • Correlation and dependence • Air pollution • Linearity • Quantity • Air pollution • Carbon monoxide • Greenhouse gas • Workforce productivity • Nation • Global warming • Planet • Tonne • Air pollution • Nation • Quantity • Air pollution •