Boston College study the first to link income inequality and growth in carbon emissions at the state level

Chestnut Hill, Mass. (4/6/2017) – Across the U.S., state-level carbon emissions are higher in states where income is more highly concentrated among the wealthiest residents, according to a new study by two Boston College researchers.

On a global level, the connection between national wealth and carbon emissions has been well documented. The study, by sociologists Andrew Jorgenson and Juliet Schor, is the first to link income inequality and carbon emissions within and across the individual U.S. states.

The study found that state-level carbon emissions between 1997 and 2012 were positively associated with the income share of the top 10 percent of a state’s population, according to the findings, published online and in the April edition of the journal Ecological Economics.

Using the 2012 state data for carbon emissions, and based on the statistical analysis reported in the research article, a one percent increase in the income share of the top 10 percent of a state’s population results in tons of additional carbon emissions, led by:

1. Texas – 812,325 to 934,174 metric tons

2. California – 437,035 to 502,590 metric tons

3. Pennsylvania – 284,980 to 327,728 metric tons

4. Florida – 269,030 to 309,395 metric tons

5. Illinois – 261,170 to 300,966 metric tons

6. Ohio – 260,622 to 299,716 metric tons

7. Louisiana – 246,618 to 283,611 metric tons

8. Indiana – 232,886 to 237,819 metric tons

9. New York – 196,234 to 225,670 metric tons

10. Michigan – 184,835 to 212,560 metric tons

South Carolina was the median in the analysis, with income share growth adding 89,175 to 102,551 metric tons of carbon emissions in 2012. The District of Columbia saw the lowest growth in carbon emissions at an increase of 3,251 to 3,738 metric tons for each 1 percent increase in wealth.

The findings come as states are increasingly taking the lead in their own environmental protection. California Gov. Jerry Brown recently pledged the state would maintain its broad environmental regulations, regardless of any federal shift toward deregulation.

“We think it is safe to say, in terms of environmental policy and action, it is going to be much more active at the state level than the federal level,” said Jorgenson, a professor of sociology and environmental studies. “Given the uncertainty of the regulatory environment at the federal level, states like California are saying they will not move away from their policies even if the federal agenda on climate change makes a 180-degree turn from the prior administration.”

Spending power drives carbon-intensive consumerism. But so do the political clout and economic power of the wealthiest individuals, according to Jorgenson and Schor, whose analysis with co-author and BC graduate student Xiaorui Huang employed established economic models that assess the political and economic influence of individual wealth on society.

“First, income concentration leads to concentrated political power and the ability to prevent regulations on carbon emissions,” said Schor, a professor of sociology. “Second, high income consumers are disproportionate carbon polluters.”

The researchers tested the influence of a well-established statistical measure of income inequality, known as the Gini coefficient. That analytical tool reports inequality in a general sense, but doesn’t show where inequality exists, said Jorgenson. So the researchers turned to a measure that captures the top 10 percent of a state’s population.

“What we find here in the context of income inequality and carbon emissions is that it’s about the concentration of income at the top of the distribution,” said Jorgenson. “In our statistical models, where the Gini coefficient is non-significant, across the board the wealth of the top 10 percent is. That tells us that it really is about income concentration at the top end of the distribution.”

In addition to income, the analysis weighed additional factors – some already well-established as contributors to carbon emissions – such as population size, per capita gross domestic product, urbanization, manufacturing as a percentage of state GDP, fossil fuels production, and the level of state’s commitments to environmental regulation.

The researchers drew from a broad array of sources, including statistics from the U.S. Environmental Protection Agency, U.S. Census Bureau, the U.S. Department of Commerce, the U.S. Energy Information Administration, the League of Conservation Voters, and databases including the U.S. State-Level Income Inequality Database at Sam Houston State University and the internationally supported World Wealth and Income Database.

In addition to advancing the understanding of the factors that force changes in the climate, Jorgenson said the findings contribute to a more expansive view of the harmful effects of income inequality, which has been shown to foster poor outcomes in measures such as health and well being.

“Equalizing incomes has all kinds of potential benefits,” Jorgenson said. “This suggests a holistic view of sustainability, equalizing income distribution within the U.S. can have social and environmental benefits. And they can have a global benefit too, since the U.S. is such a significant contributor to climate change.”

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Income Inequality and Carbon Emissions in the United States: A State-level Analysis, 1997–2012 (paywalled, so don’t bother with the link)

Andrew Jorgensona,  Juliet Schorb, Xiaorui Huangb

Abstract
This study investigates the relationship between U.S. state-level CO2 emissions and two measures of income inequality: the income share of the top 10% and the Gini coefficient. Each of the inequality measures, which focus on unique characteristics of income distributions, is used to evaluate the arguments of different analytical approaches. Results of the longitudinal analysis for the 1997 to 2012 period indicate that state-level emissions are positively associated with the income share of the top 10%, while the effect of the Gini coefficient on emissions is non-significant. The statistically significant relationship between CO2 emissions and the concentration of income among the top 10% is consistent with analytical approaches that focus on political economy dynamics and Veblen effects, which highlight the potential political and economic power and emulative influence of the wealthy. The null effect of the Gini coefficient is generally inconsistent with the marginal propensity to emit approach, which posits that when incomes become more equally distributed, the poor will increase their consumption of energy and other carbon-intensive products as they move into the middle class.

Cores!

Guest post by David Middleton

A precious collection of ice cores from the Canadian Arctic has suffered a catastrophic meltdown. A freezer failure at a cold storage facility in Edmonton run by the University of Alberta (UA) caused 180 of the meter-long ice cylinders to melt, depriving scientists of some of the oldest records of climate change in Canada’s far north.

The 2 April failure left “pools of water all over the floor and steam in the room,” UA glaciologist Martin Sharp told ScienceInsider. “It was like a changing room in a swimming pool.”

The melted cores represented 12.8% of the collection, which held 1408 samples taken from across the Canadian Arctic. The cores hold air bubbles, dust grains, pollen, and other evidence that can provide crucial information about past climates and environments, and inform predictions about the future.

The storage facility is normally chilled to –37°C. But the equipment failure allowed temperatures to rise to 40°C, melting tens of thousands of years of history. Among the losses: some of the oldest ice cores from Mount Logan, a 5595-meter-high mountain in northern Canada. “We only lost 15 meters [of core], but because it was from the bottom of the core, that’s 16,000 years out of the 17,700 years that was originally represented,” Sharp says.

Scientists also lost 66 meters of core from Baffin Island’s Penny Ice Cap, which accounts for 22,000 years—a quarter of the record. That leaves “a gap for the oldest part, which is really the last glaciation before the warming that brought us into the present interglacial,” Sharp says.

[…]

Science

Apparently the meltdown was due to two three malfunctions:

Investigation points to two malfunctions

An investigation into the freezer malfunction found fault with the cooling system. Specifically, the refrigeration chillers shut down due to “high head pressure” conditions. Essentially, the chillers were not able to reject their heat through the condenser water system—heat instead of cold circulated through the freezer.

Compounding matters, the system monitoring the freezer temperatures failed due to a database corruption. The freezer’s computer system was actually sending out alarm signals that the temperature was rising, but those signals never made it to the university’s service provider or the on-campus control centre.

In the short term, refrigeration technicians are monitoring the freezers through twice-daily checks, Sharman said. The computer database corruption was resolved by adding a second monitoring controller, which is now issuing real-time messaging updates every eight hours.

[…]

University of Alberta

1. The “chillers” circulated heat through the freezer.
2. Database corruption prevented the alarm signals from reaching their destination.
3. The failure to visually inspect the freezers on a daily basis before 1 & 2.