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March 2nd, 2019

US factories are polluting less, but regulation rollbacks threaten air quality

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Estimated reading time: 5 minutes

Blog Admin

March 2nd, 2019

US factories are polluting less, but regulation rollbacks threaten air quality

0 comments

Estimated reading time: 5 minutes

Stringent environmental regulation explains most of the decrease in pollution emissions from US manufacturing, write Joseph S. Shapiro and Reed Walker.

In the 1960s, there were worries that U.S. economic growth would lead to increasingly dangerous levels of pollution, and that by the year 2000, air pollution would make cities like Los Angeles and New York uninhabitable. Instead, U.S. air quality has improved dramatically since then. Between 1990 and 2008, emissions of the most common air pollutants from U.S. manufacturing fell by about two-thirds, even as real output from U.S. manufacturing grew substantially (see Figure 1). The U.S. Environmental Protection Agency estimates that the reduction in U.S. air pollution since 1990 prevented several hundred thousand premature deaths annually, so it is important to understand its causes. How do U.S. manufacturers produce more now, while polluting less?

Figure 1 – Trends in manufacturing pollution emissions and real output

Existing research suggests at least three explanations: regulations, productivity growth, and trade. Some researchers have identified regulations as a factor, with federal and state agencies requiring firms to limit their pollution footprint by installing pollution abatement technologies (Henderson 1996; Chay and Greenstone 2003). Productivity growth might also explain the decrease in U.S. pollution as manufacturers use fewer dirty raw materials each year to produce the same amount of manufactured goods. Figure 2 illustrates evidence of this conclusion, showing a strong negative relationship between manufacturing productivity and pollution per unit of output. As polluting industries, such as steel and cement, have moved abroad to places like China in recent decades, it is reasonable to identify trade as a driver of large decreases in pollution (Fowlie, Reguant, and Ryan 2016).

Figure 2 – Plant level pollution intensity vs. total factor productivity

Comparing these Explanations

This research seeks to identify how each of these causes contributed to changes in pollution emissions from U.S. manufacturing firms using two complementary approaches.

The first approach uses national production data for nearly every manufacturing product and year from 1990-2008 to categorize the changes in pollution into three channels: 1) changes in the total output of manufacturing, 2) changes in the types of products produced, and 3) changes in the amount of pollution emitted per unit of output within each product category.

The paper’s second approach develops a quantitative model of how individual firms behave in response to policies like environmental regulation or tariffs. The analysis uses the model to determine the extent to which the observed changes in pollution are due to changes in environmental regulation, productivity, and trade, respectively.

The research also develops a methodology to quantify the total regulatory burden that air quality regulation imposes on U.S. manufacturing firms. The framework summarises the full set of environmental regulations that firms face as a per-ton tax on pollution emissions. In reality, U.S. environmental regulation by federal, state, and local authorities takes many overlapping and sometimes conflicting forms: command-and-control policies, cap-and-trade systems, pollution taxes, and others. This research summarises this menu of regulations according to the shadow price of pollution (i.e., what the cost of all the disparate regulations would be if they were replaced with one, single pollution tax) and provides an appealing way to obtain a single measure of the national stringency of regulation.

To study these questions, the research uses newly available, administrative data from the U.S. Census Bureau and Environmental Protection Agency with detailed information on plant-level productivity, pollution emissions, and output by physical product to observe the role of trade, the role of regulation, and the role of productivity growth.

1. Role of Trade

Changes in the scale of manufacturing output or changes to the composition of goods produced, cannot explain most of the trends in pollution emissions from U.S. manufacturing between 1990 and 2008. Some may find this surprising, since many people assume that the increasing importance of services and increased production of high-tech goods like smartphones and microchips in the U.S. would have decreased the importance of dirty manufacturing production like steel and cement. However, the types of products U.S. manufacturers are producing were just as dirty in 2008 as they were in 1990, but the techniques they are using to make these products have changed in ways that decrease pollution emissions.

Why didn’t Chinese or other foreign competition more substantially affect U.S. pollution over this time period? While U.S. imports from China are concentrated in low-skilled sectors, they are not especially concentrated in dirty industries. Moreover, the effect of China’s growth on manufacturing output was much smaller than its effect on employment. While U.S. manufacturing employment fell, output did not. One effect of foreign competition could be to shift the composition of U.S. production to cleaner or dirtier types of products. The fact that the composition of U.S. manufacturing has changed little between cleaner or dirtier products provides little evidence that such a shift occurred.

2. Role of regulation

The implicit pollution tax that U.S. manufacturing firms face as a result of myriad regulations more than doubled between 1990 and 2008. For example, if all air pollution regulations for U.S. manufacturers were replaced with a single equivalent tax on pollution emissions, that tax rate would have increased by more than 100 per cent between 1990 and 2008. The increasing stringency of environmental regulation accounts for much of the 1990-to-2008 decrease in pollution emissions from U.S. manufacturing.

3. Role of productivity growth

Despite the plant-level relationship between pollution and productivity documented in Figure 2, changes in productivity had smaller effects on U.S. pollution emissions at the economy-wide level. While productivity growth reduced pollution per unit of output, productivity growth also increased the total level of output. Productivity allows workers, machines, fossil fuels, and other productive inputs to be reallocated to new uses, and those new uses also emit pollution. Unless productivity growth differs substantially between clean and dirty industries, it has limited ability to affect pollution.

To test the relevance of this analysis, the study compares the inferred pollution tax against one important regulation — the NOx Budget Trading Program, which is a cap-and-trade system for manufacturing plants and electricity generation units. The analysis shows that the inferred measure of pollution taxes jumps substantially in regulated states and industries in the years after this regulation began (see Figure 3).

Figure 3 – NOx pollution tax changes as a function of NOx budget trading program status

Since a variety of forces may have contributed to the reduction in U.S. manufacturing pollution emissions, it is important to quantify the respective roles of environmental regulation, productivity, and trade. Although productivity and trade have an effect, the study finds that increases in the stringency of environmental regulation account for the large majority of the decrease in pollution emissions from U.S. manufacturing.

While the findings do not focus on a single policy lever or regulatory reform, they do broadly suggest that environmental regulation is a primary driver of changes in pollution emissions from U.S. manufacturing.

U.S. environmental regulations consist of a large set of policies, many of which have proven difficult to evaluate; however just as many studies found that regulation in the 1970s enormously decreased pollution emissions, this study suggests that widespread rollbacks of air quality regulation today could result in substantial increases in pollution emissions from U.S. manufacturing. Simply put, regulations have been, and will continue to be, the most effective policy tool to reduce pollution in the U.S.

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Note:  This article gives the views of the author, and not the position of USAPP– American Politics and Policy, nor of the London School of Economics.  

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About the authors

Joseph S. Shapiro – University of California, Berkeley
Joseph S. Shapiro is an associate professor in the department of agricultural and resource economics at the University of California, Berkeley, and faculty research fellow at the National Bureau of Economic Research. He was previously assistant professor in the department of economics at Yale. His research agenda investigates the efficiency and effectiveness of environmental and energy policy. This agenda covers two main research areas: pollution, regulation, and trade; and defences against environmental externalities. Shapiro has received an Alfred P. Sloan Research Fellowship and Marshall Scholarship, and funding from the National Science Foundation and the Environmental Protection Agency. He holds a Ph.D. in economics from MIT, Masters degrees from Oxford and LSE, and a BA from Stanford.

Reed Walker – University of California, Berkeley
Reed Walker is an associate professor at the Haas School of Business and the department of economics at the University of California, Berkeley. He is co-director of the university’s Climate and Environment Initiative, a research associate at the Energy Institute at Haas and at the National Bureau of Economic Research, as well as a research fellow at the Institute for the Study of Labor (IZA). He has a PhD and an M.A. in economics from Columbia University and a B.A. in mathematical economics from Colgate University.

 

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