Typology for industry

I propose a typology that classifies industries by the type of impact policyFootnote ²⁶ has on them. Policy typically requires industry to change activity associated with production. Change is costly in several ways; it can:

• • eliminate demand for previously profitable products;

• • entail shifts in capital investment, requiring new investments and/or retirement of assets before the end of their useful lifetime;

• • raise input costs for downstream users of impacted products by imposing costs on upstream producers.

Change can also be beneficial to industries that sell alternatives to polluting products, or that are better able to adapt to new paradigms than their competitors.

Typology

Winners: Winner industries directly benefit from environmental policy, because they provide goods or services for which policy expands demand. In the context of decarbonization, manufacturers of renewable generation equipment are an example. Winner industries have an interest in environmental policy and are expected to support it.

Losers: Loser industries are those for which a) environmental policy represents a potential existential threat,Footnote ²⁷ typically because the goods or services they provide directly embody negative environmental impacts (e.g., their products are themselves pollutants),Footnote ²⁸ meaning that relevant control policy is likely to result in a catastrophic reduction in the market for their current product lines; and b) do not have the capability to readily switch to producing non-polluting substitute products. In the context of decarbonization, the coal industry would be an example. Coal is nothing more than combustible carbon, and coal companies typically do not have the technological capacity to manufacture non-polluting energy products like solar panels or wind turbines. Loser industries have the strongest interest in avoiding environmental policy and are expected to most strongly oppose it.

Convertible: Convertible industries are industries that make polluting products but do have the capability to switch to non-polluting products. Like Losers, they initially provide goods or services that are polluting and will be directly threatened by environmental policy. Unlike Losers, Convertible industries have the expertise and capability to shift production to non-polluting alternatives. In the context of decarbonization, utilities and auto manufacturers would be Convertibles; they make carbon-emitting products initially, but their core capabilities are applicable to very similar non-emitting or low-emitting substitutes. Such a shift imposes transition costs, e.g., in new production facilities. But if the shift is made, these companies’ material interests change fundamentally: They transition from having an interest in opposing pollution controls to having an interest in supporting pollution controls to support markets for the non-polluting substitutes they have invested in.

Management: The prior categories make polluting goods and services or their substitutes; Management industries are largely those that either use polluting goods and services as inputs or create pollutants only as wastes secondary to production inputs (in climate, transportation is an example: vehicles burn fossil fuels and create GHG wastes as an input to the transportation service provided). Here, the primary impact of policy is to make a production input or process costlier. Management industries respond by either modifying processes (e.g., increasing efficiency, eliminating or substituting an input, or introducing additional controls on wastes) or bearing ongoing costs (e.g., of a taxed input or waste, or more-expensive substitute).

Because either strategy entails costs, Management industries typically resist environmental policy. Management industries differ from Losers in that environmental policy does not pose an existential threat to them; therefore, they don't typically resist policy as strongly as Losers do.Footnote ²⁹ Conversely, they differ from Convertible industries in that simply paying increased costs for production upgrades or inputs does not change fundamental industry interests because it does not change what is produced, only how. Therefore, initial policy does not make Management industries more likely to support future, more stringent policy, though they may become more tolerant of existing policy to which they have adapted.

To some extent, Management industries are defined by what they are not: They do not benefit from policy (not Winners), do not face an existential threat (they can continue to operate, at some cost), and do not fundamentally change their interests (business as usual continues, just at a higher cost). In ozone, auto manufacturing was a Management industry: auto producers had to shift to using more expensive air conditioning modules with CFC substitutes. This increased input costs for auto manufacturers, which they disliked, but was ultimately a minor adjustment that neither posed an existential threat nor created a novel interest in supporting additional ozone controls.

Applying the typology

The conceptually important difference between types is how they change in response to initial rounds of policymaking. Industry mix within a jurisdiction matters because it governs the likely nature of industry changes in response to initial policy moves, and the likely speed with which those responses change policy coalitions, creating feedback. Winners and Losers change in size—growing or shrinking based on the distributional impacts of policy—but their interests stay constant. Management industries don't undergo major changes to either size or interests; by definition, policy-imposed costs for Management industries must be managed and absorbed, but do not cause fundamental change.

Convertible industries, however, are the industries whose interests may change. If initial policy pushes Convertible industries over the conversion barrier, they can rapidly change position from opposing to supporting policy, for two reasons. First, additional, more stringent policymaking can act to solidify markets for new non-polluting products, preventing wasted investment. Second, when companies within a Convertible industry respond at different rates, first movers may support further policymaking simply because it advantages them against slower-moving competitors.

Case selection and methodology

I explore two case studies in depth and two more briefly. Case study material derives from qualitative research using primary and secondary source material and reviews of archived news reporting, which is used, particularly in the in-depth cases, to support process tracing of relevant political dynamics.

Ozone

Scientists recognized in the 1970s that certain classes of chemicals deplete the stratospheric ozone layer,Footnote ³⁵ which provides protection from solar UV radiation. This developing understanding resulted in policymaking efforts to control ozone depleting substances (ODS), first domestically and later, beginning with negotiations in 1985, internationally.

A variety of chemicals widely in use at the beginning of this policymaking process were implicated by ODS controls. Most salient were the chlorofluorocarbons (CFCs), a family of chemicals used in aerosol sprays, cooling applications, solvents, and in the manufacture of foams and packing materials. Other initial targets of policymaking included halons (fire extinguishers and refrigerants); methyl chloroform (primarily a solvent); carbon tetrachloride (used as a fire suppressant, a solvent, and a CFC precursor); and other less widely-used chemicals. In later rounds of negotiation, some additional substances were added to the list of targets for negotiated reductions. These included hydrochlorofluorocarbons (HCFCs), partial substitutes for CFCs with lower but non-zero ozone depleting potentials; and methyl bromide, primarily used in agricultural fumigation.

Reduction of ODS in practice happened two ways: In some applications, the chemical could be entirely eliminated, as in aerosol sprays. Other applications required the substitution of chemicals with comparable properties but lower ozone depleting potential. Applications of this second type typically shifted to either HCFCs, a well-known class of chemicals with, as noted above, a lower ozone depleting potential; or hydrofluorocarbons (HFCs), chemicals whose production technology was less well-developed and more expensive, but which had zero ozone depleting potential.

Industries and their classification

As implied by this summary, there was a set of industries that produced and used these chemicals and would be significantly impacted by ODS controls:

• Chemicals manufacturers—particularly a small set of large chemical manufacturers in the United States, United Kingdom, France, and Germany—had the expertise to manufacture both ODS and their substitutes.

• Manufacturers of refrigerators, building air conditioning units, and similar cooling equipment as well as the automobile and automobile equipment industries used ODS because they were, at the time, the chemicals best suited to make safe, low-cost, effective cooling devices.

• The semiconductor and electronics manufacturing industries used ODS as manufacturing solvents.

• The agriculture industry used methyl bromide extensively to eliminate pests and sterilize soil.

• There were also niche applications; however, these were smaller-volume, less politically relevant, and could be handled with exemptions, if necessary.

What is important to note is that these industries are mostly Convertible and Management industries. Because the production of CFCs, HCFCs, and HFCs all use related expertise, the same companies that made CFCs were also the makers of non-depleting substitutes. Therefore, the chemicals industry, the industry most directly impacted by ODS controls, was a classic Convertible industry: It had the ability to make both polluting and (after a certain amount of capital investment in new production facilities) non-polluting goods.

Meanwhile, most of the other industries impacted used CFCs as inputs. These industries are Management industries; their use of polluting inputs exposed them to input and process costs. Given the availability of substitutes, policy was not an existential threat; but neither did adaptation give these industries novel interests in additional policy. One exception is agriculture, which, as I discuss below, was the sole major industry to behave like a Loser in this case.

Convertible and management industries and ozone policy

Changes in the interests of the Convertible chemicals industry underpin the speed of international ozone policymaking. The negotiations began in Vienna in 1985, a round where efforts produced the Vienna Convention but no actual ODS controls; 1987 produced the Montreal Protocol, a moderate agreement requiring partial cuts in some ODS; and proceeded through two more major negotiating rounds in London (1990) and Copenhagen (1992) that twice significantly raised the stringency and broadened the scope of policy. Between 1985 and 1992, the world went from being unable to agree on any binding ODS reduction to putting in place a series of stringent controls that addressed the bulk of the ozone depletion problem.

Although negotiations were nominally global, in practice there were a set of key players in the ozone negotiations. Because these countries hosted the vast majority of ODS production, they essentially controlled the fate of the ozone negotiations as well. These players were the United States (host to CFC producers DuPont and several other smaller producers); Britain (Imperial Chemical Industries (ICI)); France (Atochem); and Germany (Hoechst). Japan and the USSR also produced ODS in meaningful quantities, but were not major players because their concerns were satisfied early on: The USSR got a clause in the Montreal Protocol that grandfathered in its contemporary planned capacity,Footnote ³⁶ while Japan's main concern was the use of CFC-113 in its semiconductor industry, which was dealt with via arrangements that allowed it flexibility in meeting its requirements.Footnote ³⁷

Initially, the main advocates for controls were the United States and various less powerful northern European countries (which had greater exposure to ozone thinning). In 1986, Germany swung from opposition to support of controls, after which the United States was able to successfully push for international policy in the form of the Montreal Protocol in 1987—as noted above, a moderate agreement with partial ODS cuts. By 1990, the United Kingdom had also begun actively supporting controls, leaving only France resisting, and allowing for a more stringent amendment to the Protocol. In 1992, even France was on board, and controls tightened further.

Understanding the potential for change in the Convertible chemicals industry is key to understanding the speed with which this process played out. The interests of DuPont, ICI, and Atochem were critical to shaping their host countries negotiating positions.Footnote ³⁸ And these interests were subject to rapid change because of the Convertible nature of the chemicals industry. Prior to negotiations, the major CFC manufacturers displayed a united international front against controls.Footnote ³⁹ When negotiations began in 1985, few players had introduced any significant domestic controls. The United States was an exception. DuPont's interests began to shift as the United States imposed domestic controls on CFCs and DuPont sought a level playing field internationally.Footnote ⁴⁰ DuPont split from its fellows abroad, disrupting their international interest coalition.Footnote ⁴¹

The other players joined in sequence. Germany's shift to support in 1986 appears to owe less to industry interests and more to growing attention to ozone policy from the unusually powerful green faction in German politics.Footnote ⁴² But between Montreal in 1987 and Copenhagen in 1992, DuPont, ICI, and Atochem made capital investments in production facilities for ODS substitutes. DuPont and ICI invested rapidly and heavily in production capacity for substitutes. France's Atochem was slower, making some movements toward production of HCFCs by 1990 but not really committing until after the 1990 London negotiations tightened controls. France continued to resist ODS controls through 1990. But by the final negotiations in 1992, parts of the chemicals industry were calling for more regulation,Footnote ⁴³ and all major players were on board.

When these companies committed substantial capital investment to production facilities for pollutant substitutes, their interests changed: Growing support for policy from these companies derived from concerns over the slow pace at which the market for that production capacity was growing.Footnote ⁴⁴ As a result, an entire pre-existing industry rapidly shifted from the opposing to the supporting coalition: the dynamic of a Convertible industry.

The other industries were almost uniformly Management industries that used ODS as production inputs, and they behaved as predicted. They initially grumbled about the costs of policy but, with substitutes available and the increased cost guaranteed by global policy to be level across competitors, they did not constitute a major barrier to increasingly stringent policy.

The exception is the agriculture industry, users of methyl bromide (MB), a relatively late addition to the list of known ozone-depleting substances. Although MB was only an input to agricultural production, the agriculture industry saw it as necessary, and no clear alternative for it had been developed for this application. This is a case in which lack of an input substitute caused an otherwise Management-type industry to act like a Loser; agriculture staunchly resisted regulation.Footnote ⁴⁵ Fortunately for the success of the ozone negotiations, by 1992 this was only true for one major application of a single chemical, and did not impact negotiation on other ODSs. But MB did prove a sticking point. By 1992, players had agreed only to a freeze on MB production at 1991 levels.Footnote ⁴⁶

In sum, the ozone as an issue area was relatively easy to achieve policy success partly because it was dominated by Convertible industries with few Losers or strongly impacted Management industries. This is not to say that industry type is all that mattered—in particular, as noted above, the smaller scope of ozone policy relative to climate is permissive; and the ozone issue area benefits from various ad hoc factors including the fact that the United States, the most powerful player, was a leader in pushing for policy, which made securing an initial policy agreement easier. In addition to these factors, however, the shift of Convertible industries from opponents to supporters of policy allowed for a rapid shift in national negotiating positions from mostly-opposing to mostly-favoring strong policy.

Climate

The problem of anthropogenic climate change has a rich history of policymaking efforts over the past thirty years. It also draws on prior efforts to promote energy efficiency and/or renewable energy that derives from earlier concerns like energy independence or air pollution. At the international level, policymaking efforts have been frustrating and slow. 1992 saw the creation of a framework for negotiation, followed only in 1997 by the Kyoto Protocol, an agreement by some developed-world countries to restrict emissions very marginally.

The next major milestone did not come until 2009, when nations met in Copenhagen to negotiate a Kyoto follow-on. Though seen by many as a failure, Copenhagen did produce the Copenhagen Accord, a collection of voluntary national GHG control commitments. This paved the way for the 2015 Paris Agreement, which formalized a process for collecting and updating such voluntary national commitments going forward—a shift in strategy, whose ultimate results remain to be seen. 2015 was the first point at which the majority of the world's nations made emissions control commitments; and even these are non-binding and insufficient to fully mitigate climate change.

However, a patchwork of national and subnational policymaking efforts is underway, independent of but increasingly reflected in the international process as it moves to the voluntary commitment framework. These jurisdiction-specific policymaking efforts have mixed results, including some relatively impressive success stories. Unlike the ozone case, where there was little variation in the industry mix across key players, jurisdictions vary substantially in terms both of the mix of industry types. I argue here that teasing out the relationship between mix of industry type, policy, and outcome helps us understand these varying degrees of progress.

The industry mix relevant to climate is quite broad and covers all four of my types. I note that my analysis does not attempt to include all possible industries impacted by decarbonization policy; in particular, I do not attempt an exhaustive list of Management industries. Rather, I use several identification strategies to attempt to identify industries most relevant to decarbonization politics. First, a set of industries are well-known to be impacted; these include sectors like oil, coal, and renewable energy. In addition, I include industries I found to be active (e.g., expressing opinions publicly, cited by policymakers as important in the area, or known to be engaged in lobbying) during a review of case materials. Finally, since any energy-intensive industry may perceive decarbonization policy as impacting its interests significantly, I reviewed the industry profiles of my cases, matching important state industries against energy intensive sectors to search for industries not otherwise included that should be considered. Table 1, below, provides a descriptive summary of important industries across states.

Table 1: Descriptive summary of major industries by categories across state cases

Different industry mixes, different outcomes

A comparison of three U.S. states suggests the importance of understanding the mixes of industry type within a particular jurisdiction when assessing the potential for long-term success in decarbonization policy.

California

As of 2017, California has succeeded in creating an ambitious RPS, a cap-and-trade program, and a host of complementary measures; and it has ratcheted up stringency over time. California's history of success owes a great deal to the particular mix of industries it possessed at the point that climate became politically salient and since.

California has strength in Winner industries like green equipment and services and renewable generation, which predate climate policymaking,Footnote ⁴⁷ and which have grown strongly since that policymaking began. Quite recently Tesla, an all-electric auto manufacturer, has become notable. But equally importantly, California has two major Convertible industries, both of which it has succeeded in converting over the past several decades. First, California's venture capital (VC) industry, a powerful economic block with global leadership, was searching for new areas of investment following the IT boom, and settled on green industry as one focus, shifting the VC industry's interests behind decarbonization policy during the 2000s.Footnote ⁴⁸

Second, utilities also typically act as Convertible industries: Initially, if their portfolios are dominated by fossil fuels generation, they tend to resist carbon controls. But if their interests change—e.g., if generation mixes change to include a substantial amount of renewable generation—they acquire incentives to support renewables and climate policy. The conversion of California's utilities began in the 1980s, when California introduced decoupling, policy that disconnected utility profits from sales, to realign utility interests toward the promotion of efficiency instead of sales volume. This eliminated one interest barrier to decarbonization policy.

In the late 1990s, California initiated deregulation of its electricity industry. Although deregulation was a spectacular failure and was ultimately rolled back, a provision requiring utilities to divest their generation assets had already substantially changed the industry (see figure 2). Many of the legacy assets divested were fossil-based; so during this period the percentage of utility-owned assets that were fossil fuel-burning dropped from around 60 percent (already low relative to the rest of the United States) to around 25 percent of total utility assets during the mid-2000s (share later rebounded, but only to around 40 percent). Major utilities like PG&E began to see their low-carbon portfolio as a competitive advantage.Footnote ⁴⁹ Utilities’ owned low-carbon portfolios consist of assets like conventional hydroelectric, nuclear, and remaining natural gas generation; though these do not fulfill RPS requirements, they do make utilities substantially less exposed to complementary climate policy including California's cap and trade system. And although California utilities largely do not own the qualified renewable assets used to meet RPS requirements, they still have interests in these assets continuing to be supported by policy, since in many cases RPS requirements are fulfilled by long-term contracts, yoking utility interests to their contracted suppliers in the medium to long term. Since the mid-2000s, California utilities have been supporters of California's RPS and other policies, expressing their opposition to Proposition 23, a 2010 ballot proposition that would have suspended California's climate legislation.Footnote ^51, Footnote ⁵²

Figure 2: Fossil fuel generation assets as a percentage of all utility-owned generationFootnote ⁵⁰

What isn't in California is important, too. California lacks coal, both production and use, and is not a major center for heavy industry. The state does have a substantial oil industry and some natural gas, with Chevron headquartered in state, several large refineries along the coast, and moderately sizeable oil reserves. The oil industry is, indeed, one of the few strong barriers to carbon reduction policy in California. However, oil is not significantly implicated in electricity production, and the major oil players have focused primarily on avoiding transportation fuel regulation, with some success,Footnote ⁵³ rather than electricity and broader economy-wide measures.

Collectively, then, the lack of a broad coalition of Losers is permissive; California's Winner industries provide a growing core coalition supporting decarbonization policy; and the conversion of important Convertible industries substantially broadened that coalition. California's ongoing success, while certainly related to other factors like a history of pro-environmental attitudes and a well-functioning air-quality bureaucracy, rests in part on its favorable mix of industry types.

Comparison with West Virginia and Texas further highlights this dynamic. As table 1 shows, both of these states have a broad potential coalition against decarbonization policy composed of Loser industries, and fewer pre-existing Winner and Convertible industries. Moreover, in both cases Convertible industries have not been successfully converted.

Texas

Texas's industry mix differs from California's in three ways. First, with less of a history in renewables innovation, Texas does not have as strong a contingent of Winner industries. This curtails the core coalition for decarbonization policy, although strong growth in wind generation capacity has grown the renewables generation industry in recent years. Second, while Texas does have a utility industry, it does not have California's large VC community. This difference means fewer important Convertible constituencies in Texas that could shift rapidly to supporting decarbonization policy. Nor does not appear that utility conversion has happened in Texas as it did in California. Texas utility profits are not decoupled from sales volume,Footnote ⁵⁴ and the share of fossil-fuel assets in their owned generation remains high (figure 2), though as in California, long-term contracts with third-party renewable energy producers, where present, may influence their positions. Third, Texas has strong Loser industries: a very strong oil industry, and an equally strong NG industry that is strongly linked to oil and sees an RPS as competition.

The outcome derived from this landscape is a moderate, stagnant RPS (nominally created in 1999 but increased to a substantive requirement in 2005). Texas's electricity industry has achieved its RPS targets well before target dates, suggesting they are not particularly stringent relative to what Texas's resources and energy economy allow. A new RPS proposed in 2009 failed.Footnote ⁵⁵ In 2015, the original legislation faced a repeal challenge; legislators argued the law had achieved its goals and was no longer needed. Electricity demand growth in Texas had been slow,Footnote ⁵⁶ and reporting described the move as emblematic of a “turf battle” between wind and natural gas interests.Footnote ⁵⁷ The growing renewable generation industry was able to fend off this challenge and preserve the 2005 RPS, but subsequent expansion of the RPS hasn't happened.

Texas's industry mix was and is permissive of a moderate portfolio standard, which appears to have activated and grown a coalition of Winner industries sufficient to defend the existing standard against attack. But Texas's utility industry does not appear to have converted, and the resulting industry mix today does not support the strengthening of policy over time seen in California.

West Virginia

West Virginia has an even lower-potential industry mix. West Virginia has a strong coalition of Loser and heavily impacted Management industries—especially coal, but also natural gas and chemicals. It had and continues to have little in the way of substantial activity from Winner industries. West Virginia's main Convertible industry, its electric utilities, does not appear to have converted (figure 2).

Unsurprisingly given this mix, although carbon reduction policy made it onto the political agenda in West Virginia, it was undermined by local interests from the start, and did not survive subsequent challenges. West Virginia's RPS was ineffective from the start, including within its definition of alternative fuels a number of highly questionable technologies including natural gas and “clean coal,” favoring in-state fossil fuel interests and meaning that utilities would not necessarily to have to invest significantly in true renewables to meet its requirements.Footnote ⁵⁸ The RPS did not activate, grow, or convert sufficient interests to survive, and was repealed in 2015.