This blog post originally appeared on Burgiss.com. MSCI acquired The Burgiss Group, LLC in October 2023.
Our previous research provided a materiality map for greenhouse-gas (GHG) emissions in U.S. private companies held by buyout funds. This post will utilize the GHG-emission-materiality map as an analytical framework to estimate climate-transition risks from fossil-fuel combustion using the upstream approach.[1] This approach assumes that a carbon price is applied at the time of fossil fuel extraction or distribution, where pricing depends on the carbon content. Energy companies may fully or partially transfer that cost to energy buyers, which could increase costs and squeeze EBITDA margins.
Methodology summary
Carbon price policy: getting the least carbon for the buck
When it comes to climate policymaking, carbon pricing is increasingly implemented as an actionable policy tool to meet emissions reduction targets. Carbon pricing, either through a carbon tax or an Emission Trading System (ETS), is already adopted in 46 national and 36 subnational jurisdictions (including U.S. states), covering about 23% of the global GHG emissions.[2] [3]
Given the looming climate policy changes, companies — especially in energy, materials, and financial services — are increasingly setting an internal carbon price as a tool to gauge how, where, and when emissions could impact profitability and investment strategies.[4]
Profitability during volatile energy prices: does GHG-emission materiality matter?
Estimating climate transition risks requires an understanding of GHG emissions at the company level, and whether it is significant enough to materially impact the company’s bottom line. As demonstrated in our previous research, the first step is to divide the sample of private companies into “material” and “non-material” subsets based on the SASB financial materiality of their direct GHG emissions (Scope 1).[5]
From a fossil-fuel buyer’s perspective, a climate policy may lead to a higher energy cost, reflecting the introduction of a carbon price.[6] Therefore, companies that rely on fossil fuel in production, and are also responsible for significant GHG emissions, may face increasing energy costs and shrinking margins, possibly placing a downward pressure on long-term enterprise value. Looking through the past decade, exhibit 2 shows just that — the last-12-months (LTM) pooled-EBITDA margins of the material subset show a more persistently negative correlation with fossil fuel prices than that which is exhibited by the non-material subset. This demonstrates the varying levels of sensitivity to energy shocks among private companies and offers a test drive of how margins could behave in light of a carbon tax. The exhibit below shows the 5-year rolling correlation between EBITDA margins and energy prices for both samples, material and non-material.
Energy pains on private companies’ balance sheets
Measuring climate transition risks at various carbon-price scenarios
This analysis uses time-series models to examine the historical impact of energy-price shocks on EBITDA margins, after controlling for economic conditions; the data is from 2001 to 2021). Regression results on the two samples — material and non-material — provided insights into how U.S. private companies’ profitability may react to an increase in energy prices due to a change in carbon prices.[7] The central finding suggests that private companies’ margins in the material subset showed a substantially more pronounced reaction to energy shocks than those in the non-material segment.
For instance, at a USD 75 per tonne CO2 (carbon-price level recommended by the International Monetary Fund by 2030 to limit global warming to 1.5°C to 2°C or 2.7°F to 3.6°F), EBITDA margin is estimated to fall by approximately 3.10 percentage points for companies within the material subset, compared to approximately 0.95 percentage points in the case of the non-material group, holding other factors constant.[8] The divergence between the two samples appears to amplify the different levels of dependency on fossil fuel for their primary business activities and their subsequent vulnerability toward a carbon price.
Given that carbon-intensive companies – mostly concentrated in resource transformation, extractives, and power generation – are among the primary users of fossil fuel, a carbon price may send a shock wave through the energy markets which could increase costs and erode earnings. Exhibit 3 outlines the estimated losses in EBITDA margins in both segments, under various carbon-price scenarios.
Scenario analysis at various carbon prices
Informing engagement pathways
Measuring climate-transition risks is an increasingly common topic of discussion within the limited partner circles. Understanding private capital’s exposure to GHG-emission regulatory risks and identifying financial materiality in a private portfolio may be critical in supporting more informed engagement efforts and climate-risk-management practices.
pproach is effective in two ways: it offers a wide coverage of the carbon-intensive economy and, at the same time, minimizes policy and administrative costs due to the limited number of energy suppliers. The challenge is in the economy-wide shock that comes with this approach and the associated uncertainty and risk to the macroeconomic outlook. The downstream approach emerges as a practical and gradual alternative, putting the emission costs directly on the emitting companies. The next article will discuss this approach and estimate the cost burden on private companies.