Not all carbon emissions are equal

As low-carbon investing gains momentum, growing regulatory requirements will force more companies to report carbon emissions data. However, investors should be aware of the data quality and gaps and set realistic carbon reduction goals to achieve their low-carbon portfolios.

In our previous article we looked at how a quantitative approach can help investors build a low-carbon portfolio without incurring sector bias. As carbon emissions gain importance in driving asset allocation decisions, investors should also be aware of the nuances behind the data.

Under the hood

The first thing to note is that carbon emissions can be classified into Scopes 1, 2 and 3.

Scope 1 is the most straightforward and generally refers to direct emissions produced by a company. Scope 2 refers to emissions produced by electricity generated or purchased by the company. When we discussed carbon intensity in the earlier article, we only included measures for Scopes 1 and 2.

This is a common practice as Scope 3 reporting is sparse whilst also the hardest to measure. Scope 3 refers to emissions that are in the company’s value chain and can be split into upstream (suppliers) and downstream (customers). According to the Greenhouse Gas Protocol1, most emissions come from Scope 3 and this could mean that “companies have been missing out on significant opportunities for improvement”.

To get a sense of the impact of Scope 3 emissions on total emissions, we look at the constituents of the MSCI AC World index. Fig 1 shows the average make-up of total emissions over the past three years2, ranked by the percentage of Scope 3 emissions.

Fig. 1. Breakdown of total emissions

Not all carbon emissions are equal -fig-1

Perhaps unsurprisingly, companies in the Utilities and Materials sectors have a much larger proportion of their emissions captured in Scope 1, whereas product-focused sectors such as Consumer Staples and Consumer Discretionary, with their more complex value chains, see Scope 3 dominating total emissions.

What this means is that the reported emissions from Scopes 1 and 2 for some consumer-related companies may be understating their overall carbon footprint. As stricter regulations in carbon reporting require more companies to report Scope 3 emissions, these sectors will likely see the biggest jump in total emissions.

To examine this point, we look at the distribution of carbon intensity (carbon emissions normalised by sales) by sector3, ranked by the change in median after including Scope 3. In line with the observation above, Consumer Discretionary names saw the biggest increase in median intensity and there are also more outliers. See Fig 2.

While the Energy, Utilities and Materials sectors remain the highest emitters whether we include Scope 3 or not, the shift in median for Materials and Utilities ranked among the lowest among all sectors, whereas the Energy sector saw a relatively big increase in total emissions.

Fig. 2. Distribution of carbon intensity by sector (ranked by change in median)

Not all carbon emissions are equal Fig 2

Estimation models - are they reliable?

Given that many companies do not yet report carbon emissions data, especially when it comes to Scope 3, data providers turn to estimation models to complete a company’s carbon footprint profile.

According to the GHG Protocol technical guidance document5, one widely used model is the environmentally-extended input output (EEIO) model, which estimates energy usage and greenhouse gas emissions based on the production and upstream supply chain activities for a certain industry or product category.

The output of this model is typically emissions per unit of revenue in a particular industry. Using an example cited by the GHG Protocol, the model may estimate that the paper mills industry emits 1,520 tonnes of Co2e per $1 million in revenue. We could then estimate emissions based on a company’s revenue breakdown.

One advantage of the EEIO model is that once we have the estimation model for each business activity or industry, we could measure the emissions for the entire economy. A major drawback is that it assumes companies operating in the same industry produce the same emissions. However, we know some companies are more efficient than others. The trade-off here is between coverage and specificity.

Equally, there may also be the issue of double counting to round off the discussion on carbon emissions data. When we examine a portfolio’s overall carbon footprint, counting the Scope 3 emissions incurred by a company, whose output is also likely to be used for another company’s input, may overstate overall carbon emissions.

This can be further complicated by companies that have vast networks of suppliers and clients: where does the counting start and where does it end in the spiderweb of global supply chains? With only emissions from Scopes 1 and 2, this may be less of an issue as they only measure direct impact and electricity purchased instead of looking at the whole supply and value chain.

But over time, third-party estimation models could become more sophisticated. This should improve the overall data coverage and quality. As that precision improves, we may also see a shift in some companies’ overall carbon profile.

Sources:
1 An initiative that establishes comprehensive global standardized frameworks to measure and manage greenhouse gas (GHG) emissions from private and public sector operations, value chains and mitigation actions
2 Based on month-end emissions data from end-December 2018 to end-December 2021. For scope 3 emissions, we use as reported instead of estimated data.
3 Based on month-end data as of end-December 2021.
4 https://www.msci.com/www/blog-posts/scope-3-carbon-emissions-seeing/02092372761. The MSCI ACWI Investable Market Index (IMI) captures large, mid and small cap representation across 23 Developed Markets (DM) and 25 Emerging Markets (EM) countries
5 https://ghgprotocol.org/sites/default/files/standards/Scope3_Calculation_Guidance_0.pdf