In our recent Expected Returns, ‘The Age of Confusion’, we included the impact of climate change in our estimated returns for each asset class for the second consecutive year. Our methodology is still developing but we are clear that climate change will have a growing impact on investment returns in the years and decades to come, and in this insight we share what we have learned so far about modeling this impact.
The first instinct of investors when considering a hugely significant global challenge like climate change has been an understandable one – to exclude obvious climate change contributors during portfolio construction. In a recent survey, 27% of global investors have made public pledges for net-zero portfolios in or before 2050. As part of this, institutional investors plan to divest 19% of their portfolios because they are too carbon intensive, mostly in the asset classes equities and corporate bonds. This may lead to negative price pressure on assets with a high carbon footprint, leading to lower returns on the medium term.
We believe it’s potentially illuminating to consider the impact on expected returns of the physical risks (like floods or droughts) and the impacts of transition risks (like changing investment patterns, regulations or taxes designed to mitigate against climate change) on all asset classes. In this way we will get a holistic picture of how investors can take climate change into account for portfolio construction and investment decision-making purposes. Using this framework and taking into account other variables where appropriate like the discount rate, economic growth, and the carbon price, we assessed how climate change is likely to impact different asset classes from 2023-2027.
We assessed the climate change impact on developed market government bonds as neutral over the next five years. This is because government bond returns tend to be positively related to real economic growth, and negatively related to higher inflation. In the next five years the climate impact alone is likely to reduce growth below the previous trend level.
Penn2 (2022) surveys 55 academic studies on the effect of climate change and reports that the estimates vary considerably depending on the methodology used and geography examined. He finds an annual 0.3% lower global GDP a realistic synthesis versus a business-as-usual scenario. For inflation we believe the trend towards renewable energy is having an inflationary impact, an example of a transition cost. These two climate impacts, a lower GDP growth trajectory, and higher inflation due to transition costs, will cancel each other out from an expected returns perspective.
While the same dynamics apply as in the developed market assessment, there is a negative climate signal for investments in emerging market debt over the next five years. We can identify at least two reasons why credit spreads of countries that are more vulnerable to climate change may be wider than comparable countries with less climate risk.
First, the physical risks are likely to be larger, leading to higher government expenses to repair damage resulting from climate-related disasters such as floods and storms. Second, energy in emerging markets is more likely generated cheaply but with low carbon efficiency, for example through coal-fired plants.
Large investments to change to more carbon-efficient technologies are required, and typically the government has to pick up part of the bill. In emerging markets this combination of physical risks and transition risks will lead to higher yields, and therefore be negative for bond returns in our assessment.
Applying the same method we used for corporate bonds, we assessed the climate risks of different sectors, both in developed market and emerging equities, in Figure 3. We evaluated carbon footprint, Climate Value at Risk, implied temperature rise, and this time also climate beta. This is a proprietary Robeco measure that indicates how sensitive the return of a stock is to the excess return of a polluting-minus-clean factor. Based on these variables we expect a negative but limited impact on overall expected developed market equity returns from the repricing of climate risk over the next five years.
These measures indicate emerging market equities are more vulnerable than developed market equities when it comes to climate change risk, mainly because of a much higher carbon footprint and projected temperature rises, so we give a negative climate signal.
On balance, we give a positive climate signal to commodity markets, as we expect climate change will put upward pressure on commodity prices.
We have presented data modeling the climate change impact on asset class returns and, so far, for the largest asset classes like DM government bonds, that impact is limited. Nevertheless, it is clear that small changes in some variables like the carbon price could have an outsize effect on returns in the future. We expect more measurable climate impact each time we do our 5-year Expected Returns, and as the quality of data and our methodology improves.
1 Carbon Beta: A Market-Based Measure of Climate Risk by Joop Huij, Dries Laurs, Philip A. Stork, Remco C. J. Zwinkels: SSRN https://papers.ssrn.com/sol3/papers.cfm?abstract_id=3957900
2 Penn, M., 2022, “Assessing climate impacts on growth”, Absolute Strategy Research.
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