CFO playbook: How to drive sustainability
CFOs, controllers and finance play a critical role in driving sustainability strategies, ESG reporting, decarbonization and sustainability technology.
In this report (PDF)Opens in a new window (file size: 7.6 MB), find out precisely how much climate change-driven heat stress and drought threaten production of commodities we all rely on like iron, lithium, and rice.
Read the report (PDF)Opens in a new window (file size: 7.6 MB)
As climate disruption intensifies, how will it affect our communities, our economies, our lives?
We depend on nine essential commodities: critical minerals like lithium, cobalt, and copper; food crops such as wheat, maize, and rice; and vital metals like iron, zinc, and bauxite (which is used to make aluminium).
These minerals and metals are critical to transportation, construction, manufacturing, electronics, and the green transition. The key crops supply 42% of human calories. And production of all of these commodities could be disrupted by climate change unless we take action to adapt to a hotter world.
Read on to see the risks - and how to manage them.
Video
When you look outside
Video Player is loading.
This is a modal window.
The media could not be loaded, either because the server or network failed or because the format is not supported.
More tools
1:31
Transcript
Large proportions of global supplies of nine of our essential commodities are produced at sites that are increasingly vulnerable to climate change.
Even in an optimistic scenario in which carbon emissions rapidly decrease, many of the mines and farms that provide our essential commodities will face increasingly hot and dry conditions in the coming years - conditions which can potentially disrupt production.
In farming - the world’s thirstiest industry which consumes 70% of the world's freshwater - drought can reduce crop yields. Water is particularly critical in the cultivation of rice, wheat, and maize. In mining, a lack of water undermines water-intensive operations including ore extraction, mineral processing, and dust control.
Heat stress can reduce productivity - and even be life-threatening - for workers at mines and farms who often spend many hours working outdoors where they are directly exposed to the impacts of heat and humidity.
Below are the percentages of production capacity for each commodity that may be disrupted by growing heat stress and drought - even if global carbon emissions sharply decline.
Risks to essential commodities
-
Iron 62% of Iron production at risk from heat stress by 2050
-
Bauxite 62% of Bauxite production at risk from heat stress by 2050
-
Zinc 26% of Zinc production at risk from heat stress by 2050
-
Lithium 74% of Lithium production at risk from drought by 2050
-
Cobalt 74% of Cobalt production at risk from drought by 2050
-
Copper 54% of Copper production at risk from drought by 2050
-
Maize 27% of Maize production at risk from heat stress by 2050
-
Wheat 36% of Wheat production at risk from heat stress by 2050
-
Rice 87% of Rice production at risk from heat stress by 2050
Learn your risks Click the commodities your company relies on. Consider your whole value chain.
Heat stress
% of Bauxite production capacity exposed
to heat stress risk
- 2020
- 2035
- 2050*
- 2050**
Drought
% of Bauxite production capacity exposed
to drought risk
- 2020
- 2035
- 2050*
- 2050**
Source: PwC Climate risks to nine key commodities
| Heat stress | Drought | ||||||||
|---|---|---|---|---|---|---|---|---|---|
| Resource | Impact | 2020 | 2035 | 2050 (low) | 2050 (high) | 2020 | 2035 | 2050 (low) | 2050 (high) |
| Bauxite | Low | 14.94% | 2.83% | 5.68% | 3.02% | 24.84% | 63.92% | 39.94% | 24.20% |
| Bauxite | Moderate | 46.99% | 59.57% | 51.59% | 27.98% | 0.00% | 2.84% | 25.87% | 41.51% |
| Bauxite | High | 0.00% | 2.50% | 10.51% | 36.93% | 0.00% | 0.00% | 0.00% | 2.20% |
| Bauxite | Extreme | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% |
| Cobalt | Low | 4.31% | 4.53% | 6.85% | 4.59% | 5.53% | 62.62% | 8.89% | 9.19% |
| Cobalt | Moderate | 3.03% | 6.49% | 6.49% | 8.89% | 0.00% | 20.45% | 72.60% | 73.72% |
| Cobalt | High | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 1.78% | 3.39% |
| Cobalt | Extreme | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% |
| Copper | Low | 4.56% | 7.79% | 8.01% | 5.55% | 39.85% | 46.39% | 33.93% | 13.16% |
| Copper | Moderate | 3.33% | 7.03% | 7.11% | 9.47% | 7.11% | 17.17% | 30.07% | 44.97% |
| Copper | High | 0.00% | 0.72% | 0.73% | 2.16% | 0.00% | 22.71% | 17.20% | 12.19% |
| Copper | Extreme | 0.00% | 0.00% | 0.00% | 0.37% | 0.00% | 0.00% | 6.96% | 19.93% |
| Iron | Low | 29.29% | 3.38% | 2.68% | 4.98% | 43.10% | 54.79% | 64.15% | 49.10% |
| Iron | Moderate | 32.70% | 55.24% | 55.65% | 50.52% | 0.00% | 14.88% | 15.82% | 21.15% |
| Iron | High | 0.06% | 5.41% | 5.88% | 11.92% | 0.00% | 1.35% | 1.53% | 12.97% |
| Iron | Extreme | 0.00% | 0.00% | 0.00% | 1.52% | 0.00% | 0.00% | 0.00% | 0.74% |
| Lithium | Low | 3.60% | 0.36% | 0.36% | 0.36% | 61.26% | 46.92% | 20.37% | 14.89% |
| Lithium | Moderate | 12.86% | 14.89% | 14.86% | 3.60% | 0.00% | 4.56% | 41.33% | 22.54% |
| Lithium | High | 0.00% | 1.58% | 1.60% | 12.86% | 0.00% | 33.13% | 8.27% | 33.89% |
| Lithium | Extreme | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 0.00% | 24.85% | 27.10% |
| Zinc | Low | 7.02% | 4.40% | 4.12% | 3.44% | 23.76% | 47.19% | 49.35% | 35.11% |
| Zinc | Moderate | 18.12% | 20.96% | 20.40% | 13.98% | 0.00% | 17.38% | 14.29% | 28.74% |
| Zinc | High | 0.39% | 4.22% | 5.11% | 14.70% | 0.00% | 2.51% | 4.34% | 13.60% |
| Zinc | Extreme | 0.00% | 0.00% | 0.00% | 0.59% | 0.00% | 0.00% | 0.00% | 0.20% |
| Maize | Low | 12.27% | 19.81% | 23.34% | 28.89% | 19.47% | 58.47% | 54.05% | 48.25% |
| Maize | Moderate | 12.29% | 19.25% | 21.27% | 27.69% | 0.34% | 6.70% | 11.96% | 27.74% |
| Maize | High | 1.77% | 3.69% | 4.76% | 9.48% | 0.00% | 0.68% | 0.79% | 2.21% |
| Maize | Extreme | 0.00% | 0.97% | 1.10% | 2.72% | 0.00% | 0.00% | 0.00% | 0.55% |
| Wheat | Low | 6.71% | 5.51% | 5.63% | 8.34% | 22.02% | 41.71% | 34.48% | 19.34% |
| Wheat | Moderate | 14.87% | 14.12% | 13.42% | 10.35% | 0.52% | 17.91% | 28.54% | 41.27% |
| Wheat | High | 13.06% | 12.28% | 10.82% | 10.34% | 0.00% | 1.21% | 1.45% | 8.17% |
| Wheat | Extreme | 0.41% | 8.32% | 11.73% | 18.45% | 0.00% | 0.00% | 0.00% | 0.91% |
| Rice | Low | 11.85% | 6.81% | 5.93% | 5.18% | 7.56% | 15.89% | 13.31% | 21.73% |
| Rice | Moderate | 55.74% | 40.81% | 34.14% | 23.73% | 0.04% | 2.11% | 2.14% | 5.52% |
| Rice | High | 18.85% | 36.80% | 41.60% | 40.76% | 0.00% | 0.37% | 0.38% | 0.72% |
| Rice | Extreme | 0.30% | 6.86% | 10.78% | 25.73% | 0.00% | 0.00% | 0.00% | 0.31% |
Implications for business
1. Risks are rising for all nine commodities
In some cases, risks are rising sharply from low levels, underlining the need to ensure resource producers are prepared to manage increasing risks that, in some cases, they may have little experience in managing.
2. We can’t assume that future emissions reductions will protect us from a changing climate
Even in an optimistic scenario in which global carbon emissions drop rapidly, heat stress and drought risks will increase significantly, highlighting the importance of adapting to a changing climate while we strive to reduce carbon emissions.
3. Resource producers and consumers should begin preparing for growing disruption risk
Already, 47% of CEOs have taken proactive measures to safeguard their workforces and physical assets from climate change, according to PwC’s 2024 Annual Global CEO Survey. However, more needs to be done to enhance resilience.
Leaders' perspectives
Will Jackson-Moore
Global Sustainability Leader, PwC UK
‘Many locations that produce essential commodities are likely to experience more frequent spells of intense drought and heat stress by 2050, even in an optimistic low emissions scenario.
‘To avoid economic losses and protect communities and ecosystems; producers, and the broader business community, should understand the impact of climate disruption on production and engage in multi-stakeholder efforts to adapt. This will also strengthen efforts to more rapidly transition to a net zero economy.’
Emma Cox
Global Climate Leader, PwC UK
‘Even if global carbon emissions rapidly decrease, climate disruption poses a serious and growing threat to the world’s ability to produce essential commodities - including food as well as materials that are themselves essential to the net zero transition.
‘While CEOs are taking action to both cut emissions and adapt to climate change, more needs to be done. Businesses need to understand their dependencies and impacts, then work with governments and communities to transform their consumption and production patterns. This is crucial not only for the ongoing success of individual businesses, but also for the overall health and prosperity of the global population.’
Read the full report
See how climate change-driven heat stress and drought threaten the production of essential commodities, and learn how businesses can take steps to adapt and protect their supply chains.
Next steps for business
Explore practical actions firms can take to protect their supply chains and operations from growing commodity risks.
Further insights
State of Climate Tech 2024
Funding for climate tech start-ups is down. But PwC’s global climate tech analysis shows that patient investors are still finding opportunities.
Reinventing Asia Pacific
The Asia Pacific region, a global manufacturing hub and the world's fastest-growing economic area, accounts for nearly half of global manufacturing output and carbon emissions.
Climate risks to APEC commodity production
Explore how climate change threatens APEC economies' production of essential commodities, impacting global industries and businesses
Contact us
Partner, Global Sustainability Leader, PwC United Kingdom
Tel: +44 (0)7710 157908
Partner, Global Sustainability Markets Leader, PwC Netherlands
Tel: +31 (0)62 248 81 40
