Rewiring technology for sustainable growth

• Use of technology has become intrinsic to our daily lives – particularly since the Covid-19 pandemic.
• Technology is also critical for advancing sustainability goals, particularly for the transition to net zero.
• At the same time, the sustainable credentials of technology are under scrutiny – from automation replacing human workers to inappropriate use of social media.
• Thinking more holistically about sustainability and technology can make for better outcomes for the global economy – and the planet.

Connecting people, identifying efficiencies, and creating solutions can catalyse progress in business, economies and society. In addition to generating revenues and lowering costs, this can also create resilient and sustained economic growth.

These can help critical sectors – eg, energy, materials, transportation, healthcare and food – adapt to changing climate, planetary and social demands.² Such innovations include blockchain, cloud computing, machine learning, advanced analytics and control technologies.

Use of such technologies can support economic growth through enabling companies and nations to manage current demands and future higher demands.

Typically, when thinking about the sustainability impact of ICT, commentators tend to focus on emissions rather than the hidden aspects that we think deserve greater attention. We are frequently asked about the cost, or “harm”, of technological advancements (illustrated in Exhibit 2), and if we consider there to be a net benefit.

The primary costs – or risks – of technology can be categorised into the three dimensions of environmental, social and governance:

1. Environmental intensity
   

   Through the lifecycle of ICT products the sector is highly energy intensive, currently accounting for 4-6% of global electricity consumption – a figure that is set to increase by 2030 to 20%.³ Additionally, a vast and under-appreciated amount of water is used – from the sourcing of strategic metals and minerals through to cooling equipment for optimal performance. The extraction of these minerals is also becoming increasingly invasive to ecosystems, in terms of habitat destruction and pollution.

   Meanwhile, technology products’ contribution to global electronic waste (e-waste) is projected to reach 120 million tons annually by 2050, if current trends persist.⁴ E-waste is highly polluting,⁵ a problem exacerbated in lower income countries by illegal dumping. Without a circular economy – to promote continuous use, recycling and repurposing of materials – the unsustainable cycle of extraction, pollution and waste will continue.

   Did you know?

   A typical semiconductor manufacturing facility uses 2-4 million gallons of ultrapure water⁶ daily, equivalent to the annual water consumption rate of 10,000 people in the UK.⁷



2. The social contract
   

   The scope for technology to increase inclusion through access and connectivity is significant, but at what social cost? Technology hit the headlines this year when misinformation and disinformation was cited as the most significant short-term global risk by the World Economic Forum (WEF)⁸ – a rising concern in this heavy election year. Furthermore, technology can be highly immersive for users and generate both mental and physical health issues, including addiction, isolation and exposure to extreme or anti-social content.

   Future employment opportunities are in question with increased productivity raising concerns about job displacement by automation. Yet despite the ubiquity of technology, a digital divide exists, with one third of the global population estimated to be falling further behind broader economic growth due to insufficient digital progress and policies.⁹



3. Technological progress needs strong governance
   

   The global economy will achieve its technological potential only if technology can fulfil a digital duty of care in key areas. The first of these is around big tech dominance. Innovation needs disruptors, but does the presence of the “Magnificent 7” crowd out other players?¹¹ The second important dimension is cyber insecurity, highlighted in the recent WEF Global Risks Report 2024, indicating that our economic dependence on technology has not been matched by the development of appropriate user protection. Finally, there is a need for ethical tech standards and regulations to improve the governance of those social risks highlighted above.

   Our focus, as investors, is on how technology is being used, and we seek opportunities where it contributes positively to society and to the planet.

   Did you know?

   The cost of rising scale and sophistication of cybercrimes is estimated to jump from USD 8.4 trn in 2022 to USD 23.8 trn in 2027.¹²

We believe a resilient, sustained contribution of technological innovation to the global economy requires a comprehensive risk assessment and mitigation framework. Companies and sectors structurally out of sync with customer, regulatory or political expectations will likely face interventions, eg, reputational issues or political action. The industry needs to invest heavily in mitigating risks to protect its existing footprint, not just its future handprint,¹³ for example:

• Circular solutions: moving from planned obsolescence to circular business models with a more considered approach to frequent tech upgrades.
• Helping consumers: enhancing energy efficiency solutions can drive lower consumption, reducing household energy bills.
• Climate and planet protection: improved geospatial and modelling technologies can help in earlier identification of emerging biodiversity degradation and weather-event vulnerability.
• Health: use of artificial intelligence to support medical diagnoses and more precisely match drugs to patients, bringing social and financial benefits to ease the over-burdened global health system.

In terms of mitigating the environmental impacts, there are opportunities through each life cycle stage from materials sourcing to product design to consumption. See examples in Exhibit 3.

Rapid technological advancements have outpaced the ability of governments and society to appropriately manage this progress. If technology companies fail to develop with responsibility to the fore, stricter regulations will follow. Further development of legal and regulatory frameworks for technology appears inevitable, but it remains to be seen how restrictive this may be.

We already see regional divergence: Europe and the UK are more geared to risk-based regulation¹⁴ than the US, which is home to the largest tech players. However, based on oversight and supply chain concerns, we are seeing impetus for greater safeguards in the US at both Federal¹⁵ and Congress¹⁶ levels.

¹ OECD Digital Economy Outlook, May 2024
² WEF, Digital Transformation, Digital Solutions Explorer, 2024
³ IEA, Net Zero by 2050 - A Roadmap for the Global Energy Sector, October 2021
⁴ WEF, A_New_Circular_Vision_for_Electronics.pdf (weforum.org), January 2019
⁵ WHO, Electronic waste (e-waste) (who.int), October 2023
⁶ Ultrapure water has been purified to uncommonly stringent specifications.
⁷ Ecorise.org Global Water Usage: How Do Countries Compare? (watercalculator.org), April 2023
⁸ World Economic Forum, Global Risks Report, January 2024
⁹ ITU, Facts and Figures 2022: Latest on global connectivity amid economic downturn, November 2022
¹⁰ McKinsey, Jobs lost, jobs gained: What the future of work will mean for jobs, skills, and wages, November 2017
¹¹ The term Magnificent 7 refers to seven dominant technology stocks: Alphabet, Amazon, Apple, Meta, Microsoft, Nvidia and Tesla
¹² WEF, 2023 was a big year for cybercrime – here’s how we can make our systems safer | World Economic Forum (weforum.org) January 2024
¹³ Handprint refers to actions taken to have a positive impact, over and above reducing the negative – footprint – impacts.
¹⁴ Examples are the General Data Protection Regulation (GDPR) introduced in 2018, the Digital Market Act of March 2024 or the forthcoming EU Artificial Intelligence Act
¹⁵ US Government Accountability Office, Federal Regulation: Selected Emerging Technologies Highlight the Need for Legislative Analysis and Enhanced Coordination, January 2024
¹⁶ Center for American Progress, Congress Must Take More Steps on Technology Regulation Before It Is Too Late, May 2024
¹⁷ UN University, Unitar, ITU, International Solid Waste Association, The Global E-waste Monitor 2020
¹⁸ Unitar Global e-Waste Monitor 2024: Electronic Waste Rising Five Times Faster than Documented E-waste Recycling
¹⁹ UN Environment Programme, How disposable tech is feeding an e-waste crisis, November 2022
²⁰ ITU, UNDP, SDG Digital Acceleration Agenda_2.pdf (undp.org), 2023