Strategic Intelligence Report

February 2026

Board Snapshot

Top 3 Board-Critical Risks	Top 2 Upside Opportunities Under Stress	Top 3 Trigger Events Requiring Escalation
1. Regulatory Fragmentation Accelerating US withdrawal from UNFCCC and endangerment finding reversal collides with EU CBAM enforcement and mandatory Asian ESG reporting. Compliance costs and market access risks are diverging by jurisdiction at a pace that outstrips current governance structures.	1. Energy Infrastructure as Strategic Asset Data centre power demand doubling by 2030 creates capital deployment opportunities in grid-scale storage, nuclear restart, and distributed generation. First movers with permitting pathways and offtake agreements gain structural advantage.	1. US EPA Endangerment Finding Revocation Formal rule publication expected within 60 days. Supreme Court challenge timeline will determine whether US emissions standards remain enforceable through 2028. Immediate implications for Scope 1 reporting and carbon pricing assumptions.
2. Critical Mineral Supply Concentration Lithium, cobalt, and rare earth demand projected to increase 21-42x by 2040. Processing remains 70%+ China-concentrated. Supply chain resilience assumptions embedded in transition plans are increasingly unreliable.	2. Adaptation Finance Gap as Market Entry Developing economy adaptation needs reach $300 billion annually by 2030 against current flows of $30 billion. Blended finance structures and climate-resilient infrastructure offer asymmetric returns where sovereign capacity is constrained.	2. EU CBAM Full Implementation (January 2026) Transition from reporting to payment phase. Indian and ASEAN exporters without verified emissions data face immediate margin compression. Supply chain repricing decisions cannot be deferred.
3. Physical Climate Risk Repricing Insurance protection gaps widening across 42% of US counties. European flood costs and Australian wildfire exposure forcing balance sheet adjustments. Forward-looking climate data now required for asset valuation; historical models are obsolete.		3. Tipping Point Proximity Disclosure Scientific consensus now indicates 2°C peak required to avoid cascading Earth system failures. Regulatory and investor pressure for scenario analysis incorporating non-linear outcomes will intensify through 2026.

Implications & Considerations

Priority Issue	Current Posture	Leadership Attention	Trigger Points
Regulatory Fragmentation	Active management	Board discussion warranted on jurisdiction-specific compliance investment and market access trade-offs	US Supreme Court acceptance of endangerment challenge; CBAM certificate pricing above €80/tonne
Critical Mineral Exposure	Monitoring	Executive review of supply chain concentration and alternative sourcing timelines may be prudent	China export restrictions on processing technology; lithium spot price exceeding $25,000/tonne
Physical Risk Repricing	Exploratory	CFO assessment of asset-level climate exposure and insurance availability could inform capital allocation	Major insurer withdrawal from state markets; credit rating agency climate risk methodology changes

Executive Synthesis

Material Developments in the Past 30 Days

The operating environment for resource-constrained strategy has shifted structurally in February 2026. Three developments warrant immediate leadership attention:

1. US Climate Regulatory Architecture Under Assault
The EPA's anticipated revocation of the endangerment finding represents the most aggressive rollback of federal climate regulation in US history. This is not a policy adjustment: it removes the statutory foundation for greenhouse gas regulation. The resulting Supreme Court battle will create 18-24 months of regulatory uncertainty, during which capital allocation decisions must proceed without clarity on US compliance requirements. For organisations with US operations, this forces a choice between maintaining global standards at higher cost or accepting jurisdictional divergence with associated reputational and market access consequences.

2. Energy Demand Growth Outpacing Infrastructure
Data centre electricity demand is now projected to double by 2030, with AI infrastructure alone requiring $5-8 trillion in enabling investment over five years. This is not a technology trend: it is a structural shift in baseload demand that existing grid capacity cannot accommodate. The IEA projects global electricity demand growth of 3.5% annually through 2030, more than double the rate of overall energy demand. Organisations dependent on reliable power face a forced choice between securing dedicated capacity, accepting availability constraints, or relocating to jurisdictions with surplus generation.

3. Physical Climate Risk Entering Balance Sheets
The insurance protection gap has spread beyond traditional catastrophe zones. Forty-two percent of US counties now face both elevated climate risk and rising insurance costs. European flood exposure and Australian wildfire conditions are forcing asset revaluation. The shift from historical to forward-looking climate data in underwriting models means property values and operational continuity assumptions embedded in current plans may be materially overstated.

Why These Matter in the Next 6-18 Months

These developments converge on a single strategic reality: the cost of operating in a resource-constrained world is being repriced faster than most governance structures can adapt. Regulatory compliance costs are diverging by jurisdiction. Energy availability is becoming a competitive differentiator. Physical risk exposure is migrating from actuarial tables to quarterly earnings.

The window for incremental adjustment is closing. Organisations that treat these as separate issues will find themselves managing cascading constraints rather than strategic choices.

Three Decisions That Cannot Be Deferred

1. Jurisdictional Compliance Architecture: Determine whether to maintain unified global standards or accept regulatory divergence across US, EU, and Asian markets. The cost differential is material; the reputational implications are strategic.
2. Energy Security Investment: Assess whether current power procurement arrangements provide adequate reliability for 2028-2030 demand projections. Grid-scale storage, distributed generation, and behind-the-meter solutions require 18-36 month lead times.
3. Asset-Level Climate Exposure: Commission forward-looking physical risk assessment of material assets. Insurance availability and cost trajectories should inform capital allocation decisions within the current planning cycle.

What May Surprise Leadership

The adaptation finance gap in developing economies has reached $270 billion annually and is growing. This is not a humanitarian concern: it is a supply chain risk. Climate-driven disruption to agricultural production, port infrastructure, and manufacturing capacity in emerging markets will propagate through global value chains. Organisations with significant sourcing exposure in climate-vulnerable regions face unpriced operational risk that current due diligence frameworks do not capture.

What Would Force a Change in Direction

• Risk-driven trigger: Cascading tipping point activation (AMOC weakening, Amazon dieback, or ice sheet destabilisation) would invalidate linear climate scenario assumptions and force immediate portfolio reassessment.
• Policy or regulatory-driven trigger: US Supreme Court ruling upholding endangerment finding reversal would fragment global climate governance permanently, requiring fundamental reassessment of compliance strategy and carbon pricing assumptions.
• Market or capital-driven trigger: Major credit rating agency incorporation of physical climate risk into sovereign and corporate ratings would reprice capital costs across exposed sectors within 90 days.

Key Findings

1. Energy Systems & Transition Pathways

The One Thing That Matters

Electricity demand growth is outpacing grid infrastructure investment by a factor that will constrain industrial expansion and AI deployment within 24 months.

Why This Is Changing Now

• Data centre maximum energy demand projected to reach 150 GW by 2028, nearly doubling from 80 GW in 2025
• Global electricity demand growing at 3.5% annually through 2030, 2.5 times faster than overall energy demand
• Renewables and battery storage account for 99.2% of net new US capacity in 2026, but grid interconnection queues extend 4-7 years

Supporting Signals

The Big 7 technology companies are expected to spend $650 billion on AI-related infrastructure in 2026 alone. LNG infrastructure development remains a US policy priority as natural gas bridges the gap between renewable deployment and demand growth. Hydrogen transport infrastructure is developing at half the pace of other clean technologies, creating a bottleneck that could strand billions in production investment.

Strategic Implication

Decide: Organisations must determine whether to secure dedicated power capacity through direct investment, long-term offtake agreements, or behind-the-meter generation. Waiting for grid capacity to catch up is not a viable strategy for energy-intensive operations.

Sub-theme: Grid-Scale Storage

Battery storage installations projected to exceed 500 GWh globally by 2026, with the US alone adding 5.6 GW in Q2 2025. Storage is transitioning from grid balancing to foundational infrastructure for variable renewable integration.

• U.S. renewables outlook 2026: key risks and strategies (Power Magazine)
• Grid-forming hybrids and alternative chemistries in 2026 predictions (Energy Storage News)
• Australia remains multi-gigawatt proving ground for utility-scale storage (Energy Storage News)

Sub-theme: Critical Mineral Constraints

IEA projects demand increases of 21x for lithium, 42x for cobalt, and 25x for rare earths by 2040 under net-zero scenarios. Processing concentration in China exceeds 70% for most battery minerals.

• Rising demand exposes critical minerals bottlenecks (Valor International)
• Global lithium production projected to exceed 1 million metric tons by 2026 (Farmonaut)
• Copper squeeze: electrification driving record demand (The Africa Brief)

2. Governance, Policy & Institutional Response

The One Thing That Matters

Climate regulatory frameworks are fragmenting across major jurisdictions faster than compliance systems can adapt, creating material divergence in operating costs and market access.

Why This Is Changing Now

• US EPA expected to formally revoke the endangerment finding, removing statutory basis for federal GHG regulation
• EU CBAM transitions from reporting to payment phase in 2026, with no exemptions for developing economy exporters
• China, Hong Kong, Singapore, and Japan introducing mandatory ISSB-aligned ESG reporting from 2026

Supporting Signals

The US withdrawal from the Paris Agreement and UNFCCC creates a governance vacuum that China and the EU are positioning to fill. Japan's Green Transformation framework transitions to mandatory emissions trading in fiscal 2026. UK climate transition planning obligations for corporates and financial institutions expected to become formal regulation in 2026.

Strategic Implication

Decide: Organisations must choose between maintaining unified global compliance standards at higher cost or accepting jurisdictional divergence with associated reputational and market access trade-offs. This decision cannot be deferred past Q2 2026 for organisations with material EU export exposure.

Sub-theme: US Regulatory Rollback

The endangerment finding reversal represents 15 years of coordinated effort by special interest groups. Supreme Court challenge is certain; resolution timeline extends to 2028.

• The fight over US climate rules is just beginning (Wired)
• EPA expected to formally revoke greenhouse gas endangerment finding (Inside Climate News)
• 2026 will be pivotal year for US energy policy and markets (National Law Review)

Sub-theme: Asian Mandatory Disclosure

Mandatory ESG reporting aligned with ISSB standards locks sustainability disclosure into economies accounting for rising share of global GDP, trade, and capital flows.

• China's new framework requires decarbonization plan disclosure in 2026 (CUHK Business School)
• Hong Kong sets new 2026-28 sustainable finance priorities (Insurance Business)
• Asia will take lead on mandatory human rights and environmental due diligence in 2026 (JD Supra)

3. Environmental Change & Earth System Stress

The One Thing That Matters

Physical climate risk is migrating from long-term scenario analysis to near-term balance sheet exposure, with insurance repricing and asset revaluation already underway.

Why This Is Changing Now

• 42% of US counties now face both above-median climate risk and increasing home insurance costs
• Global warming must peak below 2°C then return under 1.5°C to limit tipping point risks; current trajectories exceed both thresholds
• By 2050, up to one-third of global GDP could be exposed to high water stress if current trajectories persist

Supporting Signals

Extreme weather events rank as top global risk through 2036, followed by biodiversity loss and critical Earth system changes. Eighteen of Earth's biggest river deltas are sinking faster than sea levels are rising. Australia's early-2026 heatwave and bushfire conditions were made approximately 5x more likely by human-caused climate change.

Strategic Implication

Prepare: Forward-looking physical risk assessment of material assets should be commissioned within the current planning cycle. Insurance availability and cost trajectories must inform capital allocation decisions; historical loss data no longer provides reliable guidance.

Sub-theme: Tipping Point Proximity

Scientific consensus indicates the world may be closer to irreversible Earth system changes than previously assessed. AMOC weakening could trigger Amazon collapse in a cascade effect.

• Global warming nears point of no return: hothouse Earth warning (Anews)
• Global warming must peak below 2°C to limit tipping point risks (PIK Potsdam)
• Point of no return: hothouse Earth and climate tipping points (The Guardian)

Sub-theme: Water Stress Escalation

Cross-system transformative actions essential to mitigate water stress before 2050. By 2040, approximately 450 million children will live in areas of extremely high water stress.

• World enters new era of water crisis (Health Policy Watch)
• Turning point in water stress could happen around 2045 (Nature)
• Financing water as foundational climate infrastructure (Water Diplomat)

4. Finance, Technology & Societal Adaptation

The One Thing That Matters

The adaptation finance gap has become a supply chain risk, with developing economy infrastructure vulnerability propagating through global value chains.

Why This Is Changing Now

• Developing nations require $2.4-3 trillion annually for adaptation; developed countries pledged $120 billion by 2035
• EU and Member States need to invest €70 billion per year in climate adaptation until 2050
• Global investment in energy transition grew 8% to record $2.3 trillion in 2025 despite political headwinds

Supporting Signals

Sustainable bond issuance expected to exceed $1 trillion in 2026. AI water demand projected to surge 130% by 2050 as computing infrastructure expands. External estimates suggest $5-8 trillion required over five years to fund AI technologies and enabling infrastructure.

Strategic Implication

Monitor: Supply chain exposure to climate-vulnerable regions warrants systematic assessment. The gap between adaptation needs and available finance creates both operational risk and potential market opportunity for organisations with relevant capabilities.

Sub-theme: Technology-Enabled Resilience

AI improving forecasting, scenario analysis, and climate risk modelling. Smart grid technology critical enabler of clean energy transition with investment needing to more than double through 2030.

• Smart grid 2026: grid modernisation, renewable integration (Programming Helper)
• AI-driven transformation in energy sector (GlobeNewswire)
• Solid-state battery technology entering real-world production in 2026 (To7 Motor)

Sub-theme: Blended Finance Structures

Adding philanthropic capital to traditional PPP structures helps bridge first-loss gap deterring private investment in higher-risk climate projects.

• Public-private partnerships in climate governance (Sustainable Atlas)
• Clean energy investment must triple by 2030 (UN Chronicle)
• Emerging markets account for 80%+ of global energy demand growth this decade (David Carlin)

2x2 Scenario Matrix: Structural Futures

Scenarios describe operating environments we may need to live in and adapt to: not discrete shock events. These scenarios are used to stress-test decisions already under consideration, not to generate new ones.

Critical Uncertainties:

• Horizontal Axis: Global Coordination (Fragmented ← → Coordinated)
• Vertical Axis: Resource Availability (Constrained ← → Abundant)

Scenario A: Green Convergence Coordinated + Abundant Major economies align on carbon pricing mechanisms and critical mineral access frameworks. Technology breakthroughs in solid-state batteries and green hydrogen reduce transition costs below fossil alternatives. International climate finance flows reach $500 billion annually by 2030. Grid interconnection accelerates across regions, enabling renewable deployment at scale. Corporate transition plans become bankable assets rather than compliance exercises. Supply chains restructure around verified low-carbon production with premium pricing for sustainability credentials. Core dynamic: Coordination unlocks investment at scale, creating positive feedback loops between policy, technology, and capital deployment. Positioning: Stability with coordination Early Indicators: US rejoins Paris framework under new administration China-EU carbon market linkage agreement Lithium prices stabilise below $15,000/tonne Grid-scale storage costs fall below $100/kWh Major sovereign wealth funds mandate portfolio decarbonisation

Scenario B: Resource Nationalism Fragmented + Constrained Critical mineral supply chains fracture along geopolitical lines. Export restrictions on lithium, cobalt, and rare earths become normalised. Energy security trumps climate commitments across major economies. Grid infrastructure investment stalls amid permitting conflicts and cost overruns. Physical climate impacts accelerate faster than adaptation capacity, triggering cascading infrastructure failures. Insurance markets withdraw from high-risk regions, stranding assets and populations. Corporate transition plans become stranded alongside the assets they were designed to protect. Core dynamic: Scarcity drives zero-sum competition, undermining collective action and accelerating physical risk materialisation. Positioning: Instability with fragmentation Early Indicators: China restricts rare earth processing technology exports US-EU trade dispute over CBAM implementation Major grid failure in G7 economy during extreme weather Sovereign credit downgrades citing climate exposure Insurance withdrawal from three or more US state markets

Scenario C: Managed Divergence Fragmented + Abundant Technology abundance enables decentralised solutions but regulatory fragmentation prevents scale. Regional blocs develop incompatible standards and carbon pricing mechanisms. Multinational corporations maintain parallel compliance systems at significant cost. Energy transition proceeds at different speeds across jurisdictions, creating arbitrage opportunities and stranded asset risks. Physical climate impacts remain manageable through localised adaptation, but global coordination on emissions reduction fails. The 1.5°C target is abandoned; 2°C becomes the de facto ceiling with uncertain success. Core dynamic: Abundance without coordination produces inefficiency, duplication, and persistent uncertainty about long-term direction. Positioning: Stability with fragmentation Early Indicators: EU-Asia sustainability reporting standards diverge materially US states implement incompatible carbon pricing schemes Battery technology costs continue declining despite supply chain fragmentation Corporate compliance costs exceed 2% of revenue for multinationals Regional grid interconnection projects proceed without international coordination

Scenario D: Emergency Mobilisation Coordinated + Constrained Cascading climate tipping points force emergency international response. Major economies implement coordinated demand destruction and rationing of critical materials. Transition accelerates through crisis-driven investment but at significant economic cost. Corporate autonomy constrained by emergency powers and mandatory allocation schemes. Physical infrastructure investment prioritised over discretionary consumption. Financial system restructures around climate risk with mandatory disclosure and capital requirements. Social contract renegotiated around shared sacrifice and intergenerational equity. Core dynamic: Crisis forces coordination that abundance could not, but at the cost of economic disruption and constrained choice. Positioning: Instability with coordination Early Indicators: AMOC weakening confirmed with measurable European temperature impacts Amazon dieback crosses 20% threshold G20 emergency summit on climate intervention Central banks implement climate stress test capital requirements Mandatory corporate climate transition plans with enforcement mechanisms

Where the Organisation Can Gain Share Under Stress

Opportunity	Required Capabilities	Classification	Time-to-Market
1. Energy Infrastructure as Service Grid constraints and data centre demand create opportunity for organisations with power generation, storage, or distribution capabilities to provide dedicated capacity to energy-constrained customers. The 44 GW power supply deficit projected by 2028 represents a market failure that private capital can address with appropriate risk-sharing structures.	Project development and permitting expertise Grid interconnection relationships Long-duration storage technology partnerships Balance sheet capacity for infrastructure investment	Material new growth line Structural demand shift creates multi-decade opportunity	6-12 months Requires immediate positioning; project timelines extend 3-5 years
2. Climate Adaptation Finance The $270 billion annual gap between developing economy adaptation needs and available finance creates opportunity for blended finance structures combining concessional and commercial capital. First-loss guarantees from development finance institutions can unlock private investment in climate-resilient infrastructure with attractive risk-adjusted returns.	Development finance institution relationships Emerging market credit assessment capability Infrastructure project structuring expertise ESG verification and reporting systems	Material new growth line Addresses structural funding gap with policy tailwinds	6-12 months Pipeline development requires relationship building; deployment follows
3. Regulatory Compliance Arbitrage Jurisdictional divergence in climate regulation creates demand for compliance services that can navigate multiple frameworks efficiently. Organisations with established systems for EU CBAM, ISSB reporting, and US state-level requirements can offer compliance-as-a-service to mid-market companies lacking internal capability.	Multi-jurisdictional regulatory expertise Emissions verification and assurance capability Technology platform for data aggregation Supply chain traceability systems	Portfolio optimisation Leverages existing capabilities in growing market	Now CBAM payment phase and Asian mandatory disclosure create immediate demand

What We Are Not Planning For

Solar Radiation Modification Deployment	While research investment is increasing, deployment timelines extend beyond 2035 under most scenarios. Governance frameworks remain undeveloped. The technology introduces high uncertainty and risk that current planning horizons cannot accommodate. We will monitor research progress and governance developments without incorporating deployment assumptions into current strategy.
Rapid US Climate Policy Reversal	The endangerment finding challenge will proceed through courts regardless of administration changes. State-level climate action continues independently of federal policy. Corporate transition commitments are driven by capital markets and customer requirements as much as regulation. We are not planning for a scenario in which US federal climate policy returns to pre-2025 ambition levels within the planning horizon.
Fusion Energy Commercialisation	Despite $15 billion in cumulative private investment across 77 companies, demonstration plants are not expected before 2035. Grid-scale deployment extends to 2040 or beyond under optimistic scenarios. Current energy planning should assume fusion remains unavailable for the duration of the planning horizon.
Coordinated OPEC Production Collapse	Middle East oil output projected to exceed 30 million barrels per day in 2026. OPEC's short-term supply management capability remains strong. While long-term oil demand will decline with electrification, the transition timeline extends beyond 2030. We are not planning for sudden supply disruption from coordinated producer action.

Discussion Points

1. Jurisdictional Compliance Trade-off: Given the divergence between US regulatory rollback and EU/Asian mandatory disclosure requirements, should we maintain unified global standards at higher cost, or accept operational divergence with associated reputational and market access consequences?
2. Energy Security Investment Threshold: At what point does energy availability constraint become material enough to warrant direct investment in generation or storage capacity, rather than relying on grid procurement and power purchase agreements?
3. Physical Risk Disclosure Timing: Should we commission forward-looking physical risk assessment of material assets before credit rating agencies and insurers mandate such disclosure, accepting the cost of early action against the risk of being caught unprepared?
4. Supply Chain Climate Exposure: How do we systematically assess and price the climate vulnerability of suppliers in regions facing high water stress, extreme heat, or flood risk, given that current due diligence frameworks do not capture these exposures?
5. Adaptation Finance Opportunity Cost: Given the $270 billion annual gap in developing economy adaptation finance, should we allocate capital to climate-resilient infrastructure investment in emerging markets, accepting higher execution risk in exchange for potential asymmetric returns and supply chain resilience benefits?