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Laing O'Rourke Registered Office - International Finance Centre 1 · Transition modelFACILITY

Laing O'Rourke Delivery Limited · operating_office · St Helier, JE · 49.186, -2.110
basis: MEASURED · confidence: 0.65 · status: active

Climate & nature exec summarySt Helier, JE · claude-sonnet-5 · 2026-07-07

Laing O'Rourke's St Helier registered office carries low water and moderate coastal flood exposure today, but the dataset lacks any energy, emissions, or forward-looking grid/water horizon data to characterise its transition trajectory.

Today

As a registered office (non-operational asset subtype) in St Helier, Jersey, this site shows low overall water risk (score 1.6, Low-Medium 25-50% band) with low baseline water stress (1.91, Low-Medium 10-20%) and minimal water depletion (1.01), set within the Saint Helier, Jersey watershed. Coastal flood score (3.06) exceeds riverine flood score (1.63), reflecting typical exposure for a Channel Islands coastal town. No energy, water, or GHG flow data is populated at this facility, and Jersey's grid emissions-intensity figures (observed or horizon) are entirely absent, limiting visibility into Scope 2 dependency and impact for this office.

Near-term · 2030

All 2030 horizon fields for both water (wd_future_score, ws_future_score) and grid emissions intensity are null, so no quantified shift in physical or transition risk can be reported for this office by 2030. This is a data-availability gap rather than an indication of stability, and should be flagged for follow-up given Jersey's limited coverage in standard climate-risk horizon datasets.

Long-term · 2050+

No 2050+ water-stress, drought, or grid-intensity horizon data is populated for this site, so a decarbonisation trajectory and long-term residual physical risk cannot be quantified from the current dataset. Given St Helier's coastal position, physical risk analysis at longer horizons should prioritise sea-level rise and coastal flood pathways once forward-looking scores become available, rather than water depletion, which is currently negligible.

Call-outs
WATCH
No grid decarbonisation data
Jersey (JE) grid emissions-intensity horizons and observed values are absent from the dataset, so Scope 2 trajectory cannot be quantified for this office.
WATCH
No emissions or resource flows reported
The flows array is empty, meaning there is no site-level energy, water, or GHG consumption data to anchor dependency or impact magnitude.
RISK
Coastal flood exposure elevated
Coastal flood score of 3.06 is notably higher than the site's riverine flood score of 1.63, consistent with St Helier's low-lying coastal position on Jersey.
OPPORTUNITY
Low baseline water stress
Baseline water stress is Low-Medium (10-20%, score 1.91) and water depletion is very low (1.01), indicating minimal near-term water dependency risk for this registered office.

Flows0 total · 0 in / 0 out · plus site context + supply/downstream

Inputs (dependencies)
WATER · site context · Aqueduct 4.0
REALM · FRESHWATER
BWS 1.91 · Low - Medium (10-20%) · Saint Helier, Jersey
Water stress: 1.91 · 2030 · 2050 · 2080
Water depletion: 2030 · 2050 · 2080
Outputs (impacts + product)
None.

Compositions

Parent (rolls up into)
Children (0)
None.