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Park Moissy 2 DC1 · Transition modelFACILITY

Prologis · asset · Moissy-Cramayel, FR · 48.627, 2.594
basis: MEASURED · confidence: 0.65 · status: active

Climate & nature exec summaryMoissy-Cramayel, FR · claude-sonnet-5 · 2026-07-07

Park Moissy 2 DC1 is a 1M sqft logistics asset in the Seine basin (FR) facing Medium-High baseline water stress against an already near-decarbonised national grid.

Today

This 1,000,000 sqft logistics/distribution facility near Moissy-Cramayel, Île-de-France, draws on the Seine watershed, which carries a Medium-High baseline water stress label (score 2.87) and a drought score of 3.20, alongside an overall physical risk score of 1.12 (Low-Medium, 25-50%). Riverine flood exposure is modest (0.93) and coastal flood risk is nil, while untreated wastewater risk is low (0.87). On the impact side, Scope 2 GHG exposure is currently modest given France's already low observed grid intensity of 41.44 gCO2/kWh (2025, Ember), making energy-related carbon impact a secondary concern relative to water dependency at this site.

Near-term · 2030

By 2030, the French grid is expected to decarbonise further to 35 gCO2/kWh (IEA WEO 2024 STEPS), reinforcing the site's already low Scope 2 carbon trajectory and reducing energy-related transition risk. No corresponding 2030 water-stress or water-depletion horizon values are available in this dataset, leaving the water dependency trajectory unquantified even as the energy picture continues to improve.

Long-term · 2050+

By 2050, France's grid carbon intensity is projected to fall further to 20 gCO2/kWh under IEA STEPS, effectively eliminating Scope 2 GHG as a material impact channel for this site and shifting the risk narrative almost entirely toward physical/water exposure. Residual risk hinges on Seine watershed dynamics; absent published 2050/2080 water-stress or depletion horizon scores, the facility's long-term physical risk trajectory remains a data gap rather than a quantified trend, and should be revisited as watershed-level projections become available.

Call-outs
OPPORTUNITY
Grid already near-decarbonised
The French grid observed intensity is 41.44 gCO2/kWh in 2025 (Ember), already far below global averages, giving Scope 2 emissions minimal materiality today and near-zero headroom for further gains.
WATCH
Baseline water-stress score
Seine basin water stress sits at Medium-High (20-40%, score 2.87) with drought score 3.20, warranting monitoring even though no forward water-stress horizon data is populated.
WATCH
Missing water horizon data
2030/2050/2080 water-depletion and water-stress horizon scores are all null, so forward physical-risk trajectory for water cannot be quantified from this dataset.
OPPORTUNITY
Grid trajectory to near-zero
IEA STEPS horizons show France grid carbon intensity falling to 35 gCO2/kWh by 2030 and 20 gCO2/kWh by 2050, reinforcing a low-carbon electricity dependency profile for this facility.

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

Inputs (dependencies)
WATER · site context · Aqueduct 4.0
REALM · FRESHWATER
BWS 2.88 · Medium - High (20-40%) · SEINE
Water stress: 2.88 · 2030 · 2050 · 2080
Water depletion: 2030 · 2050 · 2080
ENERGY · site context · grid carbon
REALM · ATMOSPHERE
FR · Ember observed + IEA WEO STEPS
2025: 41 gCO₂/kWh2030: 352050: 202080:
Outputs (impacts + product)
None.

Compositions

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