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Malmö office property (Investment Properties) · Transition modelFACILITY

Skanska · operating_office · Malmö, SE · 55.605, 13.000
basis: MEASURED · confidence: 0.65 · status: active

Climate & nature exec summaryMalmö, SE · claude-sonnet-5 · 2026-07-07

Malmö office property carries low water and flood risk today and benefits from one of the world's cleanest grids, with Sweden's already-low carbon intensity set to fall further by 2050.

Today

This 38,543 sqm office asset in Malmö, Skåne (SE), sits in the Baltic Sea watershed with a Low overall water risk score (0.44) and Low baseline water stress (BWS score 0.956, label "Low <10%"), alongside a moderate drought score of 2.72 and low coastal (1.13) and riverine (1.32) flood scores. The dominant impact channel is Scope 2 electricity, and Sweden's grid is already very clean at an observed 35.26 gCO2/kWh (2025, Ember Yearly Electricity), meaning the facility's energy-related carbon footprint is structurally low relative to global peers. No flow-level water or energy consumption data is provided for this facility, limiting quantification of absolute dependency magnitude.

Near-term · 2030

By 2030, Sweden's grid carbon intensity is projected to be 25 gCO2/kWh under IEA WEO 2024 STEPS (down from the 2025 observed 35.26 gCO2/kWh), reinforcing an already favourable energy-transition position for this office asset. Water-related forward indicators (2030 wd/ws scores and labels) are not populated in this dataset, so no quantified shift in basin-level water risk can be cited for this horizon; the facility's exposure should be assumed static at today's Low classification pending updated data. No flow-level consumption or discharge data exists for this site, limiting granularity on how operational water or energy use might change by 2030.

Long-term · 2050+

By 2050 Sweden's grid is projected at just 15 gCO2/kWh under IEA WEO 2024 STEPS, meaning Scope 2 emissions from this facility approach a negligible residual as the national system continues to decarbonise beyond the 2030 milestone. The physical risk picture over this horizon is harder to characterise: no 2050 or 2080 water depletion or stress labels are provided in this dataset, leaving residual water-related physical risk unquantified even though today's baseline is Low. Absent updated horizon data, the long-term view rests on the assumption that Baltic Sea basin conditions do not materially deteriorate, with coastal and riverine flood exposure the more trackable residual physical risk given the site's Malmö coastal setting.

Call-outs
OPPORTUNITY
Near-zero grid intensity today
SE grid observed intensity is 35.26 gCO2/kWh in 2025 (Ember Yearly Electricity 2025), already an order of magnitude below global averages, minimising Scope 2 exposure for this office asset.
WATCH
Grid decarbonises further to 2050
IEA WEO 2024 STEPS projects Sweden's grid intensity falling from 25 gCO2/kWh (2030) to 15 gCO2/kWh (2050), effectively closing residual transition risk on the energy-dependency side.
WATCH
Water future-state data gap
Forward-looking water depletion and stress labels for 2030/2050/2080 are not populated, so the current Low baseline (BWS 0.956, overall risk 0.44) cannot yet be tested against a 2050+ trajectory.
RISK
Flood scores modest but nonzero
Coastal (1.13) and riverine (1.32) flood scores in the Baltic Sea watershed are low but should be monitored as building-level physical risk inputs given the site's coastal Malmö location.

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

Inputs (dependencies)
WATER · site context · Aqueduct 4.0
REALM · FRESHWATER
BWS 0.96 · Low (<10%) · Baltic Sea (ex 641, 654, 656, 672, 673)
Water stress: 0.96 · 2030 · 2050 · 2080
Water depletion: 2030 · 2050 · 2080
ENERGY · site context · grid carbon
REALM · ATMOSPHERE
SE · Ember observed + IEA WEO STEPS
2025: 35 gCO₂/kWh2030: 252050: 152080:
Outputs (impacts + product)
None.

Compositions

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