Overview of the Study
The article, published in Ecological Economics and authored by Sophus O.S.E. zu Ermgassen, Michal P. Drewniok, Joseph W. Bull, Christine M. Corlet Walker, Mattia Mancini, Josh RyanâCollins and AndrĂ© Cabrera Serrenho, examines how Englandâs housing policy interacts with national climate and biodiversity goals. It highlights the tension between the governmentâs target of building 300,000 new homes per year and the need to stay within the countryâs cumulative carbon budget compatible with a 1.5 °C warming limit.
Key Findings on Carbon Budgets
Using materialâflow and landâuse models, the authors estimate that the businessâasâusual housing strategy would consume 104 % of Englandâs cumulative carbon budget for a 1.5 °C pathway by 2050. Of this, 92 % of emissions stem from the existing housing stock, while 9 % arise from the construction of new homes. Alternative scenarios that combine rapid retrofitting of existing dwellings with zeroâcarbon newâbuild standards reduce the budget share to 70 % (scenario 2) and 60 % (scenario 3). Retrofitting all homes to the performance of 2018 newâbuilds by 2035 could avoid 0.8 GtCOâe, equivalent to 32 % of the 1.5 °C budget.
Biodiversity Impacts of Housing Expansion
The study estimates that urban expansion will convert about 12,500 ha of farmland per year between 2006 and 2030, leading to an average loss of 0.04 species per hectare and a 5.7 % decline in species richness in affected areas. To meet Englandâs 2030 wildlifeâabundance target, biodiversityânetâgain measures must fully compensate for these losses or the rate of landâtake must be reduced.
Political Economy of Housing Growth
The authors identify three âgrowthâdependenciesâ that lock England into continued housebuilding: (1) homeownersâ reliance on property as a financial asset, reinforced by political influence; (2) macroâeconomic dependence on construction employment and related productivity gains; (3) localâgovernment financing mechanisms that tie affordableâhousing delivery to privateâsector development through Section 106 agreements. These factors create strong resistance to policies that would curb housebuilding or shift demand away from speculative investment.
Policy Levers for Sustainable Housing
The paper outlines four policy avenues: (i) improving efficiency of the existing stock by reducing vacant or underâoccupied homes, encouraging downsizing and coâliving, and implementing taxes on second homes and foreign ownership; (ii) reducing housingâs role as a financial asset via landâvalue taxes, macroâprudential mortgage controls and redefining inflation to include housing costs; (iii) setting stringent standards for newâbuilds, including zeroâcarbon operational performance, stronger biodiversityânetâgain enforcement and evidenceâbased species mitigation; (iv) accelerating retrofitting of the existing stock through electrified heating, insulation upgrades and grid decarbonisation.
Scenario Comparisons
- Business as usual (Scenario 1): 300,000 net new homes per year; 104 % of 1.5 °C carbon budget consumed; 12 % of the budget used by newâbuild constructions.
- Supplyâside greening (Scenario 2): Same construction rate but zeroâcarbon newâbuilds from 2035 and retrofitting to 2018 standards by 2035; 70 % of the carbon budget used.
- Strong sustainability (Scenario 3): Construction declines to zero net additions by 2035, full retrofitting to zeroâcarbon by 2050; 60 % of the carbon budget used.
Implications for Europe
For a panâEuropean audience, the analysis demonstrates that largeâscale housing expansion can quickly exhaust national carbon allowances and threaten biodiversity targets, a risk shared across many EU member states facing housing affordability crises. The study underscores the importance of retrofitting existing dwellings, enforcing stringent newâbuild standards, and reforming fiscal and financial policies to decouple housing from speculative capital. These measures can help align housing development with the EUâs Green Deal objectives and the Biodiversity Strategy for 2030.