Bitcoin and Carbon Dioxide Emissions: Evidence from Daily Production Decisions
Environmental externalities from cryptomining may be large, but have not been linked causally to mining incentives. We exploit daily variation in Bitcoin price as a natural experiment for an 86 megawatt coal-fired power plant with on-site cryptomining. We find that carbon emissions respond swiftly to mining incentives, with price elasticities of 0.69-0.71 in the short-run and 0.33-0.40 in the longer run. A $1 increase in Bitcoin price leads to $3.11-$6.79 in external damages from carbon emissions alone, well exceeding cryptomining’s value added (using a $190 social cost of carbon, but ignoring increased local air pollution). As cryptomining requires ever more computing power to mine a given number of blocks, our study highlights both the revitalization of US fossil assets and the potential value of financial industry accounting standards that incorporate cryptomining externalities.
-
-
Copy CitationAnna Papp, Douglas Almond, and Shuang Zhang, "Bitcoin and Carbon Dioxide Emissions: Evidence from Daily Production Decisions," NBER Working Paper 31745 (2023), https://doi.org/10.3386/w31745.
-
Published Versions
Anna Papp & Douglas Almond & Shuang Zhang, 2023. "Bitcoin and carbon dioxide emissions: Evidence from daily production decisions," Journal of Public Economics, vol 227.
Related
Mentioned in the News
More from the NBER
In addition to working papers, the NBER disseminates affiliates’ latest findings through a range of free periodicals — the NBER Reporter, the NBER Digest, the Bulletin on Health, and the Bulletin on Entrepreneurship — as well as online conference reports, video lectures, and interviews.
