Designing effective carbon border adjustment with minimal information requirements. Theory and empirics
Designing effective carbon border adjustment with minimal information requirements. Theory and empirics
High carbon prices in the EU might drive emission-intensive industrial processes towards countries with relatively lower carbon prices. To prevent such carbon leakage, the EU’s Carbon Border Adjustment Mechanism (CBAM) taxes emissions embedded in imports for the difference between carbon prices in the EU and the origin country. Because embedded emissions are very difficult to measure, CBAM applies to only five industries and accepts benchmarks instead of actual embedded emissions. These simplifications make CBAM tractable but compromise its effect on carbon leakage. We propose an alternative policy that requires no knowledge of embedded emissions and can be applied to all tradable sectors: the Leakage Border Adjustment Mechanism (LBAM). LBAM implements import tariffs (and, possibly, export subsidies) that sterilize the changes in imports (and exports) induced by a higher EU carbon price. LBAM requires information only about domestic output-to-emissions elasticities as well as elasticities of import demand and export supply, which we estimate using publicly available data. We calibrate a granular structural trade model with 57 countries and 131 sectors to quantify the welfare and emission impacts of LBAM. We find that LBAM improves over CBAM in terms of global emissions and EU welfare. We assess how ‘climate clubs’ of countries that adopt common carbon prices and border adjustments mechanisms perform on these outcomes.
Centre for Inclusive Trade Policy
Campolmi, Alessia
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Fadinger, Harald
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Forlati, Chiara
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Stillger, Sabine
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Wagner, Ulrich J.
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4 April 2024
Campolmi, Alessia
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Fadinger, Harald
174de952-49b6-4bd7-a00c-3b577b828b89
Forlati, Chiara
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Stillger, Sabine
c5b04ef6-d9df-4354-bb6f-c7ebf71c0da0
Wagner, Ulrich J.
059bf7b6-9884-4fe0-b576-d671809cd8ad
Campolmi, Alessia, Fadinger, Harald, Forlati, Chiara, Stillger, Sabine and Wagner, Ulrich J.
(2024)
Designing effective carbon border adjustment with minimal information requirements. Theory and empirics
(CITP Working Papers, 012)
Centre for Inclusive Trade Policy
65pp.
Record type:
Monograph
(Working Paper)
Abstract
High carbon prices in the EU might drive emission-intensive industrial processes towards countries with relatively lower carbon prices. To prevent such carbon leakage, the EU’s Carbon Border Adjustment Mechanism (CBAM) taxes emissions embedded in imports for the difference between carbon prices in the EU and the origin country. Because embedded emissions are very difficult to measure, CBAM applies to only five industries and accepts benchmarks instead of actual embedded emissions. These simplifications make CBAM tractable but compromise its effect on carbon leakage. We propose an alternative policy that requires no knowledge of embedded emissions and can be applied to all tradable sectors: the Leakage Border Adjustment Mechanism (LBAM). LBAM implements import tariffs (and, possibly, export subsidies) that sterilize the changes in imports (and exports) induced by a higher EU carbon price. LBAM requires information only about domestic output-to-emissions elasticities as well as elasticities of import demand and export supply, which we estimate using publicly available data. We calibrate a granular structural trade model with 57 countries and 131 sectors to quantify the welfare and emission impacts of LBAM. We find that LBAM improves over CBAM in terms of global emissions and EU welfare. We assess how ‘climate clubs’ of countries that adopt common carbon prices and border adjustments mechanisms perform on these outcomes.
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2024_Designing-Effective-Carbon-Border-Adjustment-with-Minimal-Information-Requirements_CITP_WP12
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Published date: 4 April 2024
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Local EPrints ID: 492000
URI: http://eprints.soton.ac.uk/id/eprint/492000
PURE UUID: 6b01d4b1-d6e4-4399-aca6-212db9616ee7
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Date deposited: 11 Jul 2024 16:32
Last modified: 12 Jul 2024 01:52
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Contributors
Author:
Alessia Campolmi
Author:
Harald Fadinger
Author:
Sabine Stillger
Author:
Ulrich J. Wagner
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