Managing uncertainty in carbon offsets: insights from California's standardized approach

Managing uncertainty in carbon offsets: insights from California's standardized approach

Carbon offsets allow greenhouse gas emitters to comply with an emissions cap by paying others outside of the capped sectors to reduce emissions. The first major carbon offset programme, the United Nations' Clean Development Mechanism (CDM), has been criticized for generating a large number of c...

Full description

Saved in:
Bibliographic Details
Published in:Climate policy 2020-10, Vol.20 (9), p.1112-1126
Main Authors: Haya, Barbara, Cullenward, Danny, Strong, Aaron L., Grubert, Emily, Heilmayr, Robert, Sivas, Deborah A., Wara, Michael
Format: Article
Language:eng
Subjects:
additionality
Administrators
Approaches
Best practice
Best practices
cap-and-trade
Carbon
Carbon offsets
Clean Development Mechanism
Coal
Coal mines
Coal mining
Compliance
Criteria
Cultivation
Decision making
Emission
Emissions
Emissions control
Emissions trading
Emitters
Estimation
Gases
Grain cultivation
Greenhouse effect
Greenhouse gases
Incentives
International organizations
Market prices
Methane
Methane emissions
Methods
mine methane
Offsets
Policies
Pricing policies
Programmes
Protocols
Quality
Quality assessment
Quality control
Rice
Risk reduction
Second generation
Uncertainty
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Carbon offsets allow greenhouse gas emitters to comply with an emissions cap by paying others outside of the capped sectors to reduce emissions. The first major carbon offset programme, the United Nations' Clean Development Mechanism (CDM), has been criticized for generating a large number of credits from projects that do not actually reduce emissions. Following the controversial CDM experience, California pioneered a second-generation compliance offset programme that shifts the focus of quality control from assessments of individual projects to the development of offset protocols, which define project type-specific eligibility criteria and methods for estimating emissions reductions. We assess the ability of California's 'standardized approach' to mitigate the risk of over-crediting greenhouse gas reductions by reviewing the development of two California offset protocols - Mine Methane Capture and Rice Cultivation. We examine the regulator's treatment of three sources of over-crediting under the CDM: non-additional projects, inflated counterfactual baseline scenarios, and perverse incentives that inadvertently increase emissions. We find that the standardized approach offers the ability to reduce, but not eliminate, the risk of over-crediting. This requires careful protocol-scale analysis, conservative methods for estimating reductions, ongoing monitoring of programme outcomes, and restricting participation to project types with manageable levels of uncertainty in emission reductions. However, several of these elements are missing from California's regime, and even best practices result in significant uncertainty in true emission reductions. Relying on carbon offsets to lower compliance costs risks lessening total emission reductions and increases uncertainty in whether an emissions target has been met. Key policy insights Substantial and ongoing oversight by offset programme administrators is needed to contain uncertainty and avoid over-crediting. California's Mine Methane Capture Protocol may have influenced federal decisions not to regulate methane emissions from coal mines on federally-owned lands. Government priorities and methodological choices drive outcomes in carbon pricing policies with large offset programmes, contrary to the common perception that these policies delegate decision-making to private actors. Offsets are better understood as a way for regulated emitters to invest in an incentive programme that achieves difficult-to-estimate emissi
ISSN:1469-3062
1752-7457