The Montreal Protocol (MP) Scientific Assessment Panel (SAP) is charged with providing scientific information for the Montreal Protocol on Substances that Deplete the Ozone Layer. This information provides the scientific basis for decisions made by the Parties. A major element of this responsibility is the quadrennial Scientific Assessment of Ozone Depletion – mandated under the MP's Article 6. The SAP Co-Chairs are responsible for leading this report. Here we discuss the 2018 assessment, the eighth since 1991.
The 2018 assessment terms of reference were provided by the Parties at the 27th Meeting of the Parties in Dubai in 2015. The terms, included below, are broadly defined under Article 3 of the Vienna Convention which is concerned with ozone depletion and the role of ozone-depleting substances (ODSs). Science topics also include updates of those found in previous assessments; for example, ODSs and other trace gases, global and polar ozone, stratospheric temperatures and circulation, ultraviolet radiation, the interrelation between climate changes and global ozone, and the policy implications of Montreal Protocol decisions.
An amendment to the Montreal Protocol to regulate the production and consumption of hydrofluorocarbons (HFCs) was adopted at the 28th Meeting of Parties in Kigali, Rwanda, on 15 October 2016. The Kigali amendment will avoid large emissions of HFCs over the coming decades as the developing world advances and expands its use of various compounds in its refrigeration, air conditioning, foam, and other economic sectors. HFCs are ODS substitute compounds that only weakly impact ozone, but could contribute substantially to anthropogenic climate forcing. The amendment increases the importance of the SAP examining current and projected emissions of HFCs and their impacts in the new assessment.
The Assessment includes three documents:
All of the assessment documents — core assessment, Executive Summary, and Twenty Questions booklet — are available as PDF downloads. In addition to the full documents, the figures and graphics are available in several formats to download. The web distribution follows the approach taken for the last several assessments. In 2014, the core assessment was only in electronic form (UNEP/WMO Scientific Assessment of Ozone Depletion: 2014), but based upon feedback from the community the entire 2018 assessment was produced in printed form. Quantities will be limited and distributed as requested to the assessment authors and reviewers, the Parties, other interested scientists, and those in non-governmental organizations (NGOs), etc.
The chapter structure for the 2018 assessment contains six chapters, listed with a brief suggested synopsis:Chapter 1. Ozone-Depleting Substances
Focus: Long-lived and short-lived substances that deplete the ozone layer (e.g., CFCs, HCFCs, methyl bromide) and other molecules of special interest to the Parties (e.g., N2O, other substitutes, very short-lived substances). Sections address ODS lifetimes, trends, and budgets based on observations and models. Updated information on the carbon tetrachloride budget is included.Chapter 2. Hydrofluorocarbons (HFCs)
Focus: The lifetimes, trends, and budgets of leading HFCs based on observations and models and scenarios of future consumption, emissions, and radiative forcing. Of special interest are the provisions of the recent agreement to phasedown HFC production and consumption under the Montreal Protocol.Chapter 3. Global stratospheric ozone: Past, present, and future
Focus: Examining the trends in global ozone and future projections taking into account climate change, greenhouse gas increases, aerosols, dynamical changes, the solar cycle, and other non- halogen effects within the vertical distribution of ozone. Attribution of past ozone changes and evidence of recovery are included in this chapter through the analysis of a range of model simulations (3D and climate models).Chapter 4. Polar stratospheric ozone: Past, present, and future
Focus: The status of ozone layer depletion in both the Arctic and Antarctic winter/spring seasons, building upon recent observations, field studies, and theory. Topics of interest are response of the Antarctic ozone hole to reductions in stratospheric chlorine loading and future greenhouse gas increases and climate change; and the influence of temperature changes and tropospheric composition on future Arctic ozone depletion.Chapter 5. Stratospheric ozone changes and climate
Focus: The influence of stratospheric changes (ozone, temperature, circulation, etc.) on surface climate and tropospheric chemistry, and the influence of climate change and tropospheric composition changes (observed and projected) on the ozone layer. Topics also include stratospheric water vapor, stratospheric aerosols and sulfur species, and temperature feedbacks to both chemistry and dynamics.Chapter 6. Scenarios and Information for Policymakers
Focus: Projected future scenarios of effective equivalent stratospheric chlorine (EESC) and HFCs. Future scenarios were developed (via interaction with the Technology and Economic Assessment Panel) for emissions of controlled substances expected under the Protocol and other assumptions.
Co-Chairs David Fahey (USA), Paul Newman (USA), John Pyle (UK), and Bonfils Safari (Rwanda)
Assessment Coordinator Sarah Doherty (USA)
Steering Committee (see Organization Chart)
Chapter Authors and Review Editors (see Organization Chart)
Publication and graphics team Debe Dailey-Fisher (USA), Ann Reiser (USA)
To request the Scientific Assessment Panel "to undertake, in its 2018 report, a review of the scientific knowledge as dictated by the needs of the parties to the Montreal Protocol, as called for in the terms of reference for the panels, taking into account those factors stipulated in Article 3 of the Vienna Convention, including estimates of the levels of ozone-layer depletion attributed to the remaining potential emissions of ozone-depleting substances and an assessment of the level of global emissions of ozone-depleting substances below which the depletion of the ozone layer could be comparable to various other factors such as the natural variability of global ozone, its secular trend over a decadal timescale and the 1980 benchmark level."
The most recent ozone assessment was delivered in 2014. It is comprised of the main document with 5 chapters, the Assessment for Decision Makers (ADM) and the Twenty Questions and Answers About the Ozone Layer: 2014 Update.