NEW article: A land degradation interpretation matrix for reporting on UN SDG indicator 15.3.1 and land degradation neutrality
The Land Degradation Neutrality Initiative of the UN Convention to Combat Desertification (UNCCD) encourages each of the 123 signatory countries to stabilise or reduce their extent of degraded land.
- Land degradation is assessed using the methods described in the Good Practice Guidance (GPG) document for Sustainable Development Goal (SDG) Indicator 15.3.1 (the proportion of land that is degraded over total land area), using three sub-indicators: land cover change, land productivity and soil organic carbon (SOC) stocks (as a proxy for carbon stocks above and below ground).
The GPG identifies degraded areas by aggregating the sub-indicator assessments using a one-out-all-out (1OAO) approach, in which an area is identified as degraded if any one or more of the sub-indicators shows degradation i.e. a land cover transition defined as degradation, a reduction in productivity, and/or a reduction in SOC stocks.
Under some circumstances, however, the 1OAO method can result in a counterintuitive degradation assessment, such as where the removal of invasive plant species reduces plant biomass, which would normally suggest degradation of net primary production, but which in this circumstance is considered a positive change in the context of land remediation activities.
Each country has the opportunity to report areas within its sovereign bounds as an error of ‘false positive’ or ‘false negative’ degradation with sufficient justification, however it is vital that this is done in a way that ensures consistency of reporting amongst countries at regional and global scales.
- The degradation interpretation matrix guides decisions for UN SDG Indicator 15.3.1.
- Some remediation activities can cause land to be classified as degraded.
- Biophysical information alone is insufficient to determine land degradation state.
This paper describes scenarios in which the 1OAO process can lead to a counterintuitive degradation assessment, focusing on the potential impacts of invasive plants, woody encroachment (i.e. bush encroachment), and land remediation activities on SOC stocks as examples.
The authors present an interpretation matrix to assist with determining how to report degradation in these cases, and help identify the drivers of degradation and potential remediation activities. Increased clarity around degradation labelling and interpretation could improve reporting consistency and transparency, and increase the efficiency and effectiveness of land degradation remediation actions.
To facilitate a consistent approach to interpreting land degradation, the authors describe some common land cover change scenarios that may potentially lead to anomalous degradation assessments, and the conditions that may complicate the interpretation of degradation if guided only by biophysical indicators and human preference.
The degradation interpretation matrix developed assists with determining the most appropriate reporting class for these areas, where interpretation is aided by the recognition that land degradation is a concept that integrates biophysical and socioeconomic factors; and that interpretation of the ‘state of the ecosystem’ needs to convey information on the capability of the biophysical system to produce ecosystem services relevant to the livelihoods of user -local- communities (socio-economic system). Published in Environmental Science & Policy; Volume 114, December 2020, Pages 1-6