ORCID

Abstract

Estimating thresholds to distinguish between good and degraded ecosystem states is key for assessing and managing marine environments. Numerous methods are used to estimate thresholds; however, there is no standardized framework to evaluate their accuracy and reliability, which reduces the consistency and transparency of thresholds estimated for 'good' status. Statistical robustness of four methods was evaluated by varying stochastic noise, sample size, and shape of the pressure-state relationship of simulated indicator data. Range of natural variation and statistically detectable change methods, which quantify natural variation in undisturbed reference conditions, reliably estimated status thresholds for noisy, small datasets, but thresholds were lower than what would have been estimated without noise present or with a greater sample size. Tipping points and distance to degradation methods, which estimate the point at which a system is about to reach, or has reached, a degraded state, failed to estimate thresholds or fit models that were consistent with the underlying relationship as noise increased and sample size decreased. Therefore, for small or noisy datasets, range of natural variation is most suitable to estimate ecologically meaningful, reliable, and transparent thresholds for good status, while for larger datasets with low noise levels, all four methods are likely to be useful.

Publication Date

2025-03-01

Publication Title

ICES Journal of Marine Science

Volume

82

Issue

3

ISSN

1054-3139

Acceptance Date

2025-02-10

Deposit Date

2025-08-07

Keywords

BBNJ agreement, good environmental status, Kunming-Montreal Global Biodiversity Framework, Marine Strategy Framework Directive, UK Marine Strategy

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