Litcius/Paper detail

Reliability of vegetation resilience estimates depends on biomass density

Taylor Smith, Niklas Boers

2023Nature Ecology & Evolution81 citationsDOIOpen Access PDF

Abstract

Concerns have been raised that the resilience of vegetated ecosystems may be negatively impacted by ongoing anthropogenic climate and land-use change at the global scale. Several recent studies present global vegetation resilience trends based on satellite data using diverse methodological set-ups. Here, upon a systematic comparison of data sets, spatial and temporal pre-processing, and resilience estimation methods, we propose a methodology that avoids different biases present in previous results. Nevertheless, we find that resilience estimation using optical satellite vegetation data is broadly problematic in dense tropical and high-latitude boreal forests, regardless of the vegetation index chosen. However, for wide parts of the mid-latitudes-especially with low biomass density-resilience can be reliably estimated using several optical vegetation indices. We infer a spatially consistent global pattern of resilience gain and loss across vegetation indices, with more regions facing declining resilience, especially in Africa, Australia and central Asia.

Topics & Concepts

Vegetation (pathology)Resilience (materials science)Environmental scienceBiomass (ecology)Physical geographyLatitudeBorealClimate changeGeographyEstimationEnvironmental resource managementScale (ratio)SatelliteTaigaClimatologyEcologyCartographyForestryGeologyAerospace engineeringThermodynamicsMedicinePhysicsEngineeringGeodesyEconomicsManagementBiologyArchaeologyPathologyEcosystem dynamics and resilienceLand Use and Ecosystem ServicesEcology and Vegetation Dynamics Studies