Remote Sensing in Ecology and Conservation (Sep 2020)

Quantifying large‐scale ecosystem stability with remote sensing data

  • Hannah J. White,
  • Willson Gaul,
  • Dinara Sadykova,
  • Lupe León‐Sánchez,
  • Paul Caplat,
  • Mark C. Emmerson,
  • Jon M. Yearsley

DOI
https://doi.org/10.1002/rse2.148
Journal volume & issue
Vol. 6, no. 3
pp. 354 – 365

Abstract

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Abstract To fully understand ecosystem functioning under global change, we need to be able to measure the stability of ecosystem functioning at multiple spatial scales. Although a number of stability components have been established at small spatial scales, there has been little progress in scaling these measures up to the landscape. Remote sensing data holds huge potential for studying processes at landscape scales but requires quantitative measures that are comparable from experimental field data to satellite remote sensing. Here we present a methodology to extract four components of ecosystem functioning stability from satellite‐derived time series of Enhanced Vegetation Index (EVI) data. The four stability components are as follows: variability, resistance, recovery time and recovery rate in ecosystem functioning. We apply our method to the island of Ireland to demonstrate the use of remotely sensed data to identify large disturbance events in productivity. Our method uses stability measures that have been established at the field‐plot scale to quantify the stability of ecosystem functioning. This makes our method consistent with previous small‐scale stability research, whilst dealing with the unique challenges of using remotely sensed data including noise. We encourage the use of remotely‐sensed data in assessing the stability of ecosystems at a scale that is relevant to conservation and management practices.

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