Ecosphere (Mar 2021)

Measuring savanna woody cover at scale to inform ecosystem restoration

  • David A. Loewensteiner,
  • Renee E. Bartolo,
  • Timothy G. Whiteside,
  • Andrew J. Esparon,
  • Chris L. Humphrey

DOI
https://doi.org/10.1002/ecs2.3437
Journal volume & issue
Vol. 12, no. 3
pp. n/a – n/a

Abstract

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Abstract The maturity of remote sensing and ecosystem restoration science provides new opportunities to monitor and assess ecosystem indicators at finer resolutions and at suitable scales. A key link in joining these fields is creating a framework to apply these rich datasets to ecosystem restoration projects. Savanna woodland ecosystems have discontinuous tree cover that is an important, but potentially highly variable, structural component of these ecosystems. Woody cover in savannas is also well suited to being measured with remote sensing techniques. We extracted woody cover from a 66‐yr time series of aerial imagery covering 1718 ha of mesic savanna ecosystem in northern Australia, adjacent to the Ranger uranium mine and encompassing portions of Kakadu National Park. This ecosystem is proposed as a reference ecosystem that may be used to comparatively assess and monitor restoration trajectories of the mine site in the coming decades. The spatiotemporal patterns of change in woody cover were assessed at spatial extents similar to the mine site. We were able to construct a robust distribution of canopy cover values and associated spatial heterogeneity that can be used to set closure criteria, inform restoration trajectories, and guide monitoring activities for the restored mine site.

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