4.6 Article

Camera traps enable the estimation of herbaceous aboveground net primary production (ANPP) in an African savanna at high temporal resolution

Journal

REMOTE SENSING IN ECOLOGY AND CONSERVATION
Volume 8, Issue 5, Pages 583-600

Publisher

WILEY
DOI: 10.1002/rse2.263

Keywords

ANPP; digital repeat photography; grasslands; rangelands; remote sensing; Sentinel-2

Funding

  1. EU [641918]

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Determining the drivers of aboveground net primary production (ANPP) is a crucial goal in ecosystem ecology. This study tested methods for estimating herbaceous productivity in savanna ecosystems, comparing different spectral greenness indices and their relationship to field-measured ANPP. The results showed that a satellite-based model including average NDVIs and its rate of change predicted herbaceous ANPP reasonably well, but the predictive accuracy was improved when using a camera trap-derived vegetation greenness index. The study also highlighted the importance of fine temporal resolution in capturing vegetation responses to rainfall events.
Determining the drivers of aboveground net primary production (ANPP), a key ecosystem process, is an important goal of ecosystem ecology. However, accurate estimation of ANPP across larger areas remains challenging, especially for savanna ecosystems that are characterized by large spatiotemporal heterogeneity in ANPP. Satellite remote sensing methods are frequently used to estimate productivity at the landscape scale but generally lack the spatial and temporal resolution to capture the determinants of productivity variation. Here, we developed and tested methods for estimating herbaceous productivity as an alternative to labour-intensive repeated biomass clipping and caging of small plots. We compared measures of three spectral greenness indices, normalized difference vegetation index derived from Sentinel-2 (NDVIs) and a handheld radiometer (NDVIg), and green chromatic coordinate derived from digital repeat cameras (GCC) and tested their relationship to biweekly field-measured herbaceous ANPP using movable exclosures. We found that a satellite-based model including average NDVIs and its rate of change (Delta NDVIs) over the biweekly productivity measurement interval predicted herbaceous ANPP reasonably well (Jackknife R-2 = 0.26). However, the predictive accuracy doubled (Jackknife R-2 = 0.52) when including the sum of day to day increases in camera trap-derived vegetation greenness (tGCC). This result can be considered promising, given the current lack of productivity estimation methods at comparable spatiotemporal resolution. We furthermore found that the fine (daily) temporal resolution of GCC time series captured fast vegetation responses to rainfall events that were missed when using a coarser temporal resolution (>2 days). These findings demonstrate the importance of measuring at a fine temporal resolution for predicting herbaceous ANPP in savanna ecosystems. We conclude that camera traps are promising in offering a reliable and cost-effective method to estimate productivity in savannas and contribute to a better understanding of ecosystem functioning and its drivers.

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