Detecting successional changes in tropical forest structure using GatorEye drone-borne lidar

Alves de Almeida, Danilo Roberti; Almeyda Zambrano, Angelica Maria; Broadbent, Eben North; Wendt, Amanda L.; Foster, Paul; Wilkinson, Benjamin E.; Salk, Carl; Papa, Daniel de Almeida; Stark, Scott Christopher; Valbuena, Ruben; Gorgens, Eric Bastos; Silva, Carlos Alberto; Santin Brancalion, Pedro Henrique; Fagan, Matthew; Meli, Paula; Chazdon, Robin

doi:10.1111/btp.12814

Research article2020Peer reviewedOpen access

Detecting successional changes in tropical forest structure using GatorEye drone-borne lidar

Alves de Almeida, Danilo Roberti; Almeyda Zambrano, Angelica Maria; Broadbent, Eben North; Wendt, Amanda L.; Foster, Paul; Wilkinson, Benjamin E.; Salk, Carl; Papa, Daniel de Almeida; Stark, Scott Christopher; Valbuena, Ruben; Gorgens, Eric Bastos; Silva, Carlos Alberto; Santin Brancalion, Pedro Henrique; Fagan, Matthew; Meli, Paula; Chazdon, Robin

Abstract

Drone-based remote sensing is a promising new technology that combines the benefits of ground-based and satellite-derived forest monitoring by collecting fine-scale data over relatively large areas in a cost-effective manner. Here, we explore the potential of the GatorEye drone-lidar system to monitor tropical forest succession by canopy structural attributes including canopy height, spatial heterogeneity, gap fraction, leaf area density (LAD) vertical distribution, canopy Shannon index (an index of LAD), leaf area index (LAI), and understory LAI. We focus on these variables' relationship to aboveground biomass (AGB) stocks and species diversity. In the Caribbean lowlands of northeastern Costa Rica, we analyze nine tropical forests stands (seven second-growth and two old-growth). Stands were relatively homogenous in terms of canopy height and spatial heterogeneity, but not in their gap fraction. Neither species density nor tree community Shannon diversity index was significantly correlated with the canopy Shannon index. Canopy height, LAI, and AGB did not show a clear pattern as a function of forest age. However, gap fraction and spatial heterogeneity increased with forest age, whereas understory LAI decreased with forest age. Canopy height was strongly correlated with AGB. The heterogeneous mosaic created by successional forest patches across human-managed tropical landscapes can now be better characterized. Drone-lidar systems offer the opportunity to improve assessment of forest recovery and develop general mechanistic carbon sequestration models that can be rapidly deployed to specific sites, an essential step for monitoring progress within the UN Decade on Ecosystem Restoration.

Keywords

aboveground biomass; Costa Rica; forest landscape restoration; forest structure; Leaf Area Density; Leaf Area Index; second-growth forest; unmanned aerial vehicle

Published in

Biotropica
2020,
Publisher: WILEY

SLU Authors

Salk, Carl
- Southern Swedish Forest Research Centre, Swedish University of Agricultural Sciences

Sustainable Development Goals

SDG15 Protect, restore and promote sustainable use of terrestrial ecosystems, sustainably manage forests, combat desertification, and halt and reverse land degradation and halt biodiversity loss

UKÄ Subject classification

Ecology

Publication identifier

DOI: https://doi.org/10.1111/btp.12814

Permanent link to this page (URI)

https://res.slu.se/id/publ/107183