1. Landsat data respond to variations in the structure of Caatinga plant communities along a successional gradient
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FERNANDA KELLY G. DA SILVA, FERNANDO ROBERTO MARTINS, ADUNIAS DOS SANTOS TEIXEIRA, JEAN-FRANÇOIS MAS, BRUNO S. DE MENEZES, FLAVIO JORGE PONZONI, and FRANCISCA S. DE ARAÚJO
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ecological succession ,Landsat ,phytosociology ,remote sensing ,semiarid ,Science - Abstract
Abstract Plant community succession is generally approached with phytosociological methods, but field surveys are time-consuming, expensive, and limited to several of sites. Remote sensing offers an efficient and economical way to analyze vegetation on large extensions and in inaccessible areas. Most studies addressing remote sensing and tree community succession refer to forest physiognomies. We investigated whether structural changes that occur in non-forest physiognomies are identified by multispectral sensor images (OLI-Landsat). Thirteen 0.1-ha plots were set up in Caatinga fragments aging 10-15, 20-25, 30-35, 40-45 and >50 years to calculate the total density of individuals (TD), mean canopy height (H), total basal area (G) and total aboveground biomass (AGB). We performed correlation analyses between these structural descriptors and eight remote sensing variables (reflectance data and spectral indices) obtained from Landsat images at the end of the rainy season and during the dry season. Blue and short-wave infrared reflectances were negatively correlated with mean height, basal area and biomass, regardless of the analyzed scene (coefficients between -0.58 and -0.79). The litter layer (a non-photosynthetic vegetation component) and the soil exposure are important factors influencing the spectral data.
- Published
- 2023
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