Estimating canopy and stand structure in hybrid poplar plantations from multispectral UAV imagery

Authors

  • Elio Romano CREA- Council for Agricultural Research and Economics, Research Centre for Engineering and Agro-Food Pro-cessing. Treviglio (BG), ITALY
  • Massimo Brambilla CREA- Council for Agricultural Research and Economics, Research Centre for Engineering and Agro-Food Pro-cessing. Treviglio (BG), ITALY
  • Francesco Chianucci CREA-FL, Council for Agricultural Research and Economics, Research Centre for Forestry and Wood, Arezzo, Italy
  • Clara Tattoni DiSTA—Dipartimento di Scienze Teoriche ed Applicate, Università degli Studi dell’Insubria, Varese, Italy / Geolab Laboratory of Forest Geomatics, Department of Agriculture Food Environment and Forestry, University of Florence, Florence, Italy
  • Nicola Puletti CREA-FL, Council for Agricultural Research and Economics, Research Centre for Forestry and Wood, Arezzo, Italy
  • Gherardo Chirici Geolab Laboratory of Forest Geomatics, Department of Agriculture Food Environment and Forestry, University of Florence, Florence, Italy | ForTech Laboratorio Congiunto, University of Florence, Florence, Italy
  • Davide Travaglini Geolab Laboratory of Forest Geomatics, Department of Agriculture Food Environment and Forestry, University of Florence, Florence, Italy | ForTech Laboratorio Congiunto, University of Florence, Florence, Italy
  • Francesca Giannetti Geolab Laboratory of Forest Geomatics, Department of Agriculture Food Environment and Forestry, University of Florence, Florence, Italy; ForTech Laboratorio Congiunto, University of Florence, Florence, Italy https://orcid.org/0000-0002-4590-827X

DOI:

https://doi.org/10.15287/afr.2024.3636

Abstract

Accurate estimates of canopy structure like canopy cover (CC), Leaf Area Index (LAI), crown volume (Vcr), as well as tree and stand structure like stem volume (V_st) and basal area (G), are considered essential measures to manage poplar plantations effectively as they are correlated with the growth rate and the detection of possible stress. This research exploits the possibility of developing a precision forestry application using an unmanned aerial vehicle (UAV), terrestrial digital camera and traditional field measurements to monitor poplar plantation variables. We set up the procedure using explanatory variables from the Grey Level Co-occurrence Matrix textural metrics (Entropy, Variance, Dissimilarity and Contrast) calculated based on UAV multispectral imagery. Our results show that the GCLM texture derived by multispectral ortomosaic provides adequate explanatory variables to predict poplar plantation characteristics related to plants' canopy and stand structure. The evaluation of the models targeting the different poplar plantation variables (i.e. Vcr, G_ha, Vst_ha, CC and LAI) with the four GLCM explanatory variables (i.e. Entropy, Variance, Dissimilarity and Contrast) consistently higher or equal resulted to R2 ≥0.86.

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Published

2024-07-11

Issue

Vol. 67 No. 1 (2024)

Section

Research article

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