Height-diameter allometry for tropical forest in northern Amazonia

Height-diameter allometry for tropical forest in northern Amazonia

Height measurements are essential to manage and monitor forest biomass and carbon stocks. However, accurate estimation of this variable in tropical ecosystems is still difficult due to species heterogeneity and environmental variability. In this article, we compare and discuss six nonlinear allometr...

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Bibliographic Details
Published in:PloS one Vol. 16; no. 12; p. e0255197
Main Authors: Lima, Robson Borges de, Görgens, Eric Bastos, Elias, Fernando, de Abreu, Jadson Coelho, Baia, Aldine Luiza, de Oliveira, Cinthia Pereira, Silva da Silva, Diego Armando, Batista, Anderson Pedro Bernardina, Lima, Robson Carmo, Sotta, Eleneide Doff, Caraciolo Ferreira, Rinaldo Luiz, Aleixo da Silva, José Antônio, Carneiro Guedes, Marcelino
Format: Journal Article
Language:English
Published: United States Public Library of Science 16-12-2021
Public Library of Science (PLoS)
Subjects:
Allometry
Biology and Life Sciences
Biomass
Brazil
Diameters
Earth Sciences
Ecological effects
Ecology and Environmental Sciences
Forest biomass
Forest ecology
Forestry research
Forests
Growth (Plants)
Height
Heterogeneity
Hypsometers
Measurement
Methods
Modelling
Models, Biological
Natural history
New technology
People and places
Rain forests
Regions
Soils
Trees
Trees - growth & development
Tropical Climate
Tropical forests
Vegetation
Vegetation dynamics
Brazil
Amazon Basin
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Summary:Height measurements are essential to manage and monitor forest biomass and carbon stocks. However, accurate estimation of this variable in tropical ecosystems is still difficult due to species heterogeneity and environmental variability. In this article, we compare and discuss six nonlinear allometric models parameterized at different scales (local, regional and pantropical). We also evaluate the height measurements obtained in the field by the hypsometer when compared with the true tree height. We used a dataset composed of 180 harvested trees in two distinct areas located in the Amapá State. The functional form of the Weibull model was the best local model, showing similar performance to the pantropical model. The inaccuracy detected in the hypsometer estimates reinforces the importance of incorporating new technologies in measuring individual tree heights. Establishing accurate allometric models requires knowledge of ecophysiological and environmental processes that govern vegetation dynamics and tree height growth. It is essential to investigate the influence of different species and ecological gradients on the diameter/height ratio.
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Competing Interests: The authors declare no conflict of interest.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0255197