INDIVIDUAL PLANT ALLOMETRIC EQUATIONS FOR ESTIMATING ABOVEGROUND BIOMASS AND ITS COMPONENTS FOR A COMMON BAMBOO SPECIES (Bambusa procera A. Chev. and A. Camus) IN TROPICAL FORESTS

INDIVIDUAL PLANT ALLOMETRIC EQUATIONS FOR ESTIMATING ABOVEGROUND BIOMASS AND ITS COMPONENTS FOR A COMMON BAMBOO SPECIES (Bambusa procera A. Chev. and A. Camus) IN TROPICAL FORESTS

Bao Huy, Giang Thi Thanh, Krishna P. Poudel and Hailemariam Temesgen

ABSTRACT

Bamboo forests play an important role in achieving the objectives of the United Nations program on Reducing Emission from Deforestation and Forest Degradation. We developed and validated a modeling system that simultaneously estimate aboveground biomass and its components for a common bamboo species (Bambusa procera A. Chev. and A. Camus) in tropical forests. Eighty-three bamboo culms were destructively sampled from seventeen 100 m² sample plots located in different parts of the Central Highlands in Viet Nam to obtain total plant aboveground biomass (AGB) and its components. We examined the performance of weighted nonlinear models fit by maximum likelihood and weighted nonlinear seemingly unrelated regression fit by generalized least squares for predicting bamboo biomass. The simultaneous estimation of AGB and its components produced higher reliability than the models of components and total developed separately. With a large number of bamboo species, it may not be feasible to develop species- specific biomass models, hence genus-specific allometric models may be considered.

Forests (2019), 10(4), 316

https://doi.org/10.3390/f10040316 (registering DOI)