Abstract
The aim of this paper is to develop biomass models for commonly multi-stemmed Prosopis juliflora/pallida trees. The data were collected on three of the Cape Verde islands (Maio, Santiago and Santo Antao). The dataset covers 240 trees containing 1,882 stems with stem diameter at breast height over 2 cm; of that 255 individual tree stems were sampled destructively. These calibration data were used to construct stem and tree-level models for estimation of total aboveground biomass and its fine and course fractions with diameter threshold of 5 cm. A set of parameterized biomass models for multi-stemmed Prosopis spp. trees suited for biomass estimation at tree and stem levels using appropriate set of independent variables, commonly available in forest inventory programs, was created. The effect of site (island) on tree allometry was not detected. The two-phase construction of tree biomass models based on destructive sampling limited to individual stems combined with a routine field measurement of entire multi-stemmed tree specimen represents a practicable approach leading to biomass and carbon assessment that may be generally suited for tree species with complex multi-stemmed growth form similar to that of Prosopis spp.
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This study was supported by the Ministry of Rural Development of Cape Verde and by IFER—Institute of Forest Ecosystem Research.
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Communicated by E. Priesack.
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Cienciala, E., Centeio, A., Blazek, P. et al. Estimation of stem and tree level biomass models for Prosopis juliflora/pallida applicable to multi-stemmed tree species. Trees 27, 1061–1070 (2013). https://doi.org/10.1007/s00468-013-0857-1
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DOI: https://doi.org/10.1007/s00468-013-0857-1