Adji B. I., Akaffou D. S., Kouassi K. H., Houphouet Y. P., De Reffye P., Duminil Jérôme, Jaeger M., Sabatier S. (2021). Allometric models for non-destructive estimation of dry biomass and leaf area in Khaya senegalensis (Desr.) A. Juss (Meliaceae), Pterocarpus erinaceus Pear. (Fabaceae) and Parkia biglobosa, Jack, R. Br. (Fabaceae) [+ Correction, 16/07/2021, 1 page]. Trees-Structure and Function, [Early access], [15 p. + Correction, 16/07/2021, 1 page]. ISSN 0931-1890.
Titre du document
Allometric models for non-destructive estimation of dry biomass and leaf area in Khaya senegalensis (Desr.) A. Juss (Meliaceae), Pterocarpus erinaceus Pear. (Fabaceae) and Parkia biglobosa, Jack, R. Br. (Fabaceae) [+ Correction, 16/07/2021, 1 page]
Année de publication
2021
Auteurs
Adji B. I., Akaffou D. S., Kouassi K. H., Houphouet Y. P., De Reffye P., Duminil Jérôme, Jaeger M., Sabatier S.
Source
Trees-Structure and Function, 2021,
[Early access], [15 p. + Correction, 16/07/2021, 1 page] ISSN 0931-1890
Key message The determination by non-destructive measurement of biomass and leaf area is of great interest to avoid any plant degradation. These data are necessary for biomass allocation and estimation of carbon distribution in trees using functional and structural growth models such as GREENLAB. Organ biomass and leaf area are important parameters in plant physiology and production. They are used in structural and functional plant models to simulate tree architecture, but are difficult to determine quickly. Stem (length and internode diameter) and leaf (length and width) dimensions for their estimation provide a non-destructive and rapid field approach. This method has been applied on Khaya senegalensis, Pterocarpus erinaceus and Parkia biglobosa in Cote d'Ivoire. Internodes and leaves of the three species were sampled in 2019 and 2020 on three categories of axis in the architecture of individuals of different ages to maximise the variability of their size. All statistical relationships of the linear models found for the estimation of organ dry and fresh biomass and leaf area were significant for all three species (P = 0.001). A single equation was sufficient to estimate the dry (IDM) and fresh (IFM) biomass of the internodes, the dry (LDM) and fresh (LFM) biomass of the leaves and the leaf area (LA) from the dimensions of the internodes (Volume: VL) and leaves (Number of primary leaflets: NLt, length: LLtL and width: LLtW of the largest primary leaflet, number of secondary leaflets: NSeLt, length: LSeLtL and width: LSeLtW of the largest secondary leaflet). The relationship between the estimates and organ dimensions were defined by the following linear equations: IDM = 0.45 x VL + 0.02, LDM = 0.004 x NLt x LtL x LtW + 0.07 and LA = 0.83 x NLt x LtL x LtW for Khaya senegalensis; IDM = 0.33 x VL + 0.38, LDM = 0.4 x NLt x LtL x LtW - 0.64 and LA = 0.74 x NLt x LtL x LtW + 0.15 for Pterocarpus erinaceus then IDM = 0.47 x VL + 0.44, LDM = 0.44 x NSeLt x LSeLtL x LSeLtW x NLt + 0.94 and LA = 0.13 x NSeLt x LSeLtL x LSeLtW x NLt + 14.64 for Parkia biglobosa. This method can be applied to estimate the organ biomass and LA of species of the same family as the target species in an agroforestry system.
Plan de classement
Sciences du monde végétal [076]
;
Etudes, transformation, conservation du milieu naturel [082]
Description Géographique
COTE D'IVOIRE
Localisation
Fonds IRD [F B010082104]
Identifiant IRD
fdi:010082104
