Above‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica

Above‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica

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Tree biomass allometric models are essential to estimate biomass, carbon sequestration and nutrient cycling in cacao agroforestry systems and other land uses with woody perennial species. A total of 34 trees of Cordia alliodora, 74 trees of Theobroma cacao and 38 trees of eight fruit species (Inga spp., Citrus aurantifolia, C. sinensis, Spondias mombin, Nephelium lappaceum, Persea americana, Mammea americana, Mangifera indica and Syzigium malaccensis) were harvested to gravimetrically estimate aboveground biomass (total, stem, branches, and foliage). Additionally, a database with total stem volume of 208 trees of C. alliodora was used to estimate above-ground biomass using a biomass expansion factor (BEF) and wood specific gravity estimations from this study. The well-known generic allometric models were fitted to the data using ordinary least squares, and the best ones were selected based on determination coefficient (R2), adjusted R2, root of mean square error, Akaike Information Criterion, Bayesian information criterion, and residual analyses. Selected models were compared with published models for the same species or group of species. Tree BEF were estimated for C. alliodora and fruit trees. The best fit models explained 93–96% of total above-ground biomass, and 54–95% of biomass by components. BEF differed significantly between timber and fruit trees. These models represent an advance in monitoring of carbon projects.

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Main Authors: Somarriba, Eduardo autor 120490, y otros dos autores más
Format: Texto biblioteca
Language:eng
Published: Springer Nature 2022
Subjects:BIOMASA, BIOMASS, FRUTALES, FRUIT CROPS, SISTEMAS AGROFORESTALES, AGROFORESTRY SYSTEMS, THEOBROMA CACAO,
Online Access:https://repositorio.catie.ac.cr/handle/11554/12222
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spelling KOHA-OAI-BVE:1506012023-01-02T20:36:26ZAbove‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica Somarriba, Eduardo autor 120490 y otros dos autores más textSpringer Nature2022engpdfTree biomass allometric models are essential to estimate biomass, carbon sequestration and nutrient cycling in cacao agroforestry systems and other land uses with woody perennial species. A total of 34 trees of Cordia alliodora, 74 trees of Theobroma cacao and 38 trees of eight fruit species (Inga spp., Citrus aurantifolia, C. sinensis, Spondias mombin, Nephelium lappaceum, Persea americana, Mammea americana, Mangifera indica and Syzigium malaccensis) were harvested to gravimetrically estimate aboveground biomass (total, stem, branches, and foliage). Additionally, a database with total stem volume of 208 trees of C. alliodora was used to estimate above-ground biomass using a biomass expansion factor (BEF) and wood specific gravity estimations from this study. The well-known generic allometric models were fitted to the data using ordinary least squares, and the best ones were selected based on determination coefficient (R2), adjusted R2, root of mean square error, Akaike Information Criterion, Bayesian information criterion, and residual analyses. Selected models were compared with published models for the same species or group of species. Tree BEF were estimated for C. alliodora and fruit trees. The best fit models explained 93–96% of total above-ground biomass, and 54–95% of biomass by components. BEF differed significantly between timber and fruit trees. These models represent an advance in monitoring of carbon projects.Tree biomass allometric models are essential to estimate biomass, carbon sequestration and nutrient cycling in cacao agroforestry systems and other land uses with woody perennial species. A total of 34 trees of Cordia alliodora, 74 trees of Theobroma cacao and 38 trees of eight fruit species (Inga spp., Citrus aurantifolia, C. sinensis, Spondias mombin, Nephelium lappaceum, Persea americana, Mammea americana, Mangifera indica and Syzigium malaccensis) were harvested to gravimetrically estimate aboveground biomass (total, stem, branches, and foliage). Additionally, a database with total stem volume of 208 trees of C. alliodora was used to estimate above-ground biomass using a biomass expansion factor (BEF) and wood specific gravity estimations from this study. The well-known generic allometric models were fitted to the data using ordinary least squares, and the best ones were selected based on determination coefficient (R2), adjusted R2, root of mean square error, Akaike Information Criterion, Bayesian information criterion, and residual analyses. Selected models were compared with published models for the same species or group of species. Tree BEF were estimated for C. alliodora and fruit trees. The best fit models explained 93–96% of total above-ground biomass, and 54–95% of biomass by components. BEF differed significantly between timber and fruit trees. These models represent an advance in monitoring of carbon projects.BIOMASABIOMASSFRUTALESFRUIT CROPSSISTEMAS AGROFORESTALESAGROFORESTRY SYSTEMSTHEOBROMA CACAOhttps://repositorio.catie.ac.cr/handle/11554/12222
institution IICA
collection Koha
country Costa Rica
countrycode CR
component Bibliográfico
access En linea
En linea
databasecode cat-sibiica
tag biblioteca
region America Central
libraryname Sistema de Bibliotecas IICA/CATIE
language eng
topic BIOMASA
BIOMASS
FRUTALES
FRUIT CROPS
SISTEMAS AGROFORESTALES
AGROFORESTRY SYSTEMS
THEOBROMA CACAO
BIOMASA
BIOMASS
FRUTALES
FRUIT CROPS
SISTEMAS AGROFORESTALES
AGROFORESTRY SYSTEMS
THEOBROMA CACAO
spellingShingle BIOMASA
BIOMASS
FRUTALES
FRUIT CROPS
SISTEMAS AGROFORESTALES
AGROFORESTRY SYSTEMS
THEOBROMA CACAO
BIOMASA
BIOMASS
FRUTALES
FRUIT CROPS
SISTEMAS AGROFORESTALES
AGROFORESTRY SYSTEMS
THEOBROMA CACAO
Somarriba, Eduardo autor 120490
y otros dos autores más
Above‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica
description Tree biomass allometric models are essential to estimate biomass, carbon sequestration and nutrient cycling in cacao agroforestry systems and other land uses with woody perennial species. A total of 34 trees of Cordia alliodora, 74 trees of Theobroma cacao and 38 trees of eight fruit species (Inga spp., Citrus aurantifolia, C. sinensis, Spondias mombin, Nephelium lappaceum, Persea americana, Mammea americana, Mangifera indica and Syzigium malaccensis) were harvested to gravimetrically estimate aboveground biomass (total, stem, branches, and foliage). Additionally, a database with total stem volume of 208 trees of C. alliodora was used to estimate above-ground biomass using a biomass expansion factor (BEF) and wood specific gravity estimations from this study. The well-known generic allometric models were fitted to the data using ordinary least squares, and the best ones were selected based on determination coefficient (R2), adjusted R2, root of mean square error, Akaike Information Criterion, Bayesian information criterion, and residual analyses. Selected models were compared with published models for the same species or group of species. Tree BEF were estimated for C. alliodora and fruit trees. The best fit models explained 93–96% of total above-ground biomass, and 54–95% of biomass by components. BEF differed significantly between timber and fruit trees. These models represent an advance in monitoring of carbon projects.
format Texto
topic_facet BIOMASA
BIOMASS
FRUTALES
FRUIT CROPS
SISTEMAS AGROFORESTALES
AGROFORESTRY SYSTEMS
THEOBROMA CACAO
author Somarriba, Eduardo autor 120490
y otros dos autores más
author_facet Somarriba, Eduardo autor 120490
y otros dos autores más
author_sort Somarriba, Eduardo autor 120490
title Above‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica
title_short Above‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica
title_full Above‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica
title_fullStr Above‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica
title_full_unstemmed Above‑ground biomass models for dominant trees species in cacao agroforestry systems in Talamanca, Costa Rica
title_sort above‑ground biomass models for dominant trees species in cacao agroforestry systems in talamanca, costa rica
publisher Springer Nature
publishDate 2022
url https://repositorio.catie.ac.cr/handle/11554/12222
work_keys_str_mv AT somarribaeduardoautor120490 abovegroundbiomassmodelsfordominanttreesspeciesincacaoagroforestrysystemsintalamancacostarica
AT yotrosdosautoresmas abovegroundbiomassmodelsfordominanttreesspeciesincacaoagroforestrysystemsintalamancacostarica
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