Aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica

Aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica

Carbon sequestration in tropical secondary forests growing in all climates must be quantified to understand their potential role in adaptation and mitigation strategies of global climate change. Total aboveground biomass (TAGB), soil carbon, and total ecosystem carbon (TEC) were measured in 54 secondary forests growing along a broad bioclimatic gradient of 6 life zones, from lowland Dry to Premontane Rain forests in Costa Rica. The potential of regenerating secondary forests to offset carbon losses due to climate change-mediated primary forest degradation into the year 2100 was also determined. TAGB ranged from 12 Mg·ha-1 (5 MgC·ha-1) in a 9-yr Dry forest to 298 Mg·ha-1 (143 MgC·ha-1) in a 60-yr Wet forest. TAGB and carbon were correlated with forest age and the ratio of potential evapotranspiration to precipitation. Secondary forests were predicted to reach TAGB ≥ 90% of that in primary forest in 35 to 126 yrs. Mean soil carbon to 1 m ranged from 127 to 278 Mg·ha-1 in the Dry and Premontane Rain life zones. There was no correlation of soil C pools with age. Based upon simulations of forest growth and the changing land area covered by differing life zones due to climate change, carbon losses from primary forests ranged from < 6 to 65 Tg under two different climate change scenarios for the year 2100. Results from this study underscore the value of secondary forests for their potential to sequester carbon across a diversity of tropical climates as a means of climate change mitigation.

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Bibliographic Details
Main Authors: 57709 Cifuentes Jara, Miguel, Oregon State University 15547
Format: Texto biblioteca
Language:eng
Published: Oregon (Estados Unidos) : Oregon State University 2008
Subjects:BIOMASA, CARBONO, ALMACENAMIENTO, SECUESTRO DE CARBONO, MODELOS, ALOMETRIA, ECOSISTEMA, ARBOLES, MEDICION, BOSQUE TROPICAL, BOSQUE SECUNDARIO, BIOMASA AEREA, ECUACIONES ALOMETRICAS, ZONAS DE VIDA, CAMBIO CLIMÁTICO,
Online Access:http://orton.catie.ac.cr/repdoc/A11109i/A11109i.pdf
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spelling KOHA-OAI-BVE:1361322022-03-08T22:46:44ZAboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica 57709 Cifuentes Jara, Miguel Oregon State University 15547 textOregon (Estados Unidos) : Oregon State University 2008engpdfCarbon sequestration in tropical secondary forests growing in all climates must be quantified to understand their potential role in adaptation and mitigation strategies of global climate change. Total aboveground biomass (TAGB), soil carbon, and total ecosystem carbon (TEC) were measured in 54 secondary forests growing along a broad bioclimatic gradient of 6 life zones, from lowland Dry to Premontane Rain forests in Costa Rica. The potential of regenerating secondary forests to offset carbon losses due to climate change-mediated primary forest degradation into the year 2100 was also determined. TAGB ranged from 12 Mg·ha-1 (5 MgC·ha-1) in a 9-yr Dry forest to 298 Mg·ha-1 (143 MgC·ha-1) in a 60-yr Wet forest. TAGB and carbon were correlated with forest age and the ratio of potential evapotranspiration to precipitation. Secondary forests were predicted to reach TAGB ≥ 90% of that in primary forest in 35 to 126 yrs. Mean soil carbon to 1 m ranged from 127 to 278 Mg·ha-1 in the Dry and Premontane Rain life zones. There was no correlation of soil C pools with age. Based upon simulations of forest growth and the changing land area covered by differing life zones due to climate change, carbon losses from primary forests ranged from < 6 to 65 Tg under two different climate change scenarios for the year 2100. Results from this study underscore the value of secondary forests for their potential to sequester carbon across a diversity of tropical climates as a means of climate change mitigation.Tesis (Ph. D.) - Oregon State University, 2008Incluye referencias bibliográficas en las páginas 160-164.Carbon sequestration in tropical secondary forests growing in all climates must be quantified to understand their potential role in adaptation and mitigation strategies of global climate change. Total aboveground biomass (TAGB), soil carbon, and total ecosystem carbon (TEC) were measured in 54 secondary forests growing along a broad bioclimatic gradient of 6 life zones, from lowland Dry to Premontane Rain forests in Costa Rica. The potential of regenerating secondary forests to offset carbon losses due to climate change-mediated primary forest degradation into the year 2100 was also determined. TAGB ranged from 12 Mg·ha-1 (5 MgC·ha-1) in a 9-yr Dry forest to 298 Mg·ha-1 (143 MgC·ha-1) in a 60-yr Wet forest. TAGB and carbon were correlated with forest age and the ratio of potential evapotranspiration to precipitation. Secondary forests were predicted to reach TAGB ≥ 90% of that in primary forest in 35 to 126 yrs. Mean soil carbon to 1 m ranged from 127 to 278 Mg·ha-1 in the Dry and Premontane Rain life zones. There was no correlation of soil C pools with age. Based upon simulations of forest growth and the changing land area covered by differing life zones due to climate change, carbon losses from primary forests ranged from < 6 to 65 Tg under two different climate change scenarios for the year 2100. Results from this study underscore the value of secondary forests for their potential to sequester carbon across a diversity of tropical climates as a means of climate change mitigation.BIOMASA CARBONOALMACENAMIENTOSECUESTRO DE CARBONO MODELOSALOMETRIAECOSISTEMAARBOLESMEDICIONBOSQUE TROPICALBOSQUE SECUNDARIOBIOMASA AEREAECUACIONES ALOMETRICASZONAS DE VIDAECOSISTEMACAMBIO CLIMÁTICOhttp://orton.catie.ac.cr/repdoc/A11109i/A11109i.pdf
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
CARBONO
ALMACENAMIENTO
SECUESTRO DE CARBONO
MODELOS
ALOMETRIA
ECOSISTEMA
ARBOLES
MEDICION
BOSQUE TROPICAL
BOSQUE SECUNDARIO
BIOMASA AEREA
ECUACIONES ALOMETRICAS
ZONAS DE VIDA
ECOSISTEMA
CAMBIO CLIMÁTICO
BIOMASA
CARBONO
ALMACENAMIENTO
SECUESTRO DE CARBONO
MODELOS
ALOMETRIA
ECOSISTEMA
ARBOLES
MEDICION
BOSQUE TROPICAL
BOSQUE SECUNDARIO
BIOMASA AEREA
ECUACIONES ALOMETRICAS
ZONAS DE VIDA
ECOSISTEMA
CAMBIO CLIMÁTICO
spellingShingle BIOMASA
CARBONO
ALMACENAMIENTO
SECUESTRO DE CARBONO
MODELOS
ALOMETRIA
ECOSISTEMA
ARBOLES
MEDICION
BOSQUE TROPICAL
BOSQUE SECUNDARIO
BIOMASA AEREA
ECUACIONES ALOMETRICAS
ZONAS DE VIDA
ECOSISTEMA
CAMBIO CLIMÁTICO
BIOMASA
CARBONO
ALMACENAMIENTO
SECUESTRO DE CARBONO
MODELOS
ALOMETRIA
ECOSISTEMA
ARBOLES
MEDICION
BOSQUE TROPICAL
BOSQUE SECUNDARIO
BIOMASA AEREA
ECUACIONES ALOMETRICAS
ZONAS DE VIDA
ECOSISTEMA
CAMBIO CLIMÁTICO
57709 Cifuentes Jara, Miguel
Oregon State University 15547
Aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica
description Carbon sequestration in tropical secondary forests growing in all climates must be quantified to understand their potential role in adaptation and mitigation strategies of global climate change. Total aboveground biomass (TAGB), soil carbon, and total ecosystem carbon (TEC) were measured in 54 secondary forests growing along a broad bioclimatic gradient of 6 life zones, from lowland Dry to Premontane Rain forests in Costa Rica. The potential of regenerating secondary forests to offset carbon losses due to climate change-mediated primary forest degradation into the year 2100 was also determined. TAGB ranged from 12 Mg·ha-1 (5 MgC·ha-1) in a 9-yr Dry forest to 298 Mg·ha-1 (143 MgC·ha-1) in a 60-yr Wet forest. TAGB and carbon were correlated with forest age and the ratio of potential evapotranspiration to precipitation. Secondary forests were predicted to reach TAGB ≥ 90% of that in primary forest in 35 to 126 yrs. Mean soil carbon to 1 m ranged from 127 to 278 Mg·ha-1 in the Dry and Premontane Rain life zones. There was no correlation of soil C pools with age. Based upon simulations of forest growth and the changing land area covered by differing life zones due to climate change, carbon losses from primary forests ranged from < 6 to 65 Tg under two different climate change scenarios for the year 2100. Results from this study underscore the value of secondary forests for their potential to sequester carbon across a diversity of tropical climates as a means of climate change mitigation.
format Texto
topic_facet BIOMASA
CARBONO
ALMACENAMIENTO
SECUESTRO DE CARBONO
MODELOS
ALOMETRIA
ECOSISTEMA
ARBOLES
MEDICION
BOSQUE TROPICAL
BOSQUE SECUNDARIO
BIOMASA AEREA
ECUACIONES ALOMETRICAS
ZONAS DE VIDA
ECOSISTEMA
CAMBIO CLIMÁTICO
author 57709 Cifuentes Jara, Miguel
Oregon State University 15547
author_facet 57709 Cifuentes Jara, Miguel
Oregon State University 15547
author_sort 57709 Cifuentes Jara, Miguel
title Aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica
title_short Aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica
title_full Aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica
title_fullStr Aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica
title_full_unstemmed Aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of Costa Rica
title_sort aboveground biomas and ecosystem carbon pools in tropical secondary forests growing in six life zones of costa rica
publisher Oregon (Estados Unidos) : Oregon State University
publishDate 2008
url http://orton.catie.ac.cr/repdoc/A11109i/A11109i.pdf
work_keys_str_mv AT 57709cifuentesjaramiguel abovegroundbiomasandecosystemcarbonpoolsintropicalsecondaryforestsgrowinginsixlifezonesofcostarica
AT oregonstateuniversity15547 abovegroundbiomasandecosystemcarbonpoolsintropicalsecondaryforestsgrowinginsixlifezonesofcostarica
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