Redirigiendo al acceso original de articulo en 16 segundos...
Inicio  /  Forests  /  Vol: 9 Núm: 11 Par: Novembe (2018)  /  Artículo
ARTÍCULO
TITULO

Refining Species Traits in a Dynamic Vegetation Model to Project the Impacts of Climate Change on Tropical Trees in Central Africa

Marie Dury    
Lenni Mertens    
Adeline Fayolle    
Hans Verbeeck    
Alain Hambuckers and Louis François    

Resumen

African tropical ecosystems and the services they provide to human society suffer from an increasing combined pressure of land use and climate change. How individual tropical tree species respond to climate change remains relatively unknown. In this study, we refined the species characterization in the CARAIB (CARbon Assimilation In the Biosphere) dynamic vegetation model by replacing plant functional type morpho-physiological traits by species-specific traits. We focus on 12 tropical tree species selected for their importance in both the plant community and human society. We used CARAIB to simulate the current species net primary productivity (NPP), biomass and potential distribution and their changes in the future. Our results indicate that the use of species-specific traits does not necessarily result in an increase of predicted current NPPs. The model projections for the end of the century highlight the large uncertainties in the future of African tropical species. Projected changes in species distribution vary greatly with the general circulation model (GCM) and, to a lesser extent, with the concentration pathway. The question about long-term plant response to increasing CO2 concentrations also leads to contrasting results. In absence of fertilization effect, species are exposed to climate change and might lose 25% of their current distribution under RCP8.5 (12.5% under RCP4.5), considering all the species and climatic scenarios. The vegetation model projects a mean biomass loss of −21.2% under RCP4.5 and −34.5% under RCP8.5. Potential range expansions, unpredictable due to migration limitations, are too limited for offsetting range contraction. By contrast, if the long-term species response to increasing [CO2] is positive, the range reduction is limited to 5%. However, despite a mean biomass increase of 12.2%, a positive CO2 feedback might not prevent tree dieback. Our analysis confirms that species will respond differently to new climatic and atmospheric conditions, which may induce new competition dynamics in the ecosystem and affect ecosystem services.

 Artículos similares

       
 
Marcelo F. Pompelli, Alfredo Jarma-Orozco and Luis Alfonso Rodríguez-Páez    
Jatropha curcas is a woody-shrub species of the Euphorbiaceae family that is widely distributed in tropical and subtropical areas. The great interest in its cultivation lies in the potential for achieving elevated yields of a high-quality oil. Another ch... ver más
Revista: Agriculture

 
Rosa-Amelia Pedraza,Guadalupe Williams-Linera,Teresa Nicolás-Silva     Pág. e004
Aim of the study: To evaluate how middle-aged active restoration plantations of native tree species contribute to the recovery of the tropical cloud forest in terms of vegetation structure, tree richness, species composition, and to shade-tolerance and s... ver más
Revista: Forest Systems

 
V.A.M.P.K.1 Samarawickrama,H.I.G.C. Kumara,D.R.N.S. Samarawickrama    
The Sinharaja Forest Reserve is located in the Southern as well as Sabaragamuwa provinces in the wet zone, between latitudes 6o21-6o26 N and longitudes 80o21-80o34 E is one of the biologically unique Tropical Forest in Sri Lanka. Although Sinharaja is co... ver más

 
Hua Zhou, Yang Luo, Guang Zhou, Jian Yu, Sher Shah, Shengwang Meng and Qijing Liu    
Subtropical forest productivity is significantly affected by both natural disturbances (local and regional climate changes) and anthropogenic activities (harvesting and planting). Monthly measures of forest aboveground productivity from natural forests (... ver más
Revista: Forests

 
Marcela Arguedas,María Rodriguez-Solis,Roger Moya,Alexander Berrocal     Pág. e003
Aim of study: Plantations are threatened by an emerging disease called ?Gmelina death disease?. The objective of this study was measured the incidence and severity of this disease and were correlated with the characteristics of the plantations, micro- an... ver más
Revista: Forest Systems