Résumé

Background Managed forests are a major component of tropical landscapes. Production forests as designated by national forest services cover up to 400 million ha, i.e. half of the forested area in the humid tropics. Forest management thus plays a major role in the global carbon budget, but with a lack of unified method to estimate carbon fluxes from tropical managed forests. In this study we propose a new time- and spatially-explicit methodology to estimate the above-ground carbon budget of selective logging at regional scale. Results The yearly balance of a logging unit, i.e. the elementary management unit of a forest estate, is modelled by aggregating three sub-models encompassing (i) emissions from extracted wood, (ii) emissions from logging damage and deforested areas and (iii) carbon storage from post-logging recovery. Models are parametrised and uncertainties are propagated through a MCMC algorithm. As a case study, we used 38 years of National Forest Inventories in French Guiana, northeastern Amazonia, to estimate the above-ground carbon balance (i.e. the net carbon exchange with the atmosphere) of selectively logged forests. Over this period, the net carbon balance of selective logging in the French Guianan Permanent Forest Estate is estimated to be comprised between 0.12 and 1.33 Tg C, with a median value of 0.64 Tg C. Uncertainties over the model could be diminished by improving the accuracy of both logging damage and large woody necromass decay submodels. Conclusions We propose an innovating carbon accounting framework relying upon basic logging statistics. This flexible tool allows carbon budget of tropical managed forests to be estimated in a wide range of tropical regions.

Auteurs, date et publication :

Auteurs Camille Piponiot , Antoine Cabon , Laurent Descroix , Aurélie Dourdain , Lucas Mazzei , Benjamin Ouliac , Ervan Rutishauser , Plinio Sist , Bruno Hérault

Publication : Carbon Balance and Management

Date : 2016

Volume : 11

Issue : 1

Pages : 15

Catégorie(s)

#CIRAD #FORET Paracou

Auteurs, date et publication :

Auteurs R.-C. Costa Pinheiro , De Deus Junior J-C , Nouvellon Y , Camargo Campoe O , Stape J-L , Lanzi A-L , Guerrini I-A , Jourdan C , J.-P. Laclau

Publication : Forest Ecology and Management

Date : 2025

Volume : 366

Pages : 143-152

Catégorie(s)

#CIRAD #FORET Itatinga #INRAE

Auteurs, date et publication :

Auteurs Pierrette Chagneau , Frédéric Mortier , Nicolas Picard , Jean-Noël Bacro

Publication : Biometrics

Date : 2011

Volume : 67

Issue : 1

Pages : 97–105

Catégorie(s)

#CIRAD #FORET Paracou

Résumé

Tropical forest canopies are comprised of tree crowns of multiple species varying in shape and height, and ground inventories do not usually reliably describe their structure. Airborne laser scanning data can be used to characterize these individual crowns, but analytical tools developed for boreal or temperate forests may require to be adjusted before they can be applied to tropical environments. Therefore, we compared results from six different segmentation methods applied to six plots (39 ha) from a study site in French Guiana. We measured the overlap of automatically segmented crowns projection with selected crowns manually delineated on high-resolution photography. We also evaluated the goodness of fit following automatic matching with field inventory data using a model linking tree diameter to tree crown width. The different methods tested in this benchmark segmented highly different numbers of crowns having different characteristics. Segmentation methods based on the point cloud (AMS3D and Graph-Cut) globally outperformed methods based on the Canopy Height Models, especially for small crowns; the AMS3D method outperformed the other methods tested for the overlap analysis, and AMS3D and Graph-Cut performed the best for the automatic matching validation. Nevertheless, other methods based on the Canopy Height Model performed better for very large emergent crowns. The dense foliage of tropical moist forests prevents sufficient point densities in the understory to segment subcanopy trees accurately, regardless of the segmentation method.

Auteurs, date et publication :

Auteurs Mélaine Aubry-Kientz , Raphaël Dutrieux , Antonio Ferraz , Sassan Saatchi , Hamid Hamraz , Jonathan Williams , David Coomes , Alexandre Piboule , Grégoire Vincent

Publication : Remote Sensing

Date : 2019

Volume : 11

Issue : 9

Pages : 1086

Catégorie(s)

#CIRAD #FORET Paracou

Résumé

Classifying species into functional groups is a way to understand the functioning of species-rich ecosystems, or to model the dynamics of such ecosystems. Many statistical techniques have been defined to classify species into groups, and a question is whether different techniques bring consistent classifications. In a tropical rain forest in French Guiana, five species classifications have been defined by different authors for the purpose of forest growth modelling but using different data sets and different statistical techniques. The correspondence between the five classifications was measured using four indices that are generalizations of existing indices to compare two classifications. A multiple correspondence analysis was used to identify associations between groups of different classifications. In a second step, two-table multivariate analyses were used to characterize the relationships between species classifications and eight species traits (consisting of seven populational traits and one functional trait). We evidenced a consensus on the potential size of trees: species were similarly clustered by the five classifications along this trait that is correlated to turnover rate. More surprisingly, no consensus was found for growth rate, nor wood density, traits that are correlated with light requirement.

Auteurs, date et publication :

Auteurs Nicolas Picard , Peter Köhler , Frédéric Mortier , Sylvie Gourlet-Fleury

Publication : Ecological Complexity

Date : 2012

Volume : 11

Pages : 75–83

Catégorie(s)

#CIRAD #FORET Paracou

Résumé

Productivity of tropical lowland moist forests is often limited by availability and functional allocation of phosphorus (P) that drives competition among tree species and becomes a key factor in determining forestall community diversity. We used non-target 31P-NMR metabolic profiling to study the foliar P-metabolism of trees of a French Guiana rainforest. The objective was to test the hypotheses that P-use is species-specific, and that species diversity relates to species P-use and concentrations of P-containing compounds, including inorganic phosphates, orthophosphate monoesters and diesters, phosphonates and organic polyphosphates. We found that tree species explained the 59% of variance in 31P-NMR metabolite profiling of leaves. A principal component analysis showed that tree species were separated along PC 1 and PC 2 of detected P-containing compounds, which represented a continuum going from high concentrations of metabolites related to non-active P and P-storage, low total P concentrations and high N:P ratios, to high concentrations of P-containing metabolites related to energy and anabolic metabolism, high total P concentrations and low N:P ratios. These results highlight the species-specific use of P and the existence of species-specific P-use niches that are driven by the distinct species-specific position in a continuum in the P-allocation from P-storage compounds to P-containing molecules related to energy and anabolic metabolism.

Auteurs, date et publication :

Auteurs Albert Gargallo-Garriga , Jordi Sardans , Joan Llusià , Guille Peguero , Dolores Asensio , Romà Ogaya , Ifigenia Urbina , Leandro Van Langenhove , Lore T. Verryckt , Elodie A. Courtois , Clément Stahl , Oriol Grau , Otmar Urban , Ivan A. Janssens , Pau Nolis , Miriam Pérez-Trujillo , Teodor Parella , Josep Peñuelas

Publication : Molecules

Date : 2020

Volume : 25

Issue : 17

Pages : 3960

Catégorie(s)

#ANR-Citation #CIRAD #CNRS #FORET Nouragues