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1.
Ecol Lett ; 17(5): 527-36, 2014 May.
Artículo en Inglés | MEDLINE | ID: mdl-24589190

RESUMEN

The Amazon rain forest sustains the world's highest tree diversity, but it remains unclear why some clades of trees are hyperdiverse, whereas others are not. Using dated phylogenies, estimates of current species richness and trait and demographic data from a large network of forest plots, we show that fast demographic traits--short turnover times--are associated with high diversification rates across 51 clades of canopy trees. This relationship is robust to assuming that diversification rates are either constant or decline over time, and occurs in a wide range of Neotropical tree lineages. This finding reveals the crucial role of intrinsic, ecological variation among clades for understanding the origin of the remarkable diversity of Amazonian trees and forests.


Asunto(s)
Biodiversidad , Modelos Biológicos , Árboles/fisiología , América del Sur , Clima Tropical
2.
Sci Data ; 9(1): 511, 2022 08 20.
Artículo en Inglés | MEDLINE | ID: mdl-35987763

RESUMEN

We introduce the FunAndes database, a compilation of functional trait data for the Andean flora spanning six countries. FunAndes contains data on 24 traits across 2,694 taxa, for a total of 105,466 entries. The database features plant-morphological attributes including growth form, and leaf, stem, and wood traits measured at the species or individual level, together with geographic metadata (i.e., coordinates and elevation). FunAndes follows the field names, trait descriptions and units of measurement of the TRY database. It is currently available in open access in the FIGSHARE data repository, and will be part of TRY's next release. Open access trait data from Andean plants will contribute to ecological research in the region, the most species rich terrestrial biodiversity hotspot.


Asunto(s)
Biodiversidad , Plantas , Fenotipo , Hojas de la Planta , Madera
3.
PLoS One ; 13(6): e0198489, 2018.
Artículo en Inglés | MEDLINE | ID: mdl-29927972

RESUMEN

Using data from 50 long-term permanent plots from across Venezuelan forests in northern South America, we explored large-scale patterns of stem turnover, aboveground biomass (AGB) and woody productivity (AGWP), and the relationships between them and with potential climatic drivers. We used principal component analysis coupled with generalized least squares models to analyze the relationship between climate, forest structure and stem dynamics. Two major axes associated with orthogonal temperature and moisture gradients effectively described more than 90% of the environmental variability in the dataset. Average turnover was 1.91 ± 0.10% year-1 with mortality and recruitment being almost identical, and close to average rates for other mature tropical forests. Turnover rates were significantly different among regions (p < 0.001), with the lowland forests in Western alluvial plains being the most dynamic, and Guiana Shield forests showing the lowest turnover rates. We found a weak positive relationship between AGB and AGWP, with Guiana Shield forests having the highest values for both variables (204.8 ± 14.3 Mg C ha-1 and 3.27 ± 0.27 Mg C ha-1 year-1 respectively), but AGB was much more strongly and negatively related to stem turnover. Our data suggest that moisture is a key driver of turnover, with longer dry seasons favoring greater rates of tree turnover and thus lower biomass, having important implications in the context of climate change, given the increases in drought frequency in many tropical forests. Regional variation in AGWP among Venezuelan forests strongly reflects the effects of climate, with greatest woody productivity where both precipitation and temperatures are high. Overall, forests in wet, low elevation sites and with slow turnover stored the greatest amounts of biomass. Although faster stand dynamics are closely associated with lower carbon storage, stem-level turnover rates and woody productivity did not show any correlation, indicating that stem dynamics and carbon dynamics are largely decoupled from one another.


Asunto(s)
Bosques , Biomasa , Carbono/metabolismo , Análisis de Componente Principal , Lluvia , Temperatura , Clima Tropical , Venezuela
4.
Methods Ecol Evol ; 9(5): 1179-1189, 2018 May.
Artículo en Inglés | MEDLINE | ID: mdl-29938017

RESUMEN

Quantifying the relationship between tree diameter and height is a key component of efforts to estimate biomass and carbon stocks in tropical forests. Although substantial site-to-site variation in height-diameter allometries has been documented, the time consuming nature of measuring all tree heights in an inventory plot means that most studies do not include height, or else use generic pan-tropical or regional allometric equations to estimate height.Using a pan-tropical dataset of 73 plots where at least 150 trees had in-field ground-based height measurements, we examined how the number of trees sampled affects the performance of locally derived height-diameter allometries, and evaluated the performance of different methods for sampling trees for height measurement.Using cross-validation, we found that allometries constructed with just 20 locally measured values could often predict tree height with lower error than regional or climate-based allometries (mean reduction in prediction error = 0.46 m). The predictive performance of locally derived allometries improved with sample size, but with diminishing returns in performance gains when more than 40 trees were sampled. Estimates of stand-level biomass produced using local allometries to estimate tree height show no over- or under-estimation bias when compared with biomass estimates using field measured heights. We evaluated five strategies to sample trees for height measurement, and found that sampling strategies that included measuring the heights of the ten largest diameter trees in a plot outperformed (in terms of resulting in local height-diameter models with low height prediction error) entirely random or diameter size-class stratified approaches.Our results indicate that even limited sampling of heights can be used to refine height-diameter allometries. We recommend aiming for a conservative threshold of sampling 50 trees per location for height measurement, and including the ten trees with the largest diameter in this sample.

5.
Nat Commun ; 6: 6857, 2015 Apr 28.
Artículo en Inglés | MEDLINE | ID: mdl-25919449

RESUMEN

While Amazonian forests are extraordinarily diverse, the abundance of trees is skewed strongly towards relatively few 'hyperdominant' species. In addition to their diversity, Amazonian trees are a key component of the global carbon cycle, assimilating and storing more carbon than any other ecosystem on Earth. Here we ask, using a unique data set of 530 forest plots, if the functions of storing and producing woody carbon are concentrated in a small number of tree species, whether the most abundant species also dominate carbon cycling, and whether dominant species are characterized by specific functional traits. We find that dominance of forest function is even more concentrated in a few species than is dominance of tree abundance, with only ≈1% of Amazon tree species responsible for 50% of carbon storage and productivity. Although those species that contribute most to biomass and productivity are often abundant, species maximum size is also influential, while the identity and ranking of dominant species varies by function and by region.

6.
Interciencia ; Interciencia;31(2): 101-109, feb. 2006. tab, graf
Artículo en Español | LILACS | ID: lil-449253

RESUMEN

Los datos de parcelas permanentes, establecidas en un bosque estacional de los llanos occidentales venezolanos, se usaron para establecer los parámetros de FACET, un modelo basado en árboles individuales y sensible a las características topográficas del terreno. Debido a su alto número, las especies arbóreas se agruparon de acuerdo con su tolerancia a la sombra (tolerantes, intermedias e intolerantes) y su altura máxima (grandes, medianas y pequeñas). Las palmas fueron consideradas como un grupo separado. La dinámica forestal fue simulada para cada posición fisiográfica (banco, sub-banco y bajío). Los resultados de la simulación para un periodo de 210 años se aproximan a la dinámica esperada tanto para banco como sub-banco, no así para bajío. Tras una simulación de 500 años, en banco las tolerantes grandes dominan el área, acumulando un índice de valor (IV) de 27,28 seguidas por las palmas con un IV= 18,86; igual ocurre en sub-banco donde las tolerantes grandes predominan con un IV= 26,78 y las palmas acumulan 20,27; lo que se corresponde a la composición esperada para un bosque sin perturbaciones. En bajío, las tolerantes grandes también mantienen el primer lugar con un IV= 28,74 pero las siguen las intermedias grandes con 20,27. En conclusión, el modelo FACET tiene gran potencialidad para predecir la dinámica de bosques tropicales, excepto en las áreas de bajío con problemas de drenaje. En consecuencia, es necesario introducir modificaciones en la rutina de balance de agua en el suelo para lograr una mejor representación de la dinámica forestal en esos sitios


Asunto(s)
Ambiente , Agricultura Forestal , Árboles , Ecología , Venezuela
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