Seasonal leaf dynamics across a tree density gradient in a Brazilian savanna

Interactions between trees and grasses that influence leaf area index (LAI) have important consequences for savanna ecosystem processes through their controls on water, carbon, and energy fluxes as well as fire regimes. We measured LAI, of the groundlayer (herbaceous and woody plants <1-m tal...

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Detalles Bibliográficos
Publicado: 2005
Materias:
Cerrado
Leaf area index
Phenology
Tropical forest
Water potential
cerrado
environmental conditions
fire
leaf area index
nutrient cycling
phenology
seasonal variation
Brazil
South America
Western Hemisphere
World
Dicotyledoneae
Poaceae
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00298549_v145_n2_p307_Hoffmann
http://hdl.handle.net/20.500.12110/paper_00298549_v145_n2_p307_Hoffmann
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_00298549_v145_n2_p307_Hoffmann
record_format dspace
spelling paper:paper_00298549_v145_n2_p307_Hoffmann2023-06-08T14:55:34Z Seasonal leaf dynamics across a tree density gradient in a Brazilian savanna Cerrado Leaf area index Phenology Tropical forest Water potential cerrado environmental conditions fire leaf area index nutrient cycling phenology seasonal variation Brazil South America Western Hemisphere World Dicotyledoneae Poaceae Interactions between trees and grasses that influence leaf area index (LAI) have important consequences for savanna ecosystem processes through their controls on water, carbon, and energy fluxes as well as fire regimes. We measured LAI, of the groundlayer (herbaceous and woody plants <1-m tall) and shrub and tree layer (woody plants >1-m tall), in the Brazilian cerrado over a range of tree densities from open shrub savanna to closed woodland through the annual cycle. During the dry season, soil water potential was strongly and positively correlated with grass LAI, and less strongly with tree and shrub LAI. By the end of the dry season, LAI of grasses, groundlayer dicots and trees declined to 28, 60, and 68% of mean wet-season values, respectively. We compared the data to remotely sensed vegetation indices, finding that field measurements were more strongly correlated to the enhanced vegetation index (EVI, r 2 =0.71) than to the normalized difference vegetation index (NDVI, r 2 =0.49). Although the latter has been more widely used in quantifying leaf dynamics of tropical savannas, EVI appears better suited for this purpose. Our ground-based measurements demonstrate that groundlayer LAI declines with increasing tree density across sites, with savanna grasses being excluded at a tree LAI of approximately 3.3. LAI averaged 4.2 in nearby gallery (riparian) forest, so savanna grasses were absent, thereby greatly reducing fire risk and permitting survival of fire-sensitive forest tree species. Although edaphic conditions may partly explain the larger tree LAI of forests, relative to savanna, biological differences between savanna and forest tree species play an important role. Overall, forest tree species had 48% greater LAI than congeneric savanna trees under similar growing conditions. Savanna and forest species play distinct roles in the structure and dynamics of savanna-forest boundaries, contributing to the differences in fire regimes, microclimate, and nutrient cycling between savanna and forest ecosystems. © Springer-Verlag 2005. 2005 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00298549_v145_n2_p307_Hoffmann http://hdl.handle.net/20.500.12110/paper_00298549_v145_n2_p307_Hoffmann
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Cerrado
Leaf area index
Phenology
Tropical forest
Water potential
cerrado
environmental conditions
fire
leaf area index
nutrient cycling
phenology
seasonal variation
Brazil
South America
Western Hemisphere
World
Dicotyledoneae
Poaceae
spellingShingle Cerrado
Leaf area index
Phenology
Tropical forest
Water potential
cerrado
environmental conditions
fire
leaf area index
nutrient cycling
phenology
seasonal variation
Brazil
South America
Western Hemisphere
World
Dicotyledoneae
Poaceae
Seasonal leaf dynamics across a tree density gradient in a Brazilian savanna
topic_facet Cerrado
Leaf area index
Phenology
Tropical forest
Water potential
cerrado
environmental conditions
fire
leaf area index
nutrient cycling
phenology
seasonal variation
Brazil
South America
Western Hemisphere
World
Dicotyledoneae
Poaceae
description Interactions between trees and grasses that influence leaf area index (LAI) have important consequences for savanna ecosystem processes through their controls on water, carbon, and energy fluxes as well as fire regimes. We measured LAI, of the groundlayer (herbaceous and woody plants <1-m tall) and shrub and tree layer (woody plants >1-m tall), in the Brazilian cerrado over a range of tree densities from open shrub savanna to closed woodland through the annual cycle. During the dry season, soil water potential was strongly and positively correlated with grass LAI, and less strongly with tree and shrub LAI. By the end of the dry season, LAI of grasses, groundlayer dicots and trees declined to 28, 60, and 68% of mean wet-season values, respectively. We compared the data to remotely sensed vegetation indices, finding that field measurements were more strongly correlated to the enhanced vegetation index (EVI, r 2 =0.71) than to the normalized difference vegetation index (NDVI, r 2 =0.49). Although the latter has been more widely used in quantifying leaf dynamics of tropical savannas, EVI appears better suited for this purpose. Our ground-based measurements demonstrate that groundlayer LAI declines with increasing tree density across sites, with savanna grasses being excluded at a tree LAI of approximately 3.3. LAI averaged 4.2 in nearby gallery (riparian) forest, so savanna grasses were absent, thereby greatly reducing fire risk and permitting survival of fire-sensitive forest tree species. Although edaphic conditions may partly explain the larger tree LAI of forests, relative to savanna, biological differences between savanna and forest tree species play an important role. Overall, forest tree species had 48% greater LAI than congeneric savanna trees under similar growing conditions. Savanna and forest species play distinct roles in the structure and dynamics of savanna-forest boundaries, contributing to the differences in fire regimes, microclimate, and nutrient cycling between savanna and forest ecosystems. © Springer-Verlag 2005.
title Seasonal leaf dynamics across a tree density gradient in a Brazilian savanna
title_short Seasonal leaf dynamics across a tree density gradient in a Brazilian savanna
title_full Seasonal leaf dynamics across a tree density gradient in a Brazilian savanna
title_fullStr Seasonal leaf dynamics across a tree density gradient in a Brazilian savanna
title_full_unstemmed Seasonal leaf dynamics across a tree density gradient in a Brazilian savanna
title_sort seasonal leaf dynamics across a tree density gradient in a brazilian savanna
publishDate 2005
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00298549_v145_n2_p307_Hoffmann
http://hdl.handle.net/20.500.12110/paper_00298549_v145_n2_p307_Hoffmann
_version_ 1768546198014132224

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