Hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm Euterpe edulis in subtropical forests

Physiological characteristics of saplings can be considered one of the most basic constraints on species distribution. The shade-tolerant arborescent palm Euterpe edulis Mart. is endemic to the Atlantic Forest of Argentina, Brazil and Paraguay. At a local scale, saplings of this species growing in n...

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Detalles Bibliográficos
Autores principales: Gatti, M.G., Campanello, P.I., Villagra, M., Montti, L., Goldstein, G.
Formato: JOUR
Materias:
Gap
Hydraulic conductivity
Leaf hydraulic conductance
Leaf water potential
Semideciduous Atlantic Forest
Understory
acclimation
ecophysiology
evergreen tree
growth rate
hydraulic conductivity
irradiance
light effect
limiting factor
photoinhibition
photosynthesis
plant water relations
shade tolerance
spatial distribution
subtropical region
survivorship
understory
Atlantic Forest
water
acclimatization
Euterpe
evapotranspiration
forest
growth, development and aging
light
physiology
plant leaf
plant stem
radiation response
seedling
tree
Acclimatization
Forests
Light
Photosynthesis
Plant Leaves
Plant Stems
Plant Transpiration
Seedlings
Trees
Water
Seedling
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_0829318X_v34_n6_p630_Gatti
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_0829318X_v34_n6_p630_Gatti
record_format dspace
spelling todo:paper_0829318X_v34_n6_p630_Gatti2023-10-03T15:40:06Z Hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm Euterpe edulis in subtropical forests Gatti, M.G. Campanello, P.I. Villagra, M. Montti, L. Goldstein, G. Gap Hydraulic conductivity Leaf hydraulic conductance Leaf water potential Semideciduous Atlantic Forest Understory acclimation ecophysiology evergreen tree growth rate hydraulic conductivity irradiance light effect limiting factor photoinhibition photosynthesis plant water relations shade tolerance spatial distribution subtropical region survivorship understory Atlantic Forest water acclimatization Euterpe evapotranspiration forest growth, development and aging light photosynthesis physiology plant leaf plant stem radiation response seedling tree Acclimatization Euterpe Forests Light Photosynthesis Plant Leaves Plant Stems Plant Transpiration Seedlings Trees Water Seedling Physiological characteristics of saplings can be considered one of the most basic constraints on species distribution. The shade-tolerant arborescent palm Euterpe edulis Mart. is endemic to the Atlantic Forest of Argentina, Brazil and Paraguay. At a local scale, saplings of this species growing in native forests are absent in gaps. We tested the hypothesis whether sensitivity to photoinhibition or hydraulic architecture constrains the distribution of E. edulis saplings in sun-exposed forest environments. Using shade houses and field studies, we evaluated growth, survival, hydraulic traits and the susceptibility of Photosystem II to photoinhibition in E. edulis saplings under different growth irradiances. Survival rates in exposed sites in the field were very low (a median of 7%). All saplings exhibited photoinhibition when exposed to high radiation levels, but acclimation to a high radiation environment increased the rate of recovery. Petiole hydraulic conductivity was similar across treatments regardless of whether it was expressed per petiole cross-sectional area or per leaf area. At the plant level, investment in conductive tissues relative to leaf area (Huber values) increased with increasing irradiance. Under high irradiance conditions, plants experienced leaf water potentials close to the turgor-loss point, and leaf hydraulic conductance decreased by 79% relative to its maximum value. Euterpe edulis saplings were able to adjust their photosynthetic traits to different irradiance conditions, whereas hydraulic characteristics at the leaf level did not change across irradiance treatments. Our results indicate that uncoupling between water demand and supply to leaves apparently associated with high resistances to water flow at leaf insertion points, in addition to small stems with low water storage capacity, weak stomatal control and high vulnerability of leaves to hydraulic dysfunction, are the main ecophysiological constraints that prevent the growth and survival of E. edulis saplings in gaps in the native forest where native lianas and bamboos show aggressive growth. © The Author 2014. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_0829318X_v34_n6_p630_Gatti
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Gap
Hydraulic conductivity
Leaf hydraulic conductance
Leaf water potential
Semideciduous Atlantic Forest
Understory
acclimation
ecophysiology
evergreen tree
growth rate
hydraulic conductivity
irradiance
light effect
limiting factor
photoinhibition
photosynthesis
plant water relations
shade tolerance
spatial distribution
subtropical region
survivorship
understory
Atlantic Forest
water
acclimatization
Euterpe
evapotranspiration
forest
growth, development and aging
light
photosynthesis
physiology
plant leaf
plant stem
radiation response
seedling
tree
Acclimatization
Euterpe
Forests
Light
Photosynthesis
Plant Leaves
Plant Stems
Plant Transpiration
Seedlings
Trees
Water
Seedling
spellingShingle Gap
Hydraulic conductivity
Leaf hydraulic conductance
Leaf water potential
Semideciduous Atlantic Forest
Understory
acclimation
ecophysiology
evergreen tree
growth rate
hydraulic conductivity
irradiance
light effect
limiting factor
photoinhibition
photosynthesis
plant water relations
shade tolerance
spatial distribution
subtropical region
survivorship
understory
Atlantic Forest
water
acclimatization
Euterpe
evapotranspiration
forest
growth, development and aging
light
photosynthesis
physiology
plant leaf
plant stem
radiation response
seedling
tree
Acclimatization
Euterpe
Forests
Light
Photosynthesis
Plant Leaves
Plant Stems
Plant Transpiration
Seedlings
Trees
Water
Seedling
Gatti, M.G.
Campanello, P.I.
Villagra, M.
Montti, L.
Goldstein, G.
Hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm Euterpe edulis in subtropical forests
topic_facet Gap
Hydraulic conductivity
Leaf hydraulic conductance
Leaf water potential
Semideciduous Atlantic Forest
Understory
acclimation
ecophysiology
evergreen tree
growth rate
hydraulic conductivity
irradiance
light effect
limiting factor
photoinhibition
photosynthesis
plant water relations
shade tolerance
spatial distribution
subtropical region
survivorship
understory
Atlantic Forest
water
acclimatization
Euterpe
evapotranspiration
forest
growth, development and aging
light
photosynthesis
physiology
plant leaf
plant stem
radiation response
seedling
tree
Acclimatization
Euterpe
Forests
Light
Photosynthesis
Plant Leaves
Plant Stems
Plant Transpiration
Seedlings
Trees
Water
Seedling
description Physiological characteristics of saplings can be considered one of the most basic constraints on species distribution. The shade-tolerant arborescent palm Euterpe edulis Mart. is endemic to the Atlantic Forest of Argentina, Brazil and Paraguay. At a local scale, saplings of this species growing in native forests are absent in gaps. We tested the hypothesis whether sensitivity to photoinhibition or hydraulic architecture constrains the distribution of E. edulis saplings in sun-exposed forest environments. Using shade houses and field studies, we evaluated growth, survival, hydraulic traits and the susceptibility of Photosystem II to photoinhibition in E. edulis saplings under different growth irradiances. Survival rates in exposed sites in the field were very low (a median of 7%). All saplings exhibited photoinhibition when exposed to high radiation levels, but acclimation to a high radiation environment increased the rate of recovery. Petiole hydraulic conductivity was similar across treatments regardless of whether it was expressed per petiole cross-sectional area or per leaf area. At the plant level, investment in conductive tissues relative to leaf area (Huber values) increased with increasing irradiance. Under high irradiance conditions, plants experienced leaf water potentials close to the turgor-loss point, and leaf hydraulic conductance decreased by 79% relative to its maximum value. Euterpe edulis saplings were able to adjust their photosynthetic traits to different irradiance conditions, whereas hydraulic characteristics at the leaf level did not change across irradiance treatments. Our results indicate that uncoupling between water demand and supply to leaves apparently associated with high resistances to water flow at leaf insertion points, in addition to small stems with low water storage capacity, weak stomatal control and high vulnerability of leaves to hydraulic dysfunction, are the main ecophysiological constraints that prevent the growth and survival of E. edulis saplings in gaps in the native forest where native lianas and bamboos show aggressive growth. © The Author 2014.
format JOUR
author Gatti, M.G.
Campanello, P.I.
Villagra, M.
Montti, L.
Goldstein, G.
author_facet Gatti, M.G.
Campanello, P.I.
Villagra, M.
Montti, L.
Goldstein, G.
author_sort Gatti, M.G.
title Hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm Euterpe edulis in subtropical forests
title_short Hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm Euterpe edulis in subtropical forests
title_full Hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm Euterpe edulis in subtropical forests
title_fullStr Hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm Euterpe edulis in subtropical forests
title_full_unstemmed Hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm Euterpe edulis in subtropical forests
title_sort hydraulic architecture and photoinhibition influence spatial distribution of the arborescent palm euterpe edulis in subtropical forests
url http://hdl.handle.net/20.500.12110/paper_0829318X_v34_n6_p630_Gatti
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