Phenotypic plasticity as an index of drought tolerance in three Patagonian steppe grasses

Phenotypic plasticity as an index of drought tolerance in three Patagonian steppe grasses

Background and Aims: Despite general agreement regarding the adaptive importance of plasticity, evidence for the role of environmental resource availability in plants is scarce. In arid and semi-arid environments, the persistence and dominance of perennial species depends on their capacity to tolerate drought: tolerance could be given on one extreme by fixed traits and, on the other, by plastic traits. To understand drought tolerance of species it is necessary to know the plasticity of their water economy-related traits, i.e. the position in the fixedplastic continuum. Methods: Three conspicuous co-existing perennial grasses from a Patagonian steppe were grown under controlled conditions with four levels of steady-state water availability. Evaluated traits were divided into two groups. The first was associated with potential plant performance and correlated with fitness, and included above-ground biomass, total biomass, tillering and tiller density at harvest. The second group consisted of traits associated with mechanisms of plant adjustment to environmental changes and included root biomass, shoot/root ratio, tiller biomass, length of total elongated leaf, length of yellow tissue divided by time and nal length divided by the time taken to reach nal length. Key, Results and Conclusions: The most plastic species along this drought gradient was the most sensitive to drought, whereas the least plastic and slowest growing was the most tolerant. This negative relationship between tolerance and plasticity was true for fitness-related traits but was trait-dependent for underlying traits. Remarkably, the most tolerant species had the highest positive plasticity [i.e. opposite to the default response to stress] in an underlying trait, directly explaining its drought resistance: it increased absolute root biomass. The niche differentiation axis that allows the coexistence of species in this group of perennial dryland grasses, all limited by soil surface moisture, would be a functional one of fixed versus plastic responses.

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Bibliographic Details
Main Authors: Couso, Luciana Laura, Fernández, Roberto Javier
Format: Texto biblioteca
Language:eng
Subjects:BROMUS PICTUS, DRYLAND, MECHANISTIC TRAITS, PAPPOSTIPA SPECIOSA, PERENNIAL GRASSES, PERFORMANCE TRAITS, POA LIGULARIS, TRADE-OFF, WATER, ABOVEGROUND BIOMASS, ADAPTIVE RADIATION, ARID REGION, DROUGHT RESISTANCE, ENVIRONMENTAL CHANGE, FITNESS, GRASS, PERENNIAL PLANT, PERSISTENCE, PHENOTYPIC PLASTICITY, RESOURCE AVAILABILITY, SEMIARID REGION, SOIL SURFACE, STEPPE, TILLERING, WATER AVAILABILITY, ADAPTATION, ARGENTINA, BIOMASS, BROMUS, DROUGHT, GROWTH, DEVELOPMENT AND AGING, METABOLISM, PHENOTYPE, PHYSIOLOGY, PLANT, PLANT ROOT, POA, POACEAE, SOIL, ADAPTATION, PHYSIOLOGICAL, DROUGHTS, PLANT COMPONENTS, AERIAL, PLANT ROOTS, PATAGONIA,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46497
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id KOHA-OAI-AGRO:46497
record_format koha
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic BROMUS PICTUS
DRYLAND
MECHANISTIC TRAITS
PAPPOSTIPA SPECIOSA
PERENNIAL GRASSES
PERFORMANCE TRAITS
POA LIGULARIS
TRADE-OFF
WATER
ABOVEGROUND BIOMASS
ADAPTIVE RADIATION
ARID REGION
DROUGHT RESISTANCE
ENVIRONMENTAL CHANGE
FITNESS
GRASS
PERENNIAL PLANT
PERSISTENCE
PHENOTYPIC PLASTICITY
RESOURCE AVAILABILITY
SEMIARID REGION
SOIL SURFACE
STEPPE
TILLERING
TRADE-OFF
WATER AVAILABILITY
ADAPTATION
ARGENTINA
BIOMASS
BROMUS
DROUGHT
GROWTH, DEVELOPMENT AND AGING
METABOLISM
PHENOTYPE
PHYSIOLOGY
PLANT
PLANT ROOT
POA
POACEAE
SOIL
ADAPTATION, PHYSIOLOGICAL
DROUGHTS
PLANT COMPONENTS, AERIAL
PLANT ROOTS
PATAGONIA
BROMUS PICTUS
BROMUS PICTUS
DRYLAND
MECHANISTIC TRAITS
PAPPOSTIPA SPECIOSA
PERENNIAL GRASSES
PERFORMANCE TRAITS
POA LIGULARIS
TRADE-OFF
WATER
ABOVEGROUND BIOMASS
ADAPTIVE RADIATION
ARID REGION
DROUGHT RESISTANCE
ENVIRONMENTAL CHANGE
FITNESS
GRASS
PERENNIAL PLANT
PERSISTENCE
PHENOTYPIC PLASTICITY
RESOURCE AVAILABILITY
SEMIARID REGION
SOIL SURFACE
STEPPE
TILLERING
TRADE-OFF
WATER AVAILABILITY
ADAPTATION
ARGENTINA
BIOMASS
BROMUS
DROUGHT
GROWTH, DEVELOPMENT AND AGING
METABOLISM
PHENOTYPE
PHYSIOLOGY
PLANT
PLANT ROOT
POA
POACEAE
SOIL
ADAPTATION, PHYSIOLOGICAL
DROUGHTS
PLANT COMPONENTS, AERIAL
PLANT ROOTS
PATAGONIA
BROMUS PICTUS
spellingShingle BROMUS PICTUS
DRYLAND
MECHANISTIC TRAITS
PAPPOSTIPA SPECIOSA
PERENNIAL GRASSES
PERFORMANCE TRAITS
POA LIGULARIS
TRADE-OFF
WATER
ABOVEGROUND BIOMASS
ADAPTIVE RADIATION
ARID REGION
DROUGHT RESISTANCE
ENVIRONMENTAL CHANGE
FITNESS
GRASS
PERENNIAL PLANT
PERSISTENCE
PHENOTYPIC PLASTICITY
RESOURCE AVAILABILITY
SEMIARID REGION
SOIL SURFACE
STEPPE
TILLERING
TRADE-OFF
WATER AVAILABILITY
ADAPTATION
ARGENTINA
BIOMASS
BROMUS
DROUGHT
GROWTH, DEVELOPMENT AND AGING
METABOLISM
PHENOTYPE
PHYSIOLOGY
PLANT
PLANT ROOT
POA
POACEAE
SOIL
ADAPTATION, PHYSIOLOGICAL
DROUGHTS
PLANT COMPONENTS, AERIAL
PLANT ROOTS
PATAGONIA
BROMUS PICTUS
BROMUS PICTUS
DRYLAND
MECHANISTIC TRAITS
PAPPOSTIPA SPECIOSA
PERENNIAL GRASSES
PERFORMANCE TRAITS
POA LIGULARIS
TRADE-OFF
WATER
ABOVEGROUND BIOMASS
ADAPTIVE RADIATION
ARID REGION
DROUGHT RESISTANCE
ENVIRONMENTAL CHANGE
FITNESS
GRASS
PERENNIAL PLANT
PERSISTENCE
PHENOTYPIC PLASTICITY
RESOURCE AVAILABILITY
SEMIARID REGION
SOIL SURFACE
STEPPE
TILLERING
TRADE-OFF
WATER AVAILABILITY
ADAPTATION
ARGENTINA
BIOMASS
BROMUS
DROUGHT
GROWTH, DEVELOPMENT AND AGING
METABOLISM
PHENOTYPE
PHYSIOLOGY
PLANT
PLANT ROOT
POA
POACEAE
SOIL
ADAPTATION, PHYSIOLOGICAL
DROUGHTS
PLANT COMPONENTS, AERIAL
PLANT ROOTS
PATAGONIA
BROMUS PICTUS
Couso, Luciana Laura
Fernández, Roberto Javier
Phenotypic plasticity as an index of drought tolerance in three Patagonian steppe grasses
description Background and Aims: Despite general agreement regarding the adaptive importance of plasticity, evidence for the role of environmental resource availability in plants is scarce. In arid and semi-arid environments, the persistence and dominance of perennial species depends on their capacity to tolerate drought: tolerance could be given on one extreme by fixed traits and, on the other, by plastic traits. To understand drought tolerance of species it is necessary to know the plasticity of their water economy-related traits, i.e. the position in the fixedplastic continuum. Methods: Three conspicuous co-existing perennial grasses from a Patagonian steppe were grown under controlled conditions with four levels of steady-state water availability. Evaluated traits were divided into two groups. The first was associated with potential plant performance and correlated with fitness, and included above-ground biomass, total biomass, tillering and tiller density at harvest. The second group consisted of traits associated with mechanisms of plant adjustment to environmental changes and included root biomass, shoot/root ratio, tiller biomass, length of total elongated leaf, length of yellow tissue divided by time and nal length divided by the time taken to reach nal length. Key, Results and Conclusions: The most plastic species along this drought gradient was the most sensitive to drought, whereas the least plastic and slowest growing was the most tolerant. This negative relationship between tolerance and plasticity was true for fitness-related traits but was trait-dependent for underlying traits. Remarkably, the most tolerant species had the highest positive plasticity [i.e. opposite to the default response to stress] in an underlying trait, directly explaining its drought resistance: it increased absolute root biomass. The niche differentiation axis that allows the coexistence of species in this group of perennial dryland grasses, all limited by soil surface moisture, would be a functional one of fixed versus plastic responses.
format Texto
topic_facet BROMUS PICTUS
DRYLAND
MECHANISTIC TRAITS
PAPPOSTIPA SPECIOSA
PERENNIAL GRASSES
PERFORMANCE TRAITS
POA LIGULARIS
TRADE-OFF
WATER
ABOVEGROUND BIOMASS
ADAPTIVE RADIATION
ARID REGION
DROUGHT RESISTANCE
ENVIRONMENTAL CHANGE
FITNESS
GRASS
PERENNIAL PLANT
PERSISTENCE
PHENOTYPIC PLASTICITY
RESOURCE AVAILABILITY
SEMIARID REGION
SOIL SURFACE
STEPPE
TILLERING
TRADE-OFF
WATER AVAILABILITY
ADAPTATION
ARGENTINA
BIOMASS
BROMUS
DROUGHT
GROWTH, DEVELOPMENT AND AGING
METABOLISM
PHENOTYPE
PHYSIOLOGY
PLANT
PLANT ROOT
POA
POACEAE
SOIL
ADAPTATION, PHYSIOLOGICAL
DROUGHTS
PLANT COMPONENTS, AERIAL
PLANT ROOTS
PATAGONIA
BROMUS PICTUS
author Couso, Luciana Laura
Fernández, Roberto Javier
author_facet Couso, Luciana Laura
Fernández, Roberto Javier
author_sort Couso, Luciana Laura
title Phenotypic plasticity as an index of drought tolerance in three Patagonian steppe grasses
title_short Phenotypic plasticity as an index of drought tolerance in three Patagonian steppe grasses
title_full Phenotypic plasticity as an index of drought tolerance in three Patagonian steppe grasses
title_fullStr Phenotypic plasticity as an index of drought tolerance in three Patagonian steppe grasses
title_full_unstemmed Phenotypic plasticity as an index of drought tolerance in three Patagonian steppe grasses
title_sort phenotypic plasticity as an index of drought tolerance in three patagonian steppe grasses
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46497
work_keys_str_mv AT cousolucianalaura phenotypicplasticityasanindexofdroughttoleranceinthreepatagoniansteppegrasses
AT fernandezrobertojavier phenotypicplasticityasanindexofdroughttoleranceinthreepatagoniansteppegrasses
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spelling KOHA-OAI-AGRO:464972022-10-26T12:04:24Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46497AAGPhenotypic plasticity as an index of drought tolerance in three Patagonian steppe grassesCouso, Luciana LauraFernández, Roberto Javiertextengapplication/pdfBackground and Aims: Despite general agreement regarding the adaptive importance of plasticity, evidence for the role of environmental resource availability in plants is scarce. In arid and semi-arid environments, the persistence and dominance of perennial species depends on their capacity to tolerate drought: tolerance could be given on one extreme by fixed traits and, on the other, by plastic traits. To understand drought tolerance of species it is necessary to know the plasticity of their water economy-related traits, i.e. the position in the fixedplastic continuum. Methods: Three conspicuous co-existing perennial grasses from a Patagonian steppe were grown under controlled conditions with four levels of steady-state water availability. Evaluated traits were divided into two groups. The first was associated with potential plant performance and correlated with fitness, and included above-ground biomass, total biomass, tillering and tiller density at harvest. The second group consisted of traits associated with mechanisms of plant adjustment to environmental changes and included root biomass, shoot/root ratio, tiller biomass, length of total elongated leaf, length of yellow tissue divided by time and nal length divided by the time taken to reach nal length. Key, Results and Conclusions: The most plastic species along this drought gradient was the most sensitive to drought, whereas the least plastic and slowest growing was the most tolerant. This negative relationship between tolerance and plasticity was true for fitness-related traits but was trait-dependent for underlying traits. Remarkably, the most tolerant species had the highest positive plasticity [i.e. opposite to the default response to stress] in an underlying trait, directly explaining its drought resistance: it increased absolute root biomass. The niche differentiation axis that allows the coexistence of species in this group of perennial dryland grasses, all limited by soil surface moisture, would be a functional one of fixed versus plastic responses.Background and Aims: Despite general agreement regarding the adaptive importance of plasticity, evidence for the role of environmental resource availability in plants is scarce. In arid and semi-arid environments, the persistence and dominance of perennial species depends on their capacity to tolerate drought: tolerance could be given on one extreme by fixed traits and, on the other, by plastic traits. To understand drought tolerance of species it is necessary to know the plasticity of their water economy-related traits, i.e. the position in the fixedplastic continuum. Methods: Three conspicuous co-existing perennial grasses from a Patagonian steppe were grown under controlled conditions with four levels of steady-state water availability. Evaluated traits were divided into two groups. The first was associated with potential plant performance and correlated with fitness, and included above-ground biomass, total biomass, tillering and tiller density at harvest. The second group consisted of traits associated with mechanisms of plant adjustment to environmental changes and included root biomass, shoot/root ratio, tiller biomass, length of total elongated leaf, length of yellow tissue divided by time and nal length divided by the time taken to reach nal length. Key, Results and Conclusions: The most plastic species along this drought gradient was the most sensitive to drought, whereas the least plastic and slowest growing was the most tolerant. This negative relationship between tolerance and plasticity was true for fitness-related traits but was trait-dependent for underlying traits. Remarkably, the most tolerant species had the highest positive plasticity [i.e. opposite to the default response to stress] in an underlying trait, directly explaining its drought resistance: it increased absolute root biomass. The niche differentiation axis that allows the coexistence of species in this group of perennial dryland grasses, all limited by soil surface moisture, would be a functional one of fixed versus plastic responses.BROMUS PICTUSDRYLANDMECHANISTIC TRAITSPAPPOSTIPA SPECIOSAPERENNIAL GRASSESPERFORMANCE TRAITSPOA LIGULARISTRADE-OFFWATERABOVEGROUND BIOMASSADAPTIVE RADIATIONARID REGIONDROUGHT RESISTANCEENVIRONMENTAL CHANGEFITNESSGRASSPERENNIAL PLANTPERSISTENCEPHENOTYPIC PLASTICITYRESOURCE AVAILABILITYSEMIARID REGIONSOIL SURFACESTEPPETILLERINGTRADE-OFFWATER AVAILABILITYADAPTATIONARGENTINABIOMASSBROMUSDROUGHTGROWTH, DEVELOPMENT AND AGINGMETABOLISMPHENOTYPEPHYSIOLOGYPLANTPLANT ROOTPOAPOACEAESOILADAPTATION, PHYSIOLOGICALDROUGHTSPLANT COMPONENTS, AERIALPLANT ROOTSPATAGONIABROMUS PICTUSAnnals of Botany

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