Do species' strategies and type of stress predict net positive effects in an arid ecosystem?

Do species' strategies and type of stress predict net positive effects in an arid ecosystem?

A proposed refinement to the stress gradient hypothesis requires consideration of the strategies of the interacting species and the characteristics of the stress factors. While the strength and direction of these interactions can be predicted for different ecosystems, this idea remains largely untested in the field. We performed a manipulative field experiment complemented with a descriptive study to test the predictions in a natural setting that represents the extreme end of a precipitation gradient. There, wind driven desiccation and water availability are the main stressors (non-resource and resource-based stresses, respectively). We evaluated the interaction between the shrub and grasses that are dominant in the Patagonian steppe. The species had differences in morpho functional traits and drought tolerance that fit into the C–S axis of Grime´s strategies. We experimentally separated root zones to limit direct competition for soil moisture and reduce the resource based stress on grasses. We also manipulated the distance to shrubs to evaluate non -resource stress amelioration by canopies (e.g., sun and wind) on grasses. Finally, we evaluated the distribution of naturally established C and S grasses in the neighborhood of C and S shrubs to infer process pattern relationships. Our growth data coincide to a large degree to the predictions. We found positive effects on the growth of beneficiaries when stress was non resource based and when strategies differed (i.e., Cshrub–Sgrass and Sshrub–Cgrass). We also found strong negative effects when the abiotic stress was driven by water, particularly on C grasses. Additionally, shrubs only increased the survival of grasses when strategies differed (i.e., Cshrub–Sgrass and Sshrub–Cgrass). Our manipulative and descriptive study supported previous results that showed that stress tolerant species are important for the persistence of competitive species at high stress. While the applicability and generality of these predictions remains to be tested with more field experiments, some ecological factors, such as stress types and species traits, can explain much of the variation in how dominant shrubs and grasses interact in this extreme arid environment. Moreover, this framework could be extended to specifically test the importance of facilitation under different levels of stress.

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Main Authors: Graff, Bárbara Pamela, Aguiar, Martín Roberto
Format: Texto biblioteca
Language:eng
Subjects:ARID ENVIRONMENTS, FACILITATION, PLANT-PLANT INTERACTIONS, SPECIES TRAITS, STRESS GRADIENT, HYPOTHESIS,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=45744
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id KOHA-OAI-AGRO:45744
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 ARID ENVIRONMENTS
FACILITATION
PLANT-PLANT INTERACTIONS
SPECIES TRAITS
STRESS GRADIENT
HYPOTHESIS
ARID ENVIRONMENTS
FACILITATION
PLANT-PLANT INTERACTIONS
SPECIES TRAITS
STRESS GRADIENT
HYPOTHESIS
spellingShingle ARID ENVIRONMENTS
FACILITATION
PLANT-PLANT INTERACTIONS
SPECIES TRAITS
STRESS GRADIENT
HYPOTHESIS
ARID ENVIRONMENTS
FACILITATION
PLANT-PLANT INTERACTIONS
SPECIES TRAITS
STRESS GRADIENT
HYPOTHESIS
Graff, Bárbara Pamela
Aguiar, Martín Roberto
Do species' strategies and type of stress predict net positive effects in an arid ecosystem?
description A proposed refinement to the stress gradient hypothesis requires consideration of the strategies of the interacting species and the characteristics of the stress factors. While the strength and direction of these interactions can be predicted for different ecosystems, this idea remains largely untested in the field. We performed a manipulative field experiment complemented with a descriptive study to test the predictions in a natural setting that represents the extreme end of a precipitation gradient. There, wind driven desiccation and water availability are the main stressors (non-resource and resource-based stresses, respectively). We evaluated the interaction between the shrub and grasses that are dominant in the Patagonian steppe. The species had differences in morpho functional traits and drought tolerance that fit into the C–S axis of Grime´s strategies. We experimentally separated root zones to limit direct competition for soil moisture and reduce the resource based stress on grasses. We also manipulated the distance to shrubs to evaluate non -resource stress amelioration by canopies (e.g., sun and wind) on grasses. Finally, we evaluated the distribution of naturally established C and S grasses in the neighborhood of C and S shrubs to infer process pattern relationships. Our growth data coincide to a large degree to the predictions. We found positive effects on the growth of beneficiaries when stress was non resource based and when strategies differed (i.e., Cshrub–Sgrass and Sshrub–Cgrass). We also found strong negative effects when the abiotic stress was driven by water, particularly on C grasses. Additionally, shrubs only increased the survival of grasses when strategies differed (i.e., Cshrub–Sgrass and Sshrub–Cgrass). Our manipulative and descriptive study supported previous results that showed that stress tolerant species are important for the persistence of competitive species at high stress. While the applicability and generality of these predictions remains to be tested with more field experiments, some ecological factors, such as stress types and species traits, can explain much of the variation in how dominant shrubs and grasses interact in this extreme arid environment. Moreover, this framework could be extended to specifically test the importance of facilitation under different levels of stress.
format Texto
topic_facet ARID ENVIRONMENTS
FACILITATION
PLANT-PLANT INTERACTIONS
SPECIES TRAITS
STRESS GRADIENT
HYPOTHESIS
author Graff, Bárbara Pamela
Aguiar, Martín Roberto
author_facet Graff, Bárbara Pamela
Aguiar, Martín Roberto
author_sort Graff, Bárbara Pamela
title Do species' strategies and type of stress predict net positive effects in an arid ecosystem?
title_short Do species' strategies and type of stress predict net positive effects in an arid ecosystem?
title_full Do species' strategies and type of stress predict net positive effects in an arid ecosystem?
title_fullStr Do species' strategies and type of stress predict net positive effects in an arid ecosystem?
title_full_unstemmed Do species' strategies and type of stress predict net positive effects in an arid ecosystem?
title_sort do species' strategies and type of stress predict net positive effects in an arid ecosystem?
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=45744
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
work_keys_str_mv AT graffbarbarapamela dospeciesstrategiesandtypeofstresspredictnetpositiveeffectsinanaridecosystem
AT aguiarmartinroberto dospeciesstrategiesandtypeofstresspredictnetpositiveeffectsinanaridecosystem
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spelling KOHA-OAI-AGRO:457442022-09-26T16:34:44Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=45744http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGDo species' strategies and type of stress predict net positive effects in an arid ecosystem?Graff, Bárbara PamelaAguiar, Martín Robertotextengapplication/pdfA proposed refinement to the stress gradient hypothesis requires consideration of the strategies of the interacting species and the characteristics of the stress factors. While the strength and direction of these interactions can be predicted for different ecosystems, this idea remains largely untested in the field. We performed a manipulative field experiment complemented with a descriptive study to test the predictions in a natural setting that represents the extreme end of a precipitation gradient. There, wind driven desiccation and water availability are the main stressors (non-resource and resource-based stresses, respectively). We evaluated the interaction between the shrub and grasses that are dominant in the Patagonian steppe. The species had differences in morpho functional traits and drought tolerance that fit into the C–S axis of Grime´s strategies. We experimentally separated root zones to limit direct competition for soil moisture and reduce the resource based stress on grasses. We also manipulated the distance to shrubs to evaluate non -resource stress amelioration by canopies (e.g., sun and wind) on grasses. Finally, we evaluated the distribution of naturally established C and S grasses in the neighborhood of C and S shrubs to infer process pattern relationships. Our growth data coincide to a large degree to the predictions. We found positive effects on the growth of beneficiaries when stress was non resource based and when strategies differed (i.e., Cshrub–Sgrass and Sshrub–Cgrass). We also found strong negative effects when the abiotic stress was driven by water, particularly on C grasses. Additionally, shrubs only increased the survival of grasses when strategies differed (i.e., Cshrub–Sgrass and Sshrub–Cgrass). Our manipulative and descriptive study supported previous results that showed that stress tolerant species are important for the persistence of competitive species at high stress. While the applicability and generality of these predictions remains to be tested with more field experiments, some ecological factors, such as stress types and species traits, can explain much of the variation in how dominant shrubs and grasses interact in this extreme arid environment. Moreover, this framework could be extended to specifically test the importance of facilitation under different levels of stress.A proposed refinement to the stress gradient hypothesis requires consideration of the strategies of the interacting species and the characteristics of the stress factors. While the strength and direction of these interactions can be predicted for different ecosystems, this idea remains largely untested in the field. We performed a manipulative field experiment complemented with a descriptive study to test the predictions in a natural setting that represents the extreme end of a precipitation gradient. There, wind driven desiccation and water availability are the main stressors (non-resource and resource-based stresses, respectively). We evaluated the interaction between the shrub and grasses that are dominant in the Patagonian steppe. The species had differences in morpho functional traits and drought tolerance that fit into the C–S axis of Grime´s strategies. We experimentally separated root zones to limit direct competition for soil moisture and reduce the resource based stress on grasses. We also manipulated the distance to shrubs to evaluate non -resource stress amelioration by canopies (e.g., sun and wind) on grasses. Finally, we evaluated the distribution of naturally established C and S grasses in the neighborhood of C and S shrubs to infer process pattern relationships. Our growth data coincide to a large degree to the predictions. We found positive effects on the growth of beneficiaries when stress was non resource based and when strategies differed (i.e., Cshrub–Sgrass and Sshrub–Cgrass). We also found strong negative effects when the abiotic stress was driven by water, particularly on C grasses. Additionally, shrubs only increased the survival of grasses when strategies differed (i.e., Cshrub–Sgrass and Sshrub–Cgrass). Our manipulative and descriptive study supported previous results that showed that stress tolerant species are important for the persistence of competitive species at high stress. While the applicability and generality of these predictions remains to be tested with more field experiments, some ecological factors, such as stress types and species traits, can explain much of the variation in how dominant shrubs and grasses interact in this extreme arid environment. Moreover, this framework could be extended to specifically test the importance of facilitation under different levels of stress.ARID ENVIRONMENTSFACILITATIONPLANT-PLANT INTERACTIONSSPECIES TRAITSSTRESS GRADIENTHYPOTHESISEcology

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