Direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales

Direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales

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Most of our knowledge about the consequences of tropospheric ozone pollution on aphid-plant interaction assumes the absence of a direct effect of ozone on aphids. However, the biological effects of ozone encompass changes in reactive oxygen species signalling, oxidative stress accumulation, and the immune response of both plants and animals. The main objective of this work was to evaluate the direct effect of ozone on Metopolophium dirhodum [Walker] aphids [Hemiptera: Aphididae], linking mechanisms that operate at individual scale [oxidative stress parameters and aphid-bacteria symbiosis persistence] with their consequences at population scale [mortality, dispersion, and population growth]. Two experiments were conducted in open-top chambers with three contrasting ozone exposure regimes [6 h at 0.5 plus or minus 0.3, 50 plus or minus 5, or 150 plus or minus 10 p.p.b.] and artificial diets to evaluate the direct effect of ozone on aphids. Exposure of aphids to ozone increased insect mortality compared to the control treatment. However, the populations established from the surviving insects of each treatment increased similarly. Consistently, aphid symbiosis with Buchnera aphidicola Munson et al. [Proteobacteria] and Hamiltonella defensa Moran et al. [Enterobacteriaceae] persisted in all treatments. Ozone also affected aphid behaviour. The proportion of insects dispersing from diet cages was lower in the ozone treatments than in the control treatment. In addition, lipid peroxidation was higher at 150 p.p.b. than at 50 p.p.b. treatment, although not different from that in the control. The reduction in aphid dispersion coupled with increased mortality suggests that direct exposure to ozone could lower aphid efficiency as virus vectors. These results could be partially associated with mechanisms operating at individual scale [accumulation of oxidative damage]. Overall, these experiments encourage reconsidering the impact of the direct effects of ozone on aphids when assessing the consequences of this component of global change on plant-aphid interactions.

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Bibliographic Details
Main Authors: Telesnicki, Marta Cecilia, Martínez Ghersa, María Alejandra, Arneodo, Joel Demián, Ghersa, Claudio Marco
Format: Texto biblioteca
Language:spa
Subjects:VIRUS, TROPOSPHERE, SYMBIOSIS, SIGNALING, REACTIVE OXYGEN SPECIES, PROTEOBACTERIA, PLANT-INSECT INTERACTION, PERSISTENCE, OZONE, OXIDATIVE STRESS, MORTALITY, METOPOLOPHIUM DIRHODUM, LIPID, INSECT, IMMUNE RESPONSE, HEXAPODA, HEMIPTERA, GLOBAL CHANGE, ENTEROBACTERIACEAE, ENDOSYMBIONTS, CANDIDATUS HAMILTONELLA DEFENSA, BUCHNERA APHIDICOLA, BEHAVIOUR, ARTIFICIAL DIET, APHIDIDAE, ANIMALIA,
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id KOHA-OAI-AGRO:47196
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 spa
topic VIRUS
TROPOSPHERE
SYMBIOSIS
SIGNALING
REACTIVE OXYGEN SPECIES
PROTEOBACTERIA
PLANT-INSECT INTERACTION
PERSISTENCE
OZONE
OXIDATIVE STRESS
MORTALITY
METOPOLOPHIUM DIRHODUM
LIPID
INSECT
IMMUNE RESPONSE
HEXAPODA
HEMIPTERA
GLOBAL CHANGE
ENTEROBACTERIACEAE
ENDOSYMBIONTS
CANDIDATUS HAMILTONELLA DEFENSA
BUCHNERA APHIDICOLA
BEHAVIOUR
ARTIFICIAL DIET
APHIDIDAE
ANIMALIA
VIRUS
TROPOSPHERE
SYMBIOSIS
SIGNALING
REACTIVE OXYGEN SPECIES
PROTEOBACTERIA
PLANT-INSECT INTERACTION
PERSISTENCE
OZONE
OXIDATIVE STRESS
MORTALITY
METOPOLOPHIUM DIRHODUM
LIPID
INSECT
IMMUNE RESPONSE
HEXAPODA
HEMIPTERA
GLOBAL CHANGE
ENTEROBACTERIACEAE
ENDOSYMBIONTS
CANDIDATUS HAMILTONELLA DEFENSA
BUCHNERA APHIDICOLA
BEHAVIOUR
ARTIFICIAL DIET
APHIDIDAE
ANIMALIA
spellingShingle VIRUS
TROPOSPHERE
SYMBIOSIS
SIGNALING
REACTIVE OXYGEN SPECIES
PROTEOBACTERIA
PLANT-INSECT INTERACTION
PERSISTENCE
OZONE
OXIDATIVE STRESS
MORTALITY
METOPOLOPHIUM DIRHODUM
LIPID
INSECT
IMMUNE RESPONSE
HEXAPODA
HEMIPTERA
GLOBAL CHANGE
ENTEROBACTERIACEAE
ENDOSYMBIONTS
CANDIDATUS HAMILTONELLA DEFENSA
BUCHNERA APHIDICOLA
BEHAVIOUR
ARTIFICIAL DIET
APHIDIDAE
ANIMALIA
VIRUS
TROPOSPHERE
SYMBIOSIS
SIGNALING
REACTIVE OXYGEN SPECIES
PROTEOBACTERIA
PLANT-INSECT INTERACTION
PERSISTENCE
OZONE
OXIDATIVE STRESS
MORTALITY
METOPOLOPHIUM DIRHODUM
LIPID
INSECT
IMMUNE RESPONSE
HEXAPODA
HEMIPTERA
GLOBAL CHANGE
ENTEROBACTERIACEAE
ENDOSYMBIONTS
CANDIDATUS HAMILTONELLA DEFENSA
BUCHNERA APHIDICOLA
BEHAVIOUR
ARTIFICIAL DIET
APHIDIDAE
ANIMALIA
Telesnicki, Marta Cecilia
Martínez Ghersa, María Alejandra
Arneodo, Joel Demián
Ghersa, Claudio Marco
Direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales
description Most of our knowledge about the consequences of tropospheric ozone pollution on aphid-plant interaction assumes the absence of a direct effect of ozone on aphids. However, the biological effects of ozone encompass changes in reactive oxygen species signalling, oxidative stress accumulation, and the immune response of both plants and animals. The main objective of this work was to evaluate the direct effect of ozone on Metopolophium dirhodum [Walker] aphids [Hemiptera: Aphididae], linking mechanisms that operate at individual scale [oxidative stress parameters and aphid-bacteria symbiosis persistence] with their consequences at population scale [mortality, dispersion, and population growth]. Two experiments were conducted in open-top chambers with three contrasting ozone exposure regimes [6 h at 0.5 plus or minus 0.3, 50 plus or minus 5, or 150 plus or minus 10 p.p.b.] and artificial diets to evaluate the direct effect of ozone on aphids. Exposure of aphids to ozone increased insect mortality compared to the control treatment. However, the populations established from the surviving insects of each treatment increased similarly. Consistently, aphid symbiosis with Buchnera aphidicola Munson et al. [Proteobacteria] and Hamiltonella defensa Moran et al. [Enterobacteriaceae] persisted in all treatments. Ozone also affected aphid behaviour. The proportion of insects dispersing from diet cages was lower in the ozone treatments than in the control treatment. In addition, lipid peroxidation was higher at 150 p.p.b. than at 50 p.p.b. treatment, although not different from that in the control. The reduction in aphid dispersion coupled with increased mortality suggests that direct exposure to ozone could lower aphid efficiency as virus vectors. These results could be partially associated with mechanisms operating at individual scale [accumulation of oxidative damage]. Overall, these experiments encourage reconsidering the impact of the direct effects of ozone on aphids when assessing the consequences of this component of global change on plant-aphid interactions.
format Texto
topic_facet VIRUS
TROPOSPHERE
SYMBIOSIS
SIGNALING
REACTIVE OXYGEN SPECIES
PROTEOBACTERIA
PLANT-INSECT INTERACTION
PERSISTENCE
OZONE
OXIDATIVE STRESS
MORTALITY
METOPOLOPHIUM DIRHODUM
LIPID
INSECT
IMMUNE RESPONSE
HEXAPODA
HEMIPTERA
GLOBAL CHANGE
ENTEROBACTERIACEAE
ENDOSYMBIONTS
CANDIDATUS HAMILTONELLA DEFENSA
BUCHNERA APHIDICOLA
BEHAVIOUR
ARTIFICIAL DIET
APHIDIDAE
ANIMALIA
author Telesnicki, Marta Cecilia
Martínez Ghersa, María Alejandra
Arneodo, Joel Demián
Ghersa, Claudio Marco
author_facet Telesnicki, Marta Cecilia
Martínez Ghersa, María Alejandra
Arneodo, Joel Demián
Ghersa, Claudio Marco
author_sort Telesnicki, Marta Cecilia
title Direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales
title_short Direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales
title_full Direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales
title_fullStr Direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales
title_full_unstemmed Direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales
title_sort direct effect of ozone pollution on aphids revisiting the evidence at individual and population scales
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47196
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 telesnickimartacecilia directeffectofozonepollutiononaphidsrevisitingtheevidenceatindividualandpopulationscales
AT martinezghersamariaalejandra directeffectofozonepollutiononaphidsrevisitingtheevidenceatindividualandpopulationscales
AT arneodojoeldemian directeffectofozonepollutiononaphidsrevisitingtheevidenceatindividualandpopulationscales
AT ghersaclaudiomarco directeffectofozonepollutiononaphidsrevisitingtheevidenceatindividualandpopulationscales
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spelling KOHA-OAI-AGRO:471962022-03-09T10:06:22Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47196http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGDirect effect of ozone pollution on aphids revisiting the evidence at individual and population scalesTelesnicki, Marta CeciliaMartínez Ghersa, María AlejandraArneodo, Joel DemiánGhersa, Claudio Marcotextspaapplication/pdfMost of our knowledge about the consequences of tropospheric ozone pollution on aphid-plant interaction assumes the absence of a direct effect of ozone on aphids. However, the biological effects of ozone encompass changes in reactive oxygen species signalling, oxidative stress accumulation, and the immune response of both plants and animals. The main objective of this work was to evaluate the direct effect of ozone on Metopolophium dirhodum [Walker] aphids [Hemiptera: Aphididae], linking mechanisms that operate at individual scale [oxidative stress parameters and aphid-bacteria symbiosis persistence] with their consequences at population scale [mortality, dispersion, and population growth]. Two experiments were conducted in open-top chambers with three contrasting ozone exposure regimes [6 h at 0.5 plus or minus 0.3, 50 plus or minus 5, or 150 plus or minus 10 p.p.b.] and artificial diets to evaluate the direct effect of ozone on aphids. Exposure of aphids to ozone increased insect mortality compared to the control treatment. However, the populations established from the surviving insects of each treatment increased similarly. Consistently, aphid symbiosis with Buchnera aphidicola Munson et al. [Proteobacteria] and Hamiltonella defensa Moran et al. [Enterobacteriaceae] persisted in all treatments. Ozone also affected aphid behaviour. The proportion of insects dispersing from diet cages was lower in the ozone treatments than in the control treatment. In addition, lipid peroxidation was higher at 150 p.p.b. than at 50 p.p.b. treatment, although not different from that in the control. The reduction in aphid dispersion coupled with increased mortality suggests that direct exposure to ozone could lower aphid efficiency as virus vectors. These results could be partially associated with mechanisms operating at individual scale [accumulation of oxidative damage]. Overall, these experiments encourage reconsidering the impact of the direct effects of ozone on aphids when assessing the consequences of this component of global change on plant-aphid interactions.Most of our knowledge about the consequences of tropospheric ozone pollution on aphid-plant interaction assumes the absence of a direct effect of ozone on aphids. However, the biological effects of ozone encompass changes in reactive oxygen species signalling, oxidative stress accumulation, and the immune response of both plants and animals. The main objective of this work was to evaluate the direct effect of ozone on Metopolophium dirhodum [Walker] aphids [Hemiptera: Aphididae], linking mechanisms that operate at individual scale [oxidative stress parameters and aphid-bacteria symbiosis persistence] with their consequences at population scale [mortality, dispersion, and population growth]. Two experiments were conducted in open-top chambers with three contrasting ozone exposure regimes [6 h at 0.5 plus or minus 0.3, 50 plus or minus 5, or 150 plus or minus 10 p.p.b.] and artificial diets to evaluate the direct effect of ozone on aphids. Exposure of aphids to ozone increased insect mortality compared to the control treatment. However, the populations established from the surviving insects of each treatment increased similarly. Consistently, aphid symbiosis with Buchnera aphidicola Munson et al. [Proteobacteria] and Hamiltonella defensa Moran et al. [Enterobacteriaceae] persisted in all treatments. Ozone also affected aphid behaviour. The proportion of insects dispersing from diet cages was lower in the ozone treatments than in the control treatment. In addition, lipid peroxidation was higher at 150 p.p.b. than at 50 p.p.b. treatment, although not different from that in the control. The reduction in aphid dispersion coupled with increased mortality suggests that direct exposure to ozone could lower aphid efficiency as virus vectors. These results could be partially associated with mechanisms operating at individual scale [accumulation of oxidative damage]. Overall, these experiments encourage reconsidering the impact of the direct effects of ozone on aphids when assessing the consequences of this component of global change on plant-aphid interactions.VIRUSTROPOSPHERESYMBIOSISSIGNALINGREACTIVE OXYGEN SPECIESPROTEOBACTERIAPLANT-INSECT INTERACTIONPERSISTENCEOZONEOXIDATIVE STRESSMORTALITYMETOPOLOPHIUM DIRHODUMLIPIDINSECTIMMUNE RESPONSEHEXAPODAHEMIPTERAGLOBAL CHANGEENTEROBACTERIACEAEENDOSYMBIONTSCANDIDATUS HAMILTONELLA DEFENSABUCHNERA APHIDICOLABEHAVIOURARTIFICIAL DIETAPHIDIDAEANIMALIAEntomologia Experimentalis et Applicata

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