The Serratia sp. strain C2 confers tomato tolerance to high salt, virus infection and both stresses in combination

Besides increasing plant growth, several Plant Growth Promoting Rhizobacteria (PGPR), can enhance tolerance to biotic and/or abiotic stresses of numerous plant species. While cultivated plants are frequently subject to combined stresses in the field, there is limited knowledge of the effect of PGPR...

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Published inCurrent plant biology Vol. 40; p. 100390
Main Authors Sayahi, Naima, Sportelli, Giorgia, Carluccio, Anna Vittoria, Ebel, Chantal, Mechichi, Tahar, Cillo, Fabrizio, Hanin, Moez, Stavolone, Livia
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2024
Elsevier
Subjects
barley
chlorophyll
Combined stresses
immunity
morphometry
oxidative stress
plant growth
Plant growth promoting Rhizobacteria
Potato virus Y
proline
rhizosphere bacteria
RNA
salinity
salt stress
Salt stress tolerance
salt tolerance
Serratia
species
stress tolerance
sugars
sustainable agriculture
tomatoes
viruses
Potato virus Y
Plant growth promoting Rhizobacteria
Combined stresses
Salt stress tolerance
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Abstract Besides increasing plant growth, several Plant Growth Promoting Rhizobacteria (PGPR), can enhance tolerance to biotic and/or abiotic stresses of numerous plant species. While cultivated plants are frequently subject to combined stresses in the field, there is limited knowledge of the effect of PGPR on plants undergoing simultaneous stress conditions. Therefore, we tested the beneficial properties of the halotolerant PGPR Serratia sp. strain C2, previously shown to enhance salt stress tolerance in barley, on tomato plants exposed to salinity, to Potato Virus Y (PVY) infection, and both stresses simultaneously. In our experimental conditions, C2 inoculation improved tomato tolerance to salt stress and positively correlated with a 46–68 % decrease in the level of PVY RNA compared to non-inoculated tomato plants. Morphometric, physiological and biochemical analyses (e.g., chlorophyll, sugar and proline accumulation, oxidative stress status and NDVI) indicated that C2 treatments had beneficial effects on tomato growth under simple and combined stress conditions. This is the first report of a PGPR enhancing tolerance not only to individually induced salinity and PVY infection, but also to both stresses in combination. Moreover, the expression analysis of selected genes involved in stress responses and RNA silencing-mediated antiviral immunity suggests that C2 can interfere with distinct defence response pathways to enhance stress tolerance in tomato. These pioneering results support the perspective of using PGPR as multi-spectrum and multi-host biostimulants for improving plant growth and protection from biotic, abiotic, and combined stresses to promote sustainable crop production in the face of environmental changes. •The C2 PGPR improves tomato tolerance to simple and combined abiotic (salinity) and biotic (Potato Virus Y infection) stress treatments.•The C2-treated tomato plants show strong late suppression of PVY RNA accumulation under combined stress conditions.•The C2 PGPR can be used in broad-spectrum bioformulation to improve plant growth under a wide stress conditions to promote sustainable crop production.
AbstractList Besides increasing plant growth, several Plant Growth Promoting Rhizobacteria (PGPR), can enhance tolerance to biotic and/or abiotic stresses of numerous plant species. While cultivated plants are frequently subject to combined stresses in the field, there is limited knowledge of the effect of PGPR on plants undergoing simultaneous stress conditions. Therefore, we tested the beneficial properties of the halotolerant PGPR Serratia sp. strain C2, previously shown to enhance salt stress tolerance in barley, on tomato plants exposed to salinity, to Potato Virus Y (PVY) infection, and both stresses simultaneously. In our experimental conditions, C2 inoculation improved tomato tolerance to salt stress and positively correlated with a 46–68 % decrease in the level of PVY RNA compared to non-inoculated tomato plants. Morphometric, physiological and biochemical analyses (e.g., chlorophyll, sugar and proline accumulation, oxidative stress status and NDVI) indicated that C2 treatments had beneficial effects on tomato growth under simple and combined stress conditions. This is the first report of a PGPR enhancing tolerance not only to individually induced salinity and PVY infection, but also to both stresses in combination. Moreover, the expression analysis of selected genes involved in stress responses and RNA silencing-mediated antiviral immunity suggests that C2 can interfere with distinct defence response pathways to enhance stress tolerance in tomato. These pioneering results support the perspective of using PGPR as multi-spectrum and multi-host biostimulants for improving plant growth and protection from biotic, abiotic, and combined stresses to promote sustainable crop production in the face of environmental changes.
Besides increasing plant growth, several Plant Growth Promoting Rhizobacteria (PGPR), can enhance tolerance to biotic and/or abiotic stresses of numerous plant species. While cultivated plants are frequently subject to combined stresses in the field, there is limited knowledge of the effect of PGPR on plants undergoing simultaneous stress conditions. Therefore, we tested the beneficial properties of the halotolerant PGPR Serratia sp. strain C2, previously shown to enhance salt stress tolerance in barley, on tomato plants exposed to salinity, to Potato Virus Y (PVY) infection, and both stresses simultaneously. In our experimental conditions, C2 inoculation improved tomato tolerance to salt stress and positively correlated with a 46–68 % decrease in the level of PVY RNA compared to non-inoculated tomato plants. Morphometric, physiological and biochemical analyses (e.g., chlorophyll, sugar and proline accumulation, oxidative stress status and NDVI) indicated that C2 treatments had beneficial effects on tomato growth under simple and combined stress conditions. This is the first report of a PGPR enhancing tolerance not only to individually induced salinity and PVY infection, but also to both stresses in combination. Moreover, the expression analysis of selected genes involved in stress responses and RNA silencing-mediated antiviral immunity suggests that C2 can interfere with distinct defence response pathways to enhance stress tolerance in tomato. These pioneering results support the perspective of using PGPR as multi-spectrum and multi-host biostimulants for improving plant growth and protection from biotic, abiotic, and combined stresses to promote sustainable crop production in the face of environmental changes. •The C2 PGPR improves tomato tolerance to simple and combined abiotic (salinity) and biotic (Potato Virus Y infection) stress treatments.•The C2-treated tomato plants show strong late suppression of PVY RNA accumulation under combined stress conditions.•The C2 PGPR can be used in broad-spectrum bioformulation to improve plant growth under a wide stress conditions to promote sustainable crop production.
ArticleNumber 100390
Author Ebel, Chantal
Stavolone, Livia
Carluccio, Anna Vittoria
Hanin, Moez
Sayahi, Naima
Cillo, Fabrizio
Mechichi, Tahar
Sportelli, Giorgia
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  email: livia.stavolone@cnr.it
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Keywords Potato virus Y
Plant growth promoting Rhizobacteria
Combined stresses
Salt stress tolerance
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Snippet Besides increasing plant growth, several Plant Growth Promoting Rhizobacteria (PGPR), can enhance tolerance to biotic and/or abiotic stresses of numerous plant...
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SubjectTerms barley
chlorophyll
Combined stresses
immunity
morphometry
oxidative stress
plant growth
Plant growth promoting Rhizobacteria
Potato virus Y
proline
rhizosphere bacteria
RNA
salinity
salt stress
Salt stress tolerance
salt tolerance
Serratia
species
stress tolerance
sugars
sustainable agriculture
tomatoes
viruses
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Title The Serratia sp. strain C2 confers tomato tolerance to high salt, virus infection and both stresses in combination
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