Real-time monitoring of Arundo donax response to saline stress through the application of in vivo sensing technology

Abstract One of the main impacts of climate change on agriculture production is the dramatic increase of saline (Na+) content in substrate, that will impair crop performance and productivity. Here we demonstrate how the application of smart technologies such as an in vivo sensor, termed bioristor, a...

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Autores principales: Janni Michela, Cocozza Claudia, Brilli Federico, Pignattelli Sara, Vurro Filippo, Coppede Nicola, Bettelli Manuele, Calestani Davide, Francesco Loreto, Andrea Zappettini
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Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/553c616440984076838638a202207e0f
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spelling oai:doaj.org-article:553c616440984076838638a202207e0f2021-12-02T17:27:11ZReal-time monitoring of Arundo donax response to saline stress through the application of in vivo sensing technology10.1038/s41598-021-97872-62045-2322https://doaj.org/article/553c616440984076838638a202207e0f2021-09-01T00:00:00Zhttps://doi.org/10.1038/s41598-021-97872-6https://doaj.org/toc/2045-2322Abstract One of the main impacts of climate change on agriculture production is the dramatic increase of saline (Na+) content in substrate, that will impair crop performance and productivity. Here we demonstrate how the application of smart technologies such as an in vivo sensor, termed bioristor, allows to continuously monitor in real-time the dynamic changes of ion concentration in the sap of Arundo donax L. (common name giant reed or giant cane), when exposed to a progressive salinity stress. Data collected in vivo by bioristor sensors inserted at two different heights into A. donax stems enabled us to detect the early phases of stress response upon increasing salinity. Indeed, the continuous time-series of data recorded by the bioristor returned a specific signal which correlated with Na+ content in leaves of Na-stressed plants, opening a new perspective for its application as a tool for in vivo plant phenotyping and selection of genotypes more suitable for the exploitation of saline soils.Janni MichelaCocozza ClaudiaBrilli FedericoPignattelli SaraVurro FilippoCoppede NicolaBettelli ManueleCalestani DavideFrancesco LoretoAndrea ZappettiniNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 11, Iss 1, Pp 1-11 (2021)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Janni Michela
Cocozza Claudia
Brilli Federico
Pignattelli Sara
Vurro Filippo
Coppede Nicola
Bettelli Manuele
Calestani Davide
Francesco Loreto
Andrea Zappettini
Real-time monitoring of Arundo donax response to saline stress through the application of in vivo sensing technology
description Abstract One of the main impacts of climate change on agriculture production is the dramatic increase of saline (Na+) content in substrate, that will impair crop performance and productivity. Here we demonstrate how the application of smart technologies such as an in vivo sensor, termed bioristor, allows to continuously monitor in real-time the dynamic changes of ion concentration in the sap of Arundo donax L. (common name giant reed or giant cane), when exposed to a progressive salinity stress. Data collected in vivo by bioristor sensors inserted at two different heights into A. donax stems enabled us to detect the early phases of stress response upon increasing salinity. Indeed, the continuous time-series of data recorded by the bioristor returned a specific signal which correlated with Na+ content in leaves of Na-stressed plants, opening a new perspective for its application as a tool for in vivo plant phenotyping and selection of genotypes more suitable for the exploitation of saline soils.
format article
author Janni Michela
Cocozza Claudia
Brilli Federico
Pignattelli Sara
Vurro Filippo
Coppede Nicola
Bettelli Manuele
Calestani Davide
Francesco Loreto
Andrea Zappettini
author_facet Janni Michela
Cocozza Claudia
Brilli Federico
Pignattelli Sara
Vurro Filippo
Coppede Nicola
Bettelli Manuele
Calestani Davide
Francesco Loreto
Andrea Zappettini
author_sort Janni Michela
title Real-time monitoring of Arundo donax response to saline stress through the application of in vivo sensing technology
title_short Real-time monitoring of Arundo donax response to saline stress through the application of in vivo sensing technology
title_full Real-time monitoring of Arundo donax response to saline stress through the application of in vivo sensing technology
title_fullStr Real-time monitoring of Arundo donax response to saline stress through the application of in vivo sensing technology
title_full_unstemmed Real-time monitoring of Arundo donax response to saline stress through the application of in vivo sensing technology
title_sort real-time monitoring of arundo donax response to saline stress through the application of in vivo sensing technology
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/553c616440984076838638a202207e0f
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