Ehsan Tavakkoli, Stephanie J. Watts-Williams, Pichu Rengasamy, Glenn K. McDonald
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The results of this soil-based study suggested that responses of crop growth to salinity stress depend on its severity: osmotic stress was the predominant cause of reduced growth at high levels of salinity, while specific-ion toxicity was more important under mild stress. We showed that the tolerant faba bean variety used dual mechanisms of ion exclusion and osmotic tolerance compared with the sensitive variety. Analysis of photosynthetic responses indicated that the extent to which stomatal closure affects photosynthetic capacity is indicated by the magnitude of the reduction in intercellular CO<sub>2</sub> concentration<em>.</em></p></div>","PeriodicalId":11758,"journal":{"name":"Environmental and Experimental Botany","volume":null,"pages":null},"PeriodicalIF":4.5000,"publicationDate":"2024-06-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0098847224002077/pdfft?md5=4bb8818077887b78bfd38249067a1488&pid=1-s2.0-S0098847224002077-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Eliciting the aboveground physiological regulation that underlies salinity tolerance in faba bean (Vicia faba L.)\",\"authors\":\"Ehsan Tavakkoli, Stephanie J. Watts-Williams, Pichu Rengasamy, Glenn K. McDonald\",\"doi\":\"10.1016/j.envexpbot.2024.105849\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Salinity is a prevalent soil issue that reduces crop growth by a combination of osmotic stress and ion-specific toxicity. The crop response to salt stress is generally described in terms of a two phase model in which growth is initially reduced by osmotic stress and then Na<sup>+</sup> toxicity. However, the relative importance of these mechanisms to salt stress is still not well understood. In this study a high-resolution image capture and analysis system was used to monitor shoot growth of faba bean plants non-destructively, while gas exchange measurements were used to examine the effects on photosynthesis in order to gain an understanding of the aforementioned stress mechanisms. The results of this soil-based study suggested that responses of crop growth to salinity stress depend on its severity: osmotic stress was the predominant cause of reduced growth at high levels of salinity, while specific-ion toxicity was more important under mild stress. We showed that the tolerant faba bean variety used dual mechanisms of ion exclusion and osmotic tolerance compared with the sensitive variety. 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Eliciting the aboveground physiological regulation that underlies salinity tolerance in faba bean (Vicia faba L.)
Salinity is a prevalent soil issue that reduces crop growth by a combination of osmotic stress and ion-specific toxicity. The crop response to salt stress is generally described in terms of a two phase model in which growth is initially reduced by osmotic stress and then Na+ toxicity. However, the relative importance of these mechanisms to salt stress is still not well understood. In this study a high-resolution image capture and analysis system was used to monitor shoot growth of faba bean plants non-destructively, while gas exchange measurements were used to examine the effects on photosynthesis in order to gain an understanding of the aforementioned stress mechanisms. The results of this soil-based study suggested that responses of crop growth to salinity stress depend on its severity: osmotic stress was the predominant cause of reduced growth at high levels of salinity, while specific-ion toxicity was more important under mild stress. We showed that the tolerant faba bean variety used dual mechanisms of ion exclusion and osmotic tolerance compared with the sensitive variety. Analysis of photosynthetic responses indicated that the extent to which stomatal closure affects photosynthetic capacity is indicated by the magnitude of the reduction in intercellular CO2 concentration.
期刊介绍:
Environmental and Experimental Botany (EEB) publishes research papers on the physical, chemical, biological, molecular mechanisms and processes involved in the responses of plants to their environment.
In addition to research papers, the journal includes review articles. Submission is in agreement with the Editors-in-Chief.
The Journal also publishes special issues which are built by invited guest editors and are related to the main themes of EEB.
The areas covered by the Journal include:
(1) Responses of plants to heavy metals and pollutants
(2) Plant/water interactions (salinity, drought, flooding)
(3) Responses of plants to radiations ranging from UV-B to infrared
(4) Plant/atmosphere relations (ozone, CO2 , temperature)
(5) Global change impacts on plant ecophysiology
(6) Biotic interactions involving environmental factors.
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