Physiological Responses of Wild and Cultivated Barley to the Interactive Effect of Salinity and Iron Deficiency | Zendy

Sabeh Yousfi | Zendy; Hayet Houmani | Zendy; Fethia Zribi | Zendy; Chédly Abdelly | Zendy; Mohamed Gharsalli | Zendy

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Physiological Responses of Wild and Cultivated Barley to the Interactive Effect of Salinity and Iron Deficiency

Author(s) -

Sabeh Yousfi,

Hayet Houmani,

Fethia Zribi,

Chédly Abdelly,

Mohamed Gharsalli

Publication year - 2012

Publication title -

isrn agronomy

Language(s) - English

Resource type - Journals

eISSN - 2090-7664

pISSN - 2090-7656

DOI - 10.5402/2012/121983

Subject(s) - salinity , hordeum vulgare , shoot , nutrient , biology , photosynthesis , abiotic component , siderophore , hordeum , salt (chemistry) , botany , horticulture , chemistry , poaceae , ecology , bacteria , genetics

Literature on the separate effects of salinity and inadequate Fe supply on plant growth and nutrient uptake, concentration, and distribution is abundant but little is known about the interactive effects of these two abiotic constraints. Here, we investigated the interactive effect of iron availability and salinity on physiological responses of cultivated and wild barley (Hordeum vulgare and H. maritimum resp.). Seedlings of both species were grown for 9 days, under complete nutrient solution with or without iron supply. Then, NaCl treatment was applied at different concentrations (0, 100, 200, and 300 mM) for 60 hours. After salt exposure, shoot water content of H. vulgare was significantly reduced as compared to H. maritimum. Furthermore, Na

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