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Fan Y., Zhou M. X.
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Chen Jiajia,
Zhan Haiying,
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von Bothmer Roland, Colmer Timothy D.
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Sanz-Saez Álvaro,
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Aquatic Botany. 2021 174 p.103429
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Davenport Romola,
James Richard A.,
Zakrisson-Plogander Anna,
Tester Mark, Munns Rana
Plant Physiology. 2005 137(3). p.807
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Bagues Mohamed,
Sarabi Behrooz,
Ghashghaie Jaleh,
Souli Ikbel, Nagaz Kamel
Plant Biotechnology. 2018 35(3). p.193
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Borrelli Grazia Maria,
Fragasso Mariagiovanna,
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Platani Cristiano,
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von Caemmerer Susanne,
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Gill Sidra,
Ramzan Musarrat,
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Danish Subhan,
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Chalbi Najla,
Hessini Kamel,
Gandour Mhemmed,
Mohamed Salma Naeit,
Smaoui Abderrazek,
Abdelly Chedly, Youssef Nabil Ben
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Root-mediated acidification and resistance to low calcium improve wheat (Triticum aestivum) performance in saline-sodic conditions
Saqib Muhammad,
Abbas Ghulam, Akhtar Javaid
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El‐Hendawy Salah E.,
Hu Yuncai, Schmidhalter Urs
Journal of Integrative Plant Biology. 2007 49(9). p.1352
Progress in Plant Nutrition: Plenary Lectures of the XIV International Plant Nutrition Colloquium (2002)
Osmotic adjustment leads to anomalously low estimates of relative water content in wheat and barley
Boyer John S.,
James Richard A.,
Munns Rana,
Condon Tony (A. G.), Passioura John B.
Functional Plant Biology. 2008 35(11). p.1172
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Miranda-Apodaca Jon,
Mena-Petite Amaia, Muñoz-Rueda Alberto
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Munns Rana,
Passioura John B.,
Colmer Timothy D., Byrt Caitlin S.
New Phytologist. 2020 225(3). p.1091
Agricultural Salinity Assessment and Management (2011)
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Smethurst Christiane F.,
Rix Kieren,
Garnett Trevor,
Auricht Geoff,
Bayart Antoine,
Lane Peter,
Wilson Stephen J., Shabala Sergey
Functional Plant Biology. 2008 35(7). p.640
Stressed food – The impact of abiotic environmental stresses on crop quality
Wang Yunxia, Frei Michael
Agriculture, Ecosystems & Environment. 2011 141(3-4). p.271
Growth Properties and Ion Distribution in Different Tissues of Bread Wheat Genotypes (Triticum aestivum L.) Differing in Salt Tolerance
Rahnama A.,
Poustini K.,
Tavakkol-Afshari R.,
Ahmadi A., Alizadeh H.
Journal of Agronomy and Crop Science. 2011 197(1). p.21
Photosynthetic Metabolism under Stressful Growth Conditions as a Bases for Crop Breeding and Yield Improvement
Morales Fermín,
Ancín María,
Fakhet Dorra,
González-Torralba Jon,
Gámez Angie L.,
Seminario Amaia,
Soba David,
Ben Mariem Sinda,
Garriga Miguel, Aranjuelo Iker
Plants. 2020 9(1). p.88
The role of salinity and sodicity in the dieback of Acacia xanthophloea in Ngorongoro Caldera, Tanzania
Mills A. J.
African Journal of Ecology. 2006 44(1). p.61
(2019)
Eco-physiological responses of Aeluropus lagopoides (grass halophyte) and Suaeda nudiflora (non-grass halophyte) under individual and interactive sodic and salt stress
Kumar Ashwani,
Kumar Arvind,
Lata C., Kumar S.
South African Journal of Botany. 2016 105 p.36
Comparative effect of salinity on growth, grain yield, water use efficiency, δ13C and δ15N of landraces and improved durum wheat varieties
Chamekh Zoubeir,
Ayadi Sawsen,
Karmous Chahine,
Trifa Youssef,
Amara Hajer,
Boudabbous Khaoula,
Yousfi Salima,
Serret Maria Dolors, Araus José Luis
Plant Science. 2016 251 p.44
Calcium requirement of wheat in saline and non-saline conditions
Genc Y.,
Tester M., McDonald G. K.
Plant and Soil. 2010 327(1-2). p.331
Nanobiotechnology (2021)
Differential Salt Tolerance Strategies in Three Halophytes from the Same Ecological Habitat: Augmentation of Antioxidant Enzymes and Compounds
Ghanem AbdEl-Mageed F. M.,
Mohamed Elsayed,
Kasem Ahmed M. M. A., El-Ghamery Abbas A.
Plants. 2021 10(6). p.1100
Differences in efficient metabolite management and nutrient metabolic regulation between wild and cultivated barley grown at high salinity
Yousfi Sabah,
Rabhi Mokded,
Hessini Kamel,
Abdelly Chedly, Gharsalli Mohamed
Plant Biology. 2009
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Bleda Francisco Javier,
Madrid Ramón,
García-Torres Antonio Lino,
García-Lidón Ángel, Porras Ignacio
Journal of Plant Nutrition. 2011 34(11). p.1579
Research advances in major cereal crops for adaptation to abiotic stresses
Maiti RK, Satya Pratik
GM Crops & Food. 2014 5(4). p.259
Evaluation ofSalvia hispanicaperformance under increasing salt stress conditions
Raimondi G.,
Rouphael Y.,
Di Stasio E.,
Napolitano F.,
Clemente G.,
Maiello R.,
Giordano M., De Pascale S.
Acta Horticulturae. 2017 (1170). p.703
Raising salinity tolerant rice: recent progress and future perspectives
Singh Anil K.,
Ansari Mohammad W.,
Pareek Ashwani, Singla-Pareek Sneh L.
Physiology and Molecular Biology of Plants. 2008 14(1-2). p.137
Shoot δ13C values as an indicator of cumulative stress: The role of re‐watering during drought and salinity stress
Sun Luan Zi,
Liu Lu,
Zhang Mengyu,
Yang Liang, Guo Tongtian
Rapid Communications in Mass Spectrometry. 2019 33(11). p.1006
Irrigation of Agricultural Crops (2015)
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Flagella Zina,
Trono Daniela,
Pompa Marianna,
Di Fonzo Natale, Pastore Donato
Functional Plant Biology. 2006 33(4). p.357
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Bachiri H.,
Djebbar R.,
Mekliche A.,
Djenadi C., Ghanim A.M.A.
American Journal of Plant Physiology. 2017 13(1). p.1
Genotypic differences in agro-physiological, biochemical and isotopic responses to salinity stress in quinoa (Chenopodium quinoa Willd.) plants: Prospects for salinity tolerance and yield stability
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