Articles citing this paper
Improving salt tolerance of wheat and barley: future prospects
T. D. Colmer A B E , R. Munns A C and T. J. Flowers B D
+ Author Affiliations
- Author Affiliations
A CRC for Plant-based Management of Dryland Salinity.
B School of Plant Biology, University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia.
C CSIRO Plant Industry, GPO Box 1600, Canberra, ACT 2601, Australia.
D School of Life Sciences, University of Sussex, Falmer, Brighton, Sussex, BN1 9QG, UK.
E Corresponding author. Email: tdcolmer@cyllene.uwa.edu.au
Australian Journal of Experimental Agriculture 45(11) 1425-1443 https://doi.org/10.1071/EA04162
Submitted: 2 August 2004 Accepted: 8 March 2005 Published: 16 December 2005
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Stefano Giovanni,
Pandolfi Camilla,
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Gholizadeh Amir,
Dehghani Hamid,
Akbarpour Omidali,
Amini Ashkboos,
Sadeghi Kaveh,
Hanifei Mehrdad, Sharifi-Zagheh Aram
Journal of Crop Science and Biotechnology. 2022 25(5). p.611
Regulation of cation transporter genes by the arbuscular mycorrhizal symbiosis in rice plants subjected to salinity suggests improved salt tolerance due to reduced Na+ root-to-shoot distribution
Porcel Rosa,
Aroca Ricardo,
Azcon Rosario, Ruiz-Lozano Juan Manuel
Mycorrhiza. 2016 26(7). p.673
Silicon nutrition improves growth of salt-stressed wheat by modulating flows and partitioning of Na+, Cl− and mineral ions
Javaid Tahir,
Farooq Muhammad Ansar,
Akhtar Javaid,
Saqib Zulfiqar Ahmad, Anwar-ul-Haq Muhammad
Plant Physiology and Biochemistry. 2019 141 p.291
Genetic approaches to exploit landraces for improvement of Triticum turgidum ssp. durum in the age of climate change
Broccanello Chiara,
Bellin Diana,
DalCorso Giovanni,
Furini Antonella, Taranto Francesca
Frontiers in Plant Science. 2023 14
Effect of Levels Water Salinity and Inoculation With Azospirillum and Bacillus on Some Growth and Yield Characters of Wheat (Triticum aestivum L.)
Tahseen Ali Salama,
Al-rifae Shaimaa Ibrahim, Saad Turki meften
IOP Conference Series: Earth and Environmental Science. 2021 923(1). p.012053
New Strategies to Increase the Abiotic Stress Tolerance in Woody Ornamental Plants in Mediterranean Climate
Leotta Luca,
Toscano Stefania,
Ferrante Antonio,
Romano Daniela, Francini Alessandra
Plants. 2023 12(10). p.2022
(2023)
Salt sensitivity in chickpea is determined by sodium toxicity
Khan Hammad A.,
Siddique Kadambot H. M., Colmer Timothy D.
Planta. 2016 244(3). p.623
Abiotic Stress and Legumes (2021)
Physiological and cellular aspects of phytotoxicity tolerance in plants: the role of membrane transporters and implications for crop breeding for waterlogging tolerance
Shabala Sergey
New Phytologist. 2011 190(2). p.289
Evaluating salinity tolerance in progeny of domestic and wild barley crosses at the seedling growth stage
Mohammed Abdullah H.,
Morrison Jesse I., Baldwin Brian S.
Agrosystems, Geosciences & Environment. 2021 4(3).
HvNax3—a locus controlling shoot sodium exclusion derived from wild barley (Hordeum vulgare ssp. spontaneum)
Shavrukov Yuri,
Gupta Narendra K.,
Miyazaki Junji,
Baho Manahil N.,
Chalmers Kenneth J.,
Tester Mark,
Langridge Peter, Collins Nicholas C.
Functional & Integrative Genomics. 2010 10(2). p.277
Comparative assessment of heavy metal accumulation and bio-indication in coastal dune halophytes
Mujeeb Amtul,
Aziz Irfan,
Ahmed Muhammad Zaheer,
Alvi Sofia Khalique, Shafiq Sheraz
Ecotoxicology and Environmental Safety. 2020 195 p.110486
Salt and drought stresses in safflower: a review
Hussain M. Iftikhar,
Lyra Dionyssia-Angeliki,
Farooq Muhammad,
Nikoloudakis Nikolaos, Khalid Nauman
Agronomy for Sustainable Development. 2016 36(1).
Salinity tolerance of wild barley Hordeum vulgare ssp. spontaneum
Ebrahim Fatemeh,
Arzani Ahmad,
Rahimmalek Mehdi,
Sun Dongfa,
Peng Junhua, Pillen Klaus
Plant Breeding. 2020 139(2). p.304
Breeding for abiotic stresses for sustainable agriculture
Witcombe J.R,
Hollington P.A,
Howarth C.J,
Reader S, Steele K.A
Philosophical Transactions of the Royal Society B: Biological Sciences. 2008 363(1492). p.703
Rapid regulation of the plasma membrane H+-ATPase activity is essential to salinity tolerance in two halophyte species, Atriplex lentiformis and Chenopodium quinoa
Bose Jayakumar,
Rodrigo-Moreno Ana,
Lai Diwen,
Xie Yanjie,
Shen Wenbiao, Shabala Sergey
Annals of Botany. 2015 115(3). p.481
Comparative Analysis of Morphological, Physiological, Anatomic and Biochemical Responses in Relatively Sensitive Zinnia elegans ‘Zinnita Scarlet’ and Relatively Tolerant Zinnia marylandica ‘Double Zahara Fire Improved’ under Saline Conditions
Yasemin Sara, Koksal Nezihe
Horticulturae. 2023 9(2). p.247
Osmotic and saline effect on growth, water relations, and ion uptake and translocation in Phlomis purpurea plants
Álvarez Sara,
Gómez-Bellot Ma José,
Castillo Marco,
Bañón Sebastián, Sánchez-Blanco Ma Jesús
Environmental and Experimental Botany. 2012 78 p.138
Major genes for Na+ exclusion, Nax1 and Nax2 (wheat HKT1;4 and HKT1;5), decrease Na+ accumulation in bread wheat leaves under saline and waterlogged conditions
James R. A.,
Blake C.,
Byrt C. S., Munns R.
Journal of Experimental Botany. 2011 62(8). p.2939
Long term responses and adaptive strategies of Pistacia lentiscus under moderate and severe deficit irrigation and salinity: Osmotic and elastic adjustment, growth, ion uptake and photosynthetic activity
Álvarez S.,
Rodríguez P.,
Broetto F., Sánchez-Blanco M.J.
Agricultural Water Management. 2018 202 p.253
The response of genetically distinct bread wheat genotypes to salinity stress
Ali Zulfiqar,
Salam Abdus,
Azhar Faqir Muhammad,
Khan Iftikhar Ahmad,
Khan Asif Ali,
Bahadur Sultan,
Mahmood Tariq,
Ahmad Ashfaq, Trethowan Richard
Plant Breeding. 2012 131(6). p.707
Screening of Egyptian Okra Genotypes for Salinity Tolerance at the Seedling Stage
Ibrahim Ehab A., Y. Abed Mohamed
Singapore Journal of Scientific Research. 2019 10(1). p.79
Polysaccharides Derived From the Brown Algae Lessonia nigrescens Enhance Salt Stress Tolerance to Wheat Seedlings by Enhancing the Antioxidant System and Modulating Intracellular Ion Concentration
Zou Ping,
Lu Xueli,
Zhao Hongtao,
Yuan Yuan,
Meng Lei,
Zhang Chengsheng, Li Yiqiang
Frontiers in Plant Science. 2019 10
Abiotic Stress Responses in Plants (2012)
Multi-disciplinary approaches suggest profitable and sustainable farming systems for valley floors at risk of salinity
Barrett-Lennard E. G.,
George R. J.,
Hamilton G.,
Norman H. C., Masters D. G.
Australian Journal of Experimental Agriculture. 2005 45(11). p.1415
Some rootstocks improve pepper tolerance to mild salinity through ionic regulation
Penella Consuelo,
Nebauer Sergio G.,
Quiñones Ana,
San Bautista Alberto,
López-Galarza Salvador, Calatayud Angeles
Plant Science. 2015 230 p.12
Ionic relations and osmotic adjustment in durum and bread wheat under saline conditions
Cuin Tracey Ann,
Tian Yu,
Betts Stewart A.,
Chalmandrier Rémi, Shabala Sergey
Functional Plant Biology. 2009 36(12). p.1110
Physiological and molecular mechanisms mediating xylem Na+ loading in barley in the context of salinity stress tolerance
Zhu Min,
Zhou Meixue,
Shabala Lana, Shabala Sergey
Plant, Cell & Environment. 2017 40(7). p.1009
Variability in salt tolerance of native populations of Elymus scabrifolius (Döll) J. H. Hunz from Argentina
Zabala J. M.,
Taleisnik E.,
Giavedoni J. A.,
Pensiero J. F., Schrauf G. E.
Grass and Forage Science. 2011 66(1). p.109
Transcriptional variation is associated with differences in shoot sodium accumulation in distinct barley varieties
Amarasinghe Shanika L.,
Watson-Haigh Nathan S.,
Byrt Caitlin,
James Richard,
Qiu Jiaen,
Berkowitz Oliver,
Whelan James,
Roy Stuart J.,
Gilliham Matthew, Baumann Ute
Environmental and Experimental Botany. 2019 166 p.103812
Learning from halophytes: physiological basis and strategies to improve abiotic stress tolerance in crops
Shabala Sergey
Annals of Botany. 2013 112(7). p.1209
Novel Germplasm Resources for Improving Environmental Stress Tolerance of Hexaploid Wheat
Trethowan R. M., Mujeeb‐Kazi A.
Crop Science. 2008 48(4). p.1255
Salinity tolerance of Arabidopsis: a good model for cereals?
Møller Inge Skrumsager, Tester Mark
Trends in Plant Science. 2007 12(12). p.534
Qualitative and quantitative variation in the mechanisms of salinity tolerance determined by multivariate assessment of diverse rice (Oryza sativa L.) genotypes
Hossain Mohammad Rashed,
Pritchard Jeremy, Ford-Lloyd Brian V.
Plant Genetic Resources. 2016 14(2). p.91
Early growth stages salinity stress tolerance in CM72 x Gairdner doubled haploid barley population
Angessa Tefera Tolera,
Zhang Xiao-Qi,
Zhou Gaofeng,
Broughton Sue,
Zhang Wenying,
Li Chengdao, Zhang Guoping
PLOS ONE. 2017 12(6). p.e0179715
Adaptive mechanisms of tall wheatgrass to salinity and alkalinity stress
Andrioli Romina Jessica
Grass and Forage Science. 2023 78(1). p.23
Productivity of waterlogged and salt-affected land in a Mediterranean climate using bed-furrow systems
Bakker D.M.,
Hamilton G.J.,
Hetherington R., Spann C.
Field Crops Research. 2010 117(1). p.24
A high-quality genome sequence of alkaligrass provides insights into halophyte stress tolerance
Zhang Wenting,
Liu Jie,
Zhang Yongxue,
Qiu Jie,
Li Ying,
Zheng Baojiang,
Hu Fenhong,
Dai Shaojun, Huang Xuehui
Science China Life Sciences. 2020 63(9). p.1269
Long‐term effect of salinity on plant quality, water relations, photosynthetic parameters and ion distribution in Callistemon citrinus
Álvarez S.,
Sánchez‐Blanco M. J., Sparks J.
Plant Biology. 2014 16(4). p.757
Uncoupling of sodium and chloride to assist breeding for salinity tolerance in crops
Genc Yusuf,
Oldach Klaus,
Taylor Julian, Lyons Graham H.
New Phytologist. 2016 210(1). p.145
Advances in Molecular Breeding Toward Drought and Salt Tolerant Crops (2007)
Comparative Transcript Profiling and Multiplex qRT-PCR Analysis Between Salt-Tolerant and Sensitive Wheat Genotypes
Yumurtaci Aysen
Global Journal Of Botanical Science. 2023 11 p.65
Climate Change, Intercropping, Pest Control and Beneficial Microorganisms (2009)
Salinity Responses and Tolerance in Plants, Volume 1 (2018)
Identification of QTLs associated with salinity tolerance at late growth stage in barley
Xue Dawei,
Huang Youzong,
Zhang Xiaoqi,
Wei Kang,
Westcott Sharon,
Li Chengdao,
Chen Mingcan,
Zhang Guoping, Lance Reg
Euphytica. 2009 169(2). p.187
Bacillus pumilus enhances tolerance in rice (Oryza sativa L.) to combined stresses of NaCl and high boron due to limited uptake of Na+
Khan Alamgir,
Sirajuddin ,
Zhao Xue Qiang,
Javed M. Tariq,
Khan Khalid Saifullah,
Bano Asghari,
Shen Ren Fang, Masood Sajid
Environmental and Experimental Botany. 2016 124 p.120
The effects of sodium chloride on ornamental shrubs
Cassaniti Carla,
Leonardi Cherubino, Flowers Timothy J.
Scientia Horticulturae. 2009 122(4). p.586
Salinity tolerance and sodium exclusion in genus Triticum
Shavrukov Yuri,
Langridge Peter, Tester Mark
Breeding Science. 2009 59(5). p.671
QTL Mapping of Salt Tolerance Traits with Different Effects at the Seedling Stage of Bread Wheat
Masoudi Bahram,
Mardi Mohsen,
Hervan Eslam Majidi,
Bihamta Mohammad Reza,
Naghavi Mohammad Reza,
Nakhoda Babak, Amini Ashkboos
Plant Molecular Biology Reporter. 2015 33(6). p.1790
Conservation and Sustainable Utilization of Bioresources (2023)
Screening of Date Palm (Phoenix dactylifera L.) Cultivars for Salinity Tolerance
Al Kharusi Latifa,
Assaha Dekoum,
Al-Yahyai Rashid, Yaish Mahmoud
Forests. 2017 8(4). p.136
Functional annotation of differentially expressed genes under salt stress in Dichanthium annulatum
Mann Anita,
Kumar Naresh,
Lata Charu,
Kumar Ashwani,
Kumar Arvind, Meena B. L.
Plant Physiology Reports. 2019 24(1). p.104
Paradox of plant growth promotion potential of rhizobacteria and their actual promotion effect on growth of barley (Hordeum vulgare L.) under salt stress
Cardinale Massimiliano,
Ratering Stefan,
Suarez Christian,
Zapata Montoya Ana Maria,
Geissler-Plaum Rita, Schnell Sylvia
Microbiological Research. 2015 181 p.22
Elevated CO2 reduces stomatal and metabolic limitations on photosynthesis caused by salinity in Hordeum vulgare
Pérez-López Usue,
Robredo Anabel,
Lacuesta Maite,
Mena-Petite Amaia, Muñoz-Rueda Alberto
Photosynthesis Research. 2012 111(3). p.269
Halophytic Plants for Animal Feed: Associated Botanical and Nutritional Characteristics (2022)
photosynthesis in the 7H Asakaze komugi/Manas wheat/barley addition line during salt stress
Dulai S.,
Molnár I.,
Haló B., Molnár-Láng M.
Acta Agronomica Hungarica. 2010 58(4). p.367
Salt acclimation process: a comparison between a sensitive and a tolerant Olea europaea cultivar
Pandolfi Camilla,
Bazihizina Nadia,
Giordano Cristiana,
Mancuso Stefano,
Azzarello Elisa, Ball Marilyn
Tree Physiology. 2017 37(3). p.380
Comparing salt tolerance of beet cultivars and their halophytic ancestor: consequences of domestication and breeding programmes
Rozema Jelte,
Cornelisse Danny,
Zhang Yuancheng,
Li Hongxiu,
Bruning Bas,
Katschnig Diana,
Broekman Rob,
Ji Bin, van Bodegom Peter
AoB PLANTS. 2015 7
Association mapping of salt tolerance in barley (Hordeum vulgare L.)
Long Nguyen Viet,
Dolstra Oene,
Malosetti Marcos,
Kilian Benjamin,
Graner Andreas,
Visser Richard G. F., van der Linden C. Gerard
Theoretical and Applied Genetics. 2013 126(9). p.2335
Advances in Molecular Breeding Toward Drought and Salt Tolerant Crops (2007)
Abiotic Stress Management for Resilient Agriculture (2017)
Comparing Kinetics of Xylem Ion Loading and Its Regulation in Halophytes and Glycophytes
Zarei Mahvash,
Shabala Sergey,
Zeng Fanrong,
Chen Xiaohui,
Zhang Shuo,
Azizi Majid,
Rahemi Majid,
Davarpanah Sohrab,
Yu Min, Shabala Lana
Plant and Cell Physiology. 2020 61(2). p.403
A GBS-based genome-wide association study reveals the genetic basis of salinity tolerance at the seedling stage in bread wheat (Triticum aestivum L.)
Akram Saba,
Ghaffar Maria,
Wadood Ayesha,
Shokat Sajid,
Hameed Amjad,
Waheed Muhammad Qandeel, Arif Mian Abdur Rehman
Frontiers in Genetics. 2022 13
Potential of five plants growing on unproductive agricultural lands as biodiesel resources
Ruan Cheng-Jiang,
Xing Wei-He, Teixeira da Silva Jaime A.
Renewable Energy. 2012 41 p.191
Salt oversensitivity derived from mutation breeding improves salinity tolerance in barley via ion homeostasis
Yousefirad S.,
Soltanloo H.,
Ramezanpour S. S.,
Zaynalinezhad K., Shariati V.
Biologia Plantarum. 2018 62(4). p.775
Hordeum marinum-wheat amphiploids maintain higher leaf K+:Na+ and suffer less leaf injury than wheat parents in saline conditions
Munns Rana,
James Richard A.,
Islam A. K. M. R., Colmer Timothy D.
Plant and Soil. 2011 348(1-2). p.365
Changes in Morpho-Anatomical and Eco-Physiological Responses of Viburnum tinus L. var lucidum as Modulated by Sodium Chloride and Calcium Chloride Salinization
De Micco Veronica,
Arena Carmen,
Amitrano Chiara,
Rouphael Youssef,
De Pascale Stefania, Cirillo Chiara
Horticulturae. 2022 8(2). p.119
Assessing the Suitability of Selection Approaches and Genetic Diversity Analysis for Early Detection of Salt Tolerance of Barley Genotypes
Javed Muhammad Matloob,
Al-Doss Abdullah A.,
Tahir Muhammad Usman,
Khan Muhammad Altaf, El-Hendawy Salah
Agronomy. 2022 12(12). p.3217
Genomics, Physiology, and Molecular Breeding Approaches for Improving Salt Tolerance
Ismail Abdelbagi M., Horie Tomoaki
Annual Review of Plant Biology. 2017 68(1). p.405
Thinopyrum ponticum Chromatin-Integrated Wheat Genome Shows Salt-Tolerance at Germination Stage
Yuan Wen-Ye, Tomita Motonori
International Journal of Molecular Sciences. 2015 16(3). p.4512
Elucidation of Abiotic Stress Signaling in Plants (2015)
Salt-tolerant rhizobacteria-mediated induced tolerance in wheat (Triticum aestivum) and chemical diversity in rhizosphere enhance plant growth
Tiwari Shweta,
Singh Pratibha,
Tiwari Rameshwar,
Meena Kamlesh K.,
Yandigeri Mahesh,
Singh Dhananjaya P., Arora Dilip K.
Biology and Fertility of Soils. 2011 47(8). p.907
Differential changes in grain ultrastructure, amylase, protein and amino acid profiles between Tibetan wild and cultivated barleys under drought and salinity alone and combined stress
Ahmed Imrul Mosaddek,
Cao Fangbin,
Han Yong,
Nadira Umme Aktari,
Zhang Guoping, Wu Feibo
Food Chemistry. 2013 141(3). p.2743
Determining reclaimed water quality thresholds and farming practices to improve food crop yield: A meta-analysis combined with random forest model
Liu Xufei,
Zhang Lin,
Yang Fuhui, Zhou Wei
Science of The Total Environment. 2023 862 p.160774
Plant‐Environment Interaction (2016)
The need to breed crop varieties suitable for organic farming, using wheat, tomato and broccoli as examples: A review
Lammerts van Bueren E.T.,
Jones S.S.,
Tamm L.,
Murphy K.M.,
Myers J.R.,
Leifert C., Messmer M.M.
NJAS: Wageningen Journal of Life Sciences. 2011 58(3-4). p.193
A root's ability to retain K+ correlates with salt tolerance in wheat
Cuin T. A.,
Betts S. A.,
Chalmandrier R., Shabala S.
Journal of Experimental Botany. 2008 59(10). p.2697
Genetic Manipulation in Plants for Mitigation of Climate Change (2015)
Salinity Stress in Wheat: Effects, Mechanisms and Management Strategies
F. Seleiman Mahmoud,
Talha Aslam Muhammad,
Ahmed Alhammad Bushra,
Umair Hassan Muhammad,
Maqbool Rizwan,
Umer Chattha Muhammad,
Khan Imran,
Ireri Gitari Harun,
S. Uslu Omer,
Roy Rana, Leonardo Battaglia Martin
Phyton. 2022 91(4). p.667
Salinity and Water Stress (2009)
Rewilding staple crops for the lost halophytism: Toward sustainability and profitability of agricultural production systems
Rawat Nishtha,
Wungrampha Silas,
Singla-Pareek Sneh L.,
Yu Min,
Shabala Sergey, Pareek Ashwani
Molecular Plant. 2022 15(1). p.45
QTL mapping in an interspecific sorghum population uncovers candidate regulators of salinity tolerance
Hostetler Ashley N.,
Govindarajulu Rajanikanth, Hawkins Jennifer S.
Plant Stress. 2021 2 p.100024
Bio-Stimulating Effect of Natural Polysaccharides from Lobularia maritima on Durum Wheat Seedlings: Improved Plant Growth, Salt Stress Tolerance by Modulating Biochemical Responses and Ion Homeostasis
Bouteraa Mohamed Taieb,
Mishra Avinash,
Romdhane Walid Ben,
Hsouna Anis Ben,
Siddique Kadambot H. M., Saad Rania Ben
Plants. 2022 11(15). p.1991
Reassessment of tissue Na+ concentration as a criterion for salinity tolerance in bread wheat
GENC YUSUF,
MCDONALD GLENN K., TESTER MARK
Plant, Cell & Environment. 2007 30(11). p.1486
Use of wild relatives to improve salt tolerance in wheat
Colmer Timothy D.,
Flowers Timothy J., Munns Rana
Journal of Experimental Botany. 2006 57(5). p.1059
Physiological and biochemical mechanisms of the ornamental Eugenia myrtifolia L. plants for coping with NaCl stress and recovery
Acosta-Motos José-Ramón,
Diaz-Vivancos Pedro,
Álvarez Sara,
Fernández-García Nieves,
Sanchez-Blanco María Jesús, Hernández José Antonio
Planta. 2015 242(4). p.829
Evolution of halophytes: multiple origins of salt tolerance in land plants
Flowers Timothy J.,
Galal Hanaa K., Bromham Lindell
Functional Plant Biology. 2010 37(7). p.604
Casparian bands and suberin lamellae: Key targets for breeding salt tolerant crops?
Cui Bing,
Liu Ranran,
Flowers Timothy J., Song Jie
Environmental and Experimental Botany. 2021 191 p.104600
Alleviation of salt stress by increasing potassium sulphate doses in four medicinal and aromatic plants
Yaldız Gülsüm,
Özen Ferit,
Çamlıca Mahmut, Sönmez Ferit
Acta Agriculturae Scandinavica, Section B — Soil & Plant Science. 2018 68(5). p.437
Molecular characterization and functional analysis of elite genes in wheat and its related species
Wang Jirui,
Qi Pengfei,
Wei Yuming,
Liu Dengcai,
Fedak George, Zheng Youliang
Journal of Genetics. 2010 89(4). p.539
Mapping of novel salt tolerance QTL in an Excalibur × Kukri doubled haploid wheat population
Asif Muhammad A.,
Schilling Rhiannon K.,
Tilbrook Joanne,
Brien Chris,
Dowling Kate,
Rabie Huwaida,
Short Laura,
Trittermann Christine,
Garcia Alexandre,
Barrett-Lennard Edward G.,
Berger Bettina,
Mather Diane E.,
Gilliham Matthew,
Fleury Delphine,
Tester Mark,
Roy Stuart J., Pearson Allison S.
Theoretical and Applied Genetics. 2018 131(10). p.2179
Analysis of metabolic and mineral changes in response to salt stress in durum wheat (Triticum turgidum ssp. durum) genotypes, which differ in salinity tolerance
Borrelli Grazia Maria,
Fragasso Mariagiovanna,
Nigro Franca,
Platani Cristiano,
Papa Roberto,
Beleggia Romina, Trono Daniela
Plant Physiology and Biochemistry. 2018 133 p.57
Bread Wheat With High Salinity and Sodicity Tolerance
Genc Yusuf,
Taylor Julian,
Lyons Graham,
Li Yongle,
Cheong Judy,
Appelbee Marie,
Oldach Klaus, Sutton Tim
Frontiers in Plant Science. 2019 10
Salt‐Induced Regulation of Some Key Antioxidant Enzymes and Physio‐Biochemical Phenomena in Five Diverse Cultivars of Turnip (Brassica rapa L.)
Noreen Z.,
Ashraf M., Akram N. A.
Journal of Agronomy and Crop Science. 2010 196(4). p.273
Physiological changes of pepper accessions in response to salinity and water stress
López-Serrano Lidia,
Penella Consuelo,
San-Bautista Alberto,
López-Galarza Salvador, Calatayud Angeles
Spanish Journal of Agricultural Research. 2017 15(3). p.e0804
The NPR1-dependent salicylic acid signalling pathway is pivotal for enhanced salt and oxidative stress tolerance in Arabidopsis
Jayakannan Maheswari,
Bose Jayakumar,
Babourina Olga,
Shabala Sergey,
Massart Amandine,
Poschenrieder Charlotte, Rengel Zed
Journal of Experimental Botany. 2015 66(7). p.1865
Potential for the improvement of Salicornia bigelovii through selective breeding
Zerai Desale B.,
Glenn Edward P.,
Chatervedi Rahul,
Lu Zhongjin,
Mamood Amed N.,
Nelson Stephen G., Ray Dennis T.
Ecological Engineering. 2010 36(5). p.730
The effect of alternating irrigation with fresh and saline water on the aesthetic quality, ion accumulation and water relations of Hibiscus plants
Álvarez S.,
Nortes P.A.,
Acosta-Motos J.R., Sánchez-Blanco M.J.
Acta Horticulturae. 2022 (1345). p.367
Plant Abiotic Stress (2013)
Halophytes and other molecular strategies for the generation of salt-tolerant crops
Barros Nicolle Louise Ferreira,
Marques Deyvid Novaes,
Tadaiesky Lorene Bianca Araújo, de Souza Cláudia Regina Batista
Plant Physiology and Biochemistry. 2021 162 p.581
Expression of the Arabidopsis vacuolar H+‐pyrophosphatase gene (AVP1) improves the shoot biomass of transgenic barley and increases grain yield in a saline field
Schilling Rhiannon K.,
Marschner Petra,
Shavrukov Yuri,
Berger Bettina,
Tester Mark,
Roy Stuart J., Plett Darren C.
Plant Biotechnology Journal. 2014 12(3). p.378
Disomic Substitution of 3D Chromosome with Its Homoeologue 3E in Tetraploid Thinopyrum elongatum Enhances Wheat Seedlings Tolerance to Salt Stress
Zeng Jian,
Zhou Chunli,
He Zaimei,
Wang Yi,
Xu Lili,
Chen Guangdeng,
Zhu Wei,
Zhou Yonghong, Kang Houyang
International Journal of Molecular Sciences. 2023 24(2). p.1609
Biosaline agriculture for forage and livestock production
Masters David G.,
Benes Sharon E., Norman Hayley C.
Agriculture, Ecosystems & Environment. 2007 119(3-4). p.234
Stomatal conductance modulates maize yield through water use and yield components under salinity stress
Liao Qi,
Ding Risheng,
Du Taisheng,
Kang Shaozhong,
Tong Ling,
Gu Shujie,
Gao Shaoyu, Gao Jia
Agricultural Water Management. 2024 294 p.108717
Root Engineering (2014)
Constitutive overexpression of soybean plasma membrane intrinsic protein GmPIP1;6 confers salt tolerance
Zhou Lian,
Wang Chuang,
Liu Ruifang,
Han Qiang,
Vandeleur Rebecca K,
Du Juan,
Tyerman Steven, Shou Huixia
BMC Plant Biology. 2014 14(1).
Wheat Production in Changing Environments (2019)
Salt Stress in Plants (2013)
K+ retention in leaf mesophyll, an overlooked component of salinity tolerance mechanism: A case study for barley
Wu Honghong,
Zhu Min,
Shabala Lana,
Zhou Meixue, Shabala Sergey
Journal of Integrative Plant Biology. 2015 57(2). p.171
Current developments in arbuscular mycorrhizal fungi research and its role in salinity stress alleviation: a biotechnological perspective
Kumar Ashwani,
Dames Joanna F.,
Gupta Aditi,
Sharma Satyawati,
Gilbert Jack A., Ahmad Parvaiz
Critical Reviews in Biotechnology. 2015 35(4). p.461
Photosynthetic responses of a wheat (Asakaze)-barley (Manas) 7H addition line to salt stress
Szopkó D.,
Darkó É.,
Molnár I.,
Kruppa K.,
Háló B.,
Vojtkó A.,
Molnár-Láng M., Dulai S.
Photosynthetica. 2017 55(2). p.317
Metabolomics: Creating new potentials for unraveling the mechanisms in response to salt and drought stress and for the biotechnological improvement of xero-halophytes
Ruan Cheng-Jiang, Teixeira da Silva Jaime A.
Critical Reviews in Biotechnology. 2011 31(2). p.153
Annual Plant Reviews online (2019)
Responses ofJatropha curcasto Salt and Drought Stresses
Niu Genhua,
Rodriguez Denise,
Mendoza Mike,
Jifon John, Ganjegunte Girisha
International Journal of Agronomy. 2012 2012 p.1
Salts and nutrients present in regenerated waters induce changes in water relations, antioxidative metabolism, ion accumulation and restricted ion uptake in Myrtus communis L. plants
Acosta-Motos José R.,
Álvarez Sara,
Barba-Espín Gregorio,
Hernández José A., Sánchez-Blanco María J.
Plant Physiology and Biochemistry. 2014 85 p.41
Approaches to increasing the salt tolerance of wheat and other cereals
Munns Rana,
James Richard A., Läuchli André
Journal of Experimental Botany. 2006 57(5). p.1025
Use of IR thermography in screening wheat (Triticum aestivumL.) cultivars for salt tolerance
Esmaeili Alireza,
Poustini Kazem,
Ahmadi Hojat, Abbasi Alireza
Archives of Agronomy and Soil Science. 2017 63(2). p.161
Genes and salt tolerance: bringing them together
Munns Rana
New Phytologist. 2005 167(3). p.645
Effects of salt stress on seed germination and respiratory metabolism in different Flueggea suffruticosa genotypes
Xu Ningwei,
Lu Bin,
Wang Yang,
Yu Xiaoyue,
Yao Nan,
Lin Qijuan,
Xu Xingyou, Lu Bingshe
PeerJ. 2023 11 p.e15668
Linking salinity stress tolerance with tissue-specific Na+ sequestration in wheat roots
Wu Honghong,
Shabala Lana,
Liu Xiaohui,
Azzarello Elisa,
Zhou Meixue,
Pandolfi Camilla,
Chen Zhong-Hua,
Bose Jayakumar,
Mancuso Stefano, Shabala Sergey
Frontiers in Plant Science. 2015 6
Making wheat salt tolerant: What is missing?
Kotula Lukasz,
Zahra Noreen,
Farooq Muhammad,
Shabala Sergey, Siddique Kadambot H.M.
The Crop Journal. 2024
Répercussion de la polyploïdie artificielle sur la tolérance au stress salin chezTrigonella foenum-graecumL en Tunisie
Marzougui Nidhal,
Boubaya Anissa,
Guasmi Ferdaous,
Elfalleh Walid,
Touil Leila,
Ferchichi Ali, Beji Mohamed
Acta Botanica Gallica. 2010 157(2). p.295
LOS2 gene plays a potential role in barley (Hordeum vulgare L.) salinity tolerance as a hub gene
Shamloo-Dashtpagerdi Roohollah,
Lindlöf Angelica,
Niazi Ali, Pirasteh-Anosheh Hadi
Molecular Breeding. 2019 39(8).
Salt sensitivity of the vegetative and reproductive stages in chickpea (Cicer arietinum L.): Podding is a particularly sensitive stage
Samineni Srinivasan,
Siddique Kadambot H.M.,
Gaur Pooran M., Colmer Timothy David
Environmental and Experimental Botany. 2011 71(2). p.260
Growth and ion accumulation responses of four grass species to salinity
Riedell Walter E.
Journal of Plant Nutrition. 2016 39(14). p.2115
Osmotic Stress or Ionic Composition: Which Affects the Early Growth of Crop Species More?
Ludwiczak Agnieszka,
Osiak Monika,
Cárdenas-Pérez Stefany,
Lubińska-Mielińska Sandra, Piernik Agnieszka
Agronomy. 2021 11(3). p.435
Comparison of individual and combined effects of salinity and deficit irrigation on physiological, nutritional and ornamental aspects of tolerance in Callistemon laevis plants
Álvarez Sara, Sánchez-Blanco M. Jesús
Journal of Plant Physiology. 2015 185 p.65
Genetic sources for the development of salt tolerance in crops
Isayenkov Stanislav V.
Plant Growth Regulation. 2019 89(1). p.1
Molecular variability and salinity effects on growth characters and antioxidant enzymes activity in Egyptian barley genotypes
Mansour M., Aboulila Aziza A.
Physiological and Molecular Plant Pathology. 2021 116 p.101739
Shoot sodium exclusion in salt stressed barley (Hordeum vulgare L.) is determined by allele specific increased expression of HKT1;5
van Bezouw Roel F.H.M.,
Janssen Elly M.,
Ashrafuzzaman Md,
Ghahramanzadeh Robab,
Kilian Benjamin,
Graner Andreas,
Visser Richard G.F., van der Linden C. Gerard
Journal of Plant Physiology. 2019 241 p.153029
Plant Breeding Reviews (2010)
Ion concentration and energy response of two wheat cultivars to salt stress
Poustini Kazem,
Esmaeili Alireza,
Abbasi Alireza, Sadeghpour Amir
Journal of Plant Nutrition. 2020 43(10). p.1447
Salinity dynamics and the potential for improvement of waterlogged and saline land in a Mediterranean climate using permanent raised beds
Bakker D.M.,
Hamilton G.J.,
Hetherington R., Spann C.
Soil and Tillage Research. 2010 110(1). p.8
Toward an Integrated Root Ideotype for Irrigated Systems
Schmidt Jennifer E., Gaudin Amélie C.M.
Trends in Plant Science. 2017 22(5). p.433
Innovative Saline Agriculture (2016)
The ability to regulate voltage-gated K+-permeable channels in the mature root epidermis is essential for waterlogging tolerance in barley
Gill Muhammad Bilal,
Zeng Fanrong,
Shabala Lana,
Böhm Jennifer,
Zhang Guoping,
Zhou Meixue, Shabala Sergey
Journal of Experimental Botany. 2018 69(3). p.667
Changes in the plant proteome resulting from salt stress: Toward the creation of salt-tolerant crops?
Sobhanian Hamid,
Aghaei Keyvan, Komatsu Setsuko
Journal of Proteomics. 2011 74(8). p.1323
Growth response, carbohydrate and ion accumulation of diverse perennial ryegrass accessions to increasing salinity
Tang Jinchi,
Camberato James J.,
Yu Xiaoqing,
Luo Na,
Bian Shaomin, Jiang Yiwei
Scientia Horticulturae. 2013 154 p.73
The response of barley to salinity stress differs between hydroponic and soil systems
Tavakkoli Ehsan,
Rengasamy Pichu, McDonald Glenn K.
Functional Plant Biology. 2010 37(7). p.621
Growing floricultural crops with brackish water
Cassaniti C.,
Romano D.,
Hop M.E.C.M., Flowers T.J.
Environmental and Experimental Botany. 2013 92 p.165
Sustainable Energy-Water-Environment Nexus in Deserts (2022)
Growth, physiological, anatomical and nutritional responses of two phenotypically distinct passion fruit species (Passiflora L.) and their hybrid under saline conditions
Lima Lucas Kennedy da Silva,
Jesus Onildo Nunes de,
Soares Taliane Leila,
Santos Idalia Souza dos,
Oliveira Eder Jorge de, Coelho Filho Maurício Antonio
Scientia Horticulturae. 2020 263 p.109037
Tolerance of Wheat to Soil Sodicity Can Be Better Detected through an Incremental Crop Tolerance Approach and Ascertained through Multiple Sowing Times
Dowla Mirza A. N. N. U.,
Sharma Darshan L.,
Reeves Karyn, Smith Rosemary
Agronomy. 2021 11(8). p.1571
Olive cuttings survival influences with saline water irrigation
Arshad Ullah Muhammad,
Sana Aamir Syeda ,
Yasir Muhammad , Ali Summaira
Horticulture International Journal. 2018 2(6).
Over‐expression of an Na+‐ and K+‐permeable HKT transporter in barley improves salt tolerance
Mian Afaq,
Oomen Ronald J.F.J.,
Isayenkov Stanislav,
Sentenac Hervé,
Maathuis Frans J.M., Véry Anne‐Aliénor
The Plant Journal. 2011 68(3). p.468
The evolution of halophytes, glycophytes and crops, and its implications for food security under saline conditions
Cheeseman John M.
New Phytologist. 2015 206(2). p.557
Chloroplast function and ion regulation in plants growing on saline soils: lessons from halophytes
Bose Jayakumar,
Munns Rana,
Shabala Sergey,
Gilliham Matthew,
Pogson Barry, Tyerman Stephen D
Journal of Experimental Botany. 2017 68(12). p.3129
Abscisic acid has contrasting effects on salt excretion and polyamine concentrations of an inland and a coastal population of the Mediterranean xero-halophyte species Atriplex halimus
Ben Hassine A.,
Ghanem M. E.,
Bouzid S., Lutts S.
Annals of Botany. 2009 104(5). p.925
Effects of Soil Salinity on Growth, Ion Relations, and Compatible Solute Accumulation of Two Sumac Species:Rhus glabraandRhus trilobata
Liu Zhengxiang,
Zhang Huaxin,
Yang Xiuyan, Wei Hairong
Communications in Soil Science and Plant Analysis. 2013 44(21). p.3187
Effects of different improvement measures on physicochemical properties of saline-alkaline soil and ryegrass growth and yield in Dingbian
Wang Q L,
Pang Z, Zhu D W
IOP Conference Series: Earth and Environmental Science. 2018 185 p.012020
Will carbon isotope discrimination be useful as a tool for analysing the functional response of barley plants to salinity under the future atmospheric CO2 conditions?
Pérez-López Usue,
Mena-Petite Amaia, Muñoz-Rueda Alberto
Plant Science. 2014 226 p.71
Global plant-responding mechanisms to salt stress: physiological and molecular levels and implications in biotechnology
Tang Xiaoli,
Mu Xingmin,
Shao Hongbo,
Wang Hongyan, Brestic Marian
Critical Reviews in Biotechnology. 2015 35(4). p.425
Effectiveness of bacterial inoculation in alleviation of salinity on water status, mineral content, gas exchange and photosynthetic parameters of Viburnum tinus L. plants
Gómez-Bellot María José,
Ortuño María Fernanda,
Nortes Pedro Antonio,
Bernavé Antonio,
Fernández Félix, Sánchez-Blanco María Jesús
Scientia Horticulturae. 2018 237 p.303
Mapping of HKT1;5 Gene in Barley Using GWAS Approach and Its Implication in Salt Tolerance Mechanism
Hazzouri Khaled M.,
Khraiwesh Basel,
Amiri Khaled M. A.,
Pauli Duke,
Blake Tom,
Shahid Mohammad,
Mullath Sangeeta K.,
Nelson David,
Mansour Alain L.,
Salehi-Ashtiani Kourosh,
Purugganan Michael, Masmoudi Khaled
Frontiers in Plant Science. 2018 9
Salinity and Water Stress (2009)
Evaluation of Salt Tolerance and Its Relationship with Carbon Isotope Discrimination and Physiological Parameters of Barley Genotypes
Mustafa Ayesha,
Mahmood Khalid, Ishaque Wajid
Communications in Soil Science and Plant Analysis. 2019 50(5). p.594
Micro-Water Harvesting and Soil Amendment Increase Grain Yields of Barley on a Heavy-Textured Alkaline Sodic Soil in a Rainfed Mediterranean Environment
Barrett-Lennard Edward G.,
Munir Rushna,
Mulvany Dana,
Williamson Laine,
Riethmuller Glen,
Wesley Callum, Hall David
Agronomy. 2021 11(4). p.713
Oxygen deficiency and salinity affect cell‐specific ion concentrations in adventitious roots of barley (Hordeum vulgare)
Kotula Lukasz,
Clode Peta L.,
Striker Gustavo G.,
Pedersen Ole,
Läuchli André,
Shabala Sergey, Colmer Timothy D.
New Phytologist. 2015 208(4). p.1114
Physiological responses of almond trees under regulated deficit irrigation using saline and desalinated reclaimed water
Vivaldi Gaetano Alessandro,
Camposeo Salvatore,
Romero-Trigueros Cristina,
Pedrero Francisco,
Caponio Gabriele,
Lopriore Giuseppe, Álvarez Sara
Agricultural Water Management. 2021 258 p.107172
Transcriptomic analysis of Aegilops tauschii during long-term salinity stress
Mansouri Mehdi,
Naghavi Mohammad Reza,
Alizadeh Hoshang,
Mohammadi-Nejad Ghasem,
Mousavi Seyed Ahmad,
Salekdeh Ghasem Hosseini, Tada Yuichi
Functional & Integrative Genomics. 2019 19(1). p.13
Climate Change and Food Security with Emphasis on Wheat (2020)
Tolerance of Hordeum marinum accessions to O2 deficiency, salinity and these stresses combined
Malik Al Imran,
English Jeremy Parker, Colmer Timothy David
Annals of Botany. 2009 103(2). p.237
Variation in shoot tolerance mechanisms not related to ion toxicity in barley
Tilbrook Joanne,
Schilling Rhiannon K.,
Berger Bettina,
Garcia Alexandre F.,
Trittermann Christine,
Coventry Stewart,
Rabie Huwaida,
Brien Chris,
Nguyen Martin,
Tester Mark, Roy Stuart J.
Functional Plant Biology. 2017 44(12). p.1194
Salt tolerance, date of flowering and rain affect the productivity of wheat and barley on rainfed saline land
Setter Timothy L.,
Waters Irene,
Stefanova Katia,
Munns Rana, Barrett-Lennard Edward G
Field Crops Research. 2016 194 p.31
Proteomic analysis of salt-responsive proteins in the leaves of two contrasting Tunisian barley landraces
Jardak R.,
Riahi J.,
Dallagi W.,
Planchon S.,
Boubakri H.,
Bouamama B.,
Bouagila A.,
Nefissi R.,
Mejri S.,
Renaut J.,
Mock H. P., Ghorbel A.
Plant Growth Regulation. 2021 95(1). p.65
Halophytes for Food Security in Dry Lands (2016)
Comprehensive screening and selection of okra (Abelmoschus esculentus) germplasm for salinity tolerance at the seedling stage and during plant ontogeny
Haq Ikram-ul-,
Khan Asif Ali,
Khan Iqrar Ahmad, Azmat Muhammad Abubakkar
Journal of Zhejiang University SCIENCE B. 2012 13(7). p.533
Effects of Fly Ash and Organic Fertilizers on Water Use Efficiency
Wang Qilong,
Pang Zhe, Wei Yang
IOP Conference Series: Materials Science and Engineering. 2018 394 p.032072
The evolutionary origin of CIPK16: A gene involved in enhanced salt tolerance
Amarasinghe Shanika,
Watson-Haigh Nathan S.,
Gilliham Matthew,
Roy Stuart, Baumann Ute
Molecular Phylogenetics and Evolution. 2016 100 p.135
Genotypic differences in root and shoot growth of barley (Hordeum vulgare L.) grown under different salinity levels
Bchini H.,
Naceur M. Ben,
Sayar R.,
Khemira H., Kaab-Bettaeïb L. Ben
Hereditas. 2010 147(3). p.114
Physiological and comparative proteomic analyses of saline-alkali NaHCO3-responses in leaves of halophyte Puccinellia tenuiflora
Yin Zepeng,
Zhang Heng,
Zhao Qi,
Yoo Mi-Jeong,
Zhu Ning,
Yu Jianlan,
Yu Juanjuan,
Guo Siyi,
Miao Yuchen,
Chen Sixue,
Qin Zhi, Dai Shaojun
Plant and Soil. 2019 437(1-2). p.137
Effect of salinity and water stress during the reproductive stage on growth, ion concentrations, Δ13C, and δ15N of durum wheat and related amphiploids
Yousfi Salima,
Serret Maria Dolores,
Voltas Jordi, Araus José Luis
Journal of Experimental Botany. 2010 61(13). p.3529
Expression and functional analysis of NUCLEAR FACTOR-Y, subunit B genes in barley
Liang Mingxiang,
Hole David,
Wu Jixiang,
Blake Tom, Wu Yajun
Planta. 2012 235(4). p.779
Mechanistic Insights of the Interaction of Plant Growth-Promoting Rhizobacteria (PGPR) With Plant Roots Toward Enhancing Plant Productivity by Alleviating Salinity Stress
Bhat Mujtaba Aamir,
Kumar Vijay,
Bhat Mudasir Ahmad,
Wani Ishfaq Ahmad,
Dar Farhana Latief,
Farooq Iqra,
Bhatti Farha,
Koser Rubina,
Rahman Safikur, Jan Arif Tasleem
Frontiers in Microbiology. 2020 11
Assessing the role of root plasma membrane and tonoplast Na+/H+ exchangers in salinity tolerance in wheat: in planta quantification methods
CUIN TRACEY A.,
BOSE JAYAKUMAR,
STEFANO GIOVANNI,
JHA DEEPA,
TESTER MARK,
MANCUSO STEFANO, SHABALA SERGEY
Plant, Cell & Environment. 2011 34(6). p.947
Detection of QTLs for seedling characteristics in barley (Hordeum vulgare L.) grown under hydroponic culture condition
Wang Qifei,
Sun Genlou,
Ren Xifeng,
Wang Jibin,
Du Binbin,
Li Chengdao, Sun Dongfa
BMC Genetics. 2017 18(1).
Improving Crop Resistance to Abiotic Stress (2012)
Sodium exclusion QTL associated with improved seedling growth in bread wheat under salinity stress
Genc Y.,
Oldach K.,
Verbyla A. P.,
Lott G.,
Hassan M.,
Tester M.,
Wallwork H., McDonald G. K.
Theoretical and Applied Genetics. 2010 121(5). p.877
Mechanisms of Salinity Tolerance
Munns Rana, Tester Mark
Annual Review of Plant Biology. 2008 59(1). p.651
New Insight into Plant Saline-Alkali Tolerance Mechanisms and Application to Breeding
Cao Yibo,
Song Huifang, Zhang Lingyun
International Journal of Molecular Sciences. 2022 23(24). p.16048
Encyclopedia of Biocolloid and Biointerface Science 2V Set (2016)
Mitigation of Salinity Stress in Plants by Arbuscular Mycorrhizal Symbiosis: Current Understanding and New Challenges
Evelin Heikham,
Devi Thokchom Sarda,
Gupta Samta, Kapoor Rupam
Frontiers in Plant Science. 2019 10
Development of wheat–Lophopyrum elongatum recombinant lines for enhanced sodium ‘exclusion’ during salinity stress
Mullan Daniel J.,
Mirzaghaderi Ghader,
Walker Esther,
Colmer Timothy D., Francki Michael G.
Theoretical and Applied Genetics. 2009 119(7). p.1313
Plant Responses to Salt Stress: Adaptive Mechanisms
Acosta-Motos Jose,
Ortuño Maria,
Bernal-Vicente Agustina,
Diaz-Vivancos Pedro,
Sanchez-Blanco Maria, Hernandez Jose
Agronomy. 2017 7(1). p.18
Identifying the genetic control of salinity tolerance in the bread wheat landrace Mocho de Espiga Branca
Borjigin Chana,
Schilling Rhiannon K.,
Jewell Nathaniel,
Brien Chris,
Sanchez-Ferrero Juan Carlos,
Eckermann Paul J.,
Watson-Haigh Nathan S.,
Berger Bettina,
Pearson Allison S.,
Roy Stuart J., Shabala Sergey
Functional Plant Biology. 2021 48(11). p.1148
Effect of Salt Treatment on the Growth, Water Status, and Gas Exchange of Pyrus pyraster L. (Burgsd.) and Tilia cordata Mill. Seedlings
Paganová Viera,
Hus Marek, Lichtnerová Helena
Horticulturae. 2022 8(6). p.519
Salinity Responses and Tolerance in Plants, Volume 1 (2018)
Marine OMICS (2016)
Silica modified biochar mitigates the adverse effects of salt and drought stress and improves safflower (Carthamus tinctorius L.) growth
Ahmad Munir,
Rafique Muhammad I.,
Akanji Mutair A.,
Al-Wabel Mohammad I.,
Al-Swadi Hamed A., Al-Farraj Abdullah S. F.
Journal of Soils and Sediments. 2023 23(1). p.172
New Horizons in Wheat and Barley Research (2022)
Salinity tolerance in halophytes*
Flowers Timothy J., Colmer Timothy D.
New Phytologist. 2008 179(4). p.945
Salt tolerance of halophytes, research questions reviewed in the perspective of saline agriculture
Rozema Jelte, Schat Henk
Environmental and Experimental Botany. 2013 92 p.83
Application of green remediation on soil salinity treatment: A review on halophytoremediation
Nouri Hamideh,
Chavoshi Borujeni Sattar,
Nirola Ramkrishna,
Hassanli Ali,
Beecham Simon,
Alaghmand Sina,
Saint Chris, Mulcahy Dennis
Process Safety and Environmental Protection. 2017 107 p.94
Determining tolerant tomato genotypes to salt stress according to physiological and morphological manner
Eynizadeh Peyman,
Ravari Seid Zabihallah,
Moradi Mohammad,
Dehghani Ali,
Dehghani Hamid, Ganie Showkat
AoB PLANTS. 2023 15(6).
Shoot δ15N gives a better indication than ion concentration or Δ13C of genotypic differences in the response of durum wheat to salinity
Yousfi Salima,
Serret Maria Dolores, Araus José Luis
Functional Plant Biology. 2009 36(2). p.144
Association Mapping of Some Phenological Traits in Barley under Salt Stress
zare kohan mahdiyeh,
Babaeian Jelodar Nadali,
aghnoum reza,
tabatabaee seyed ali, Kazemi Tabar seyed kamal
Journal of Crop Breeding. 2018 10(26). p.12
Plant salt tolerance and Na+ sensing and transport
Wu Honghong
The Crop Journal. 2018 6(3). p.215
Enhancing Salt Stress Tolerance of Different Pepper (Capsicum annuum L.) Inbred Line Genotypes by Rootstock with Vigorous Root System
Abidalrazzaq Musluh Al Rubaye Omar,
Yetisir Halit,
Ulas Firdes, Ulas Abdullah
Gesunde Pflanzen. 2021 73(3). p.375
Meta-analysis of major QTL for abiotic stress tolerance in barley and implications for barley breeding
Zhang Xuechen,
Shabala Sergey,
Koutoulis Anthony,
Shabala Lana, Zhou Meixue
Planta. 2017 245(2). p.283
Salt stress response in rice: genetics, molecular biology, and comparative genomics
Sahi Chandan,
Singh Amanjot,
Kumar Krishan,
Blumwald Eduardo, Grover Anil
Functional & Integrative Genomics. 2006 6(4). p.263
Living with salinity
Byrt Caitlin S., Munns Rana
New Phytologist. 2008 179(4). p.903
Advances in Molecular Breeding Toward Drought and Salt Tolerant Crops (2007)
Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions
Bruun Esben W.,
Müller‐Stöver Dorette,
Pedersen Betina Nørgaard,
Hansen Line Vinther, Petersen Carsten Tilbæk
Soil Use and Management. 2022 38(2). p.1280
Development of Perennial Wheat Through Hybridization Between Wheat and Wheatgrasses: A Review
Cui Lei,
Ren Yongkang,
Murray Timothy D.,
Yan Wenze,
Guo Qing,
Niu Yuqi,
Sun Yu, Li Hongjie
Engineering. 2018 4(4). p.507
Plant Responses to Drought and Salinity Stress - Developments in a Post-Genomic Era (2011)
Estimation of genetic components of variation for salt tolerance in chickpea using the generation mean analysis
Samineni Srinivasan,
Gaur Pooran M.,
Colmer Timothy D.,
Krishnamurthy L.,
Vadez Vincent, Siddique Kadambot H. M.
Euphytica. 2011 182(1).
Arpada Tuz Stresine Karşı Zingeronun Koruyucu Etkisi
BULUT Hüseyin
Iğdır Üniversitesi Fen Bilimleri Enstitüsü Dergisi. 2020 10(4). p.2932