Articles citing this paper
A locus for sodium exclusion (Nax1), a trait for salt tolerance, mapped in durum wheat
Megan P. Lindsay A , Evans S. Lagudah A , Ray A. Hare B and Rana Munns A C
+ Author Affiliations
- Author Affiliations
A CSIRO Plant Industry, GPO 1600, Canberra, ACT 2601, Australia.
B NSW Agriculture, RMB 944, Tamworth, NSW 2340, Australia.
C Corresponding author. Email: rana.munns@csiro.au
Functional Plant Biology 31(11) 1105-1114 https://doi.org/10.1071/FP04111
Submitted: 24 June 2004 Accepted: 17 September 2004 Published: 18 November 2004
183 articles found in Crossref database.
Sodium in plants: perception, signalling, and regulation of sodium fluxes
Maathuis Frans J. M.
Journal of Experimental Botany. 2014 65(3). p.849
Improving salinity tolerance in crop plants: a biotechnological view
Arzani Ahmad
In Vitro Cellular & Developmental Biology - Plant. 2008 44(5). p.373
Regulation of Na+ fluxes in plants
Maathuis Frans J. M.,
Ahmad Izhar, Patishtan Juan
Frontiers in Plant Science. 2014 5
Improving Crop Resistance to Abiotic Stress (2012)
Mapping QTLs conferring salt tolerance and micronutrient concentrations at seedling stage in wheat
Hussain Babar,
Lucas Stuart James,
Ozturk Levent, Budak Hikmet
Scientific Reports. 2017 7(1).
Genotype-Dependent Differential Responses of Three Forage Species to Calcium Supplement in Saline Conditions
Sima Nayer Azam Khosh Kholgh,
Askari Hossein,
Mirzaei Hossein H., Pessarakli Mohammad
Journal of Plant Nutrition. 2009 32(4). p.579
Nitrate reductase in durum wheat seedlings as affected by nitrate nutrition and salinity
Carillo Petronia,
Mastrolonardo Gabriella,
Nacca Francesco, Fuggi Amodio
Functional Plant Biology. 2005 32(3). p.209
Salinity tolerance and sodium exclusion in genus Triticum
Shavrukov Yuri,
Langridge Peter, Tester Mark
Breeding Science. 2009 59(5). p.671
Response of durum wheat (Triticum durum Desf.) growth to salt and drought stresses
SAYAR Rhouma,
BCHINI Houcine,
MOSBAHI Mohamed, KHEMIRA Habib
Czech Journal of Genetics and Plant Breeding. 2010 46(2). p.54
A novel protein kinase involved in Na+ exclusion revealed from positional cloning
ROY S. J.,
HUANG W.,
WANG X. J.,
EVRARD A.,
SCHMÖCKEL S. M.,
ZAFAR Z. U., TESTER M.
Plant, Cell & Environment. 2013 36(3). p.553
Physiological and molecular mechanisms of plant salt tolerance
Zhang Jin-Lin, Shi Huazhong
Photosynthesis Research. 2013 115(1). p.1
Quantitative trait loci associated with salinity tolerance in field grown bread wheat
Díaz De León José Luis,
Escoppinichi Ricardo,
Geraldo Nadia,
Castellanos Thelma,
Mujeeb-Kazi Abdul, Röder Marion S.
Euphytica. 2011 181(3). p.371
Exogenously applied paclobutrazol modulates growth in salt-stressed wheat plants
Hajihashemi Shokoofeh,
Kiarostami Khadijeh,
Saboora Azra, Enteshari Shokoofeh
Plant Growth Regulation. 2007 53(2). p.117
Haplotype analysis of QTLs attributed to salinity tolerance in wheat (Triticum aestivum)
Sardouie-Nasab Somaye,
Mohammadi-Nejad Ghasem, Zebarjadi Alireza
Molecular Biology Reports. 2013 40(7). p.4661
Plant Solute Transport (2007)
Physiological responses among Brassica species under salinity stress show strong correlation with transcript abundance for SOS pathway-related genes
Kumar Gautam,
Purty Ram Singh,
Sharma Mahaveer P.,
Singla-Pareek Sneh L., Pareek Ashwani
Journal of Plant Physiology. 2009 166(5). p.507
Quantitative Trait Locus Mapping of Salt Tolerance and Identification of Salt-Tolerant Genes in Brassica napus L
Lang Lina,
Xu Aixia,
Ding Juan,
Zhang Yan,
Zhao Na,
Tian Zhengshu,
Liu Yaping,
Wang Yang,
Liu Xia,
Liang Fenghao,
Zhang Bingbing,
Qin Mengfan,
Dalelhan Jazira, Huang Zhen
Frontiers in Plant Science. 2017 8
Regulation of potassium transport in plants under hostile conditions: implications for abiotic and biotic stress tolerance
Shabala Sergey, Pottosin Igor
Physiologia Plantarum. 2014 151(3). p.257
Shaping polyploid wheat for success: Origins, domestication, and the genetic improvement of agronomic traits
Liu Jie,
Yao Yingyin,
Xin Mingming,
Peng Huiru,
Ni Zhongfu, Sun Qixin
Journal of Integrative Plant Biology. 2022 64(2). p.536
Environmental Adaptations and Stress Tolerance of Plants in the Era of Climate Change (2012)
Plant Life Under Changing Environment (2020)
Abiotic Stresses in Wheat (2023)
Physiological and Biochemical Parameters of Salinity Resistance of Three Durum Wheat Genotypes
Pastuszak Jakub,
Dziurka Michał,
Hornyák Marta,
Szczerba Anna,
Kopeć Przemysław, Płażek Agnieszka
International Journal of Molecular Sciences. 2022 23(15). p.8397
Advances in Molecular Breeding Toward Drought and Salt Tolerant Crops (2007)
Genetic Diversity of Salt Tolerance in Miscanthus
Chen Chang-Lin,
van der Schoot Hanneke,
Dehghan Shiva,
Alvim Kamei Claire L.,
Schwarz Kai-Uwe,
Meyer Heike,
Visser Richard G. F., van der Linden C. Gerard
Frontiers in Plant Science. 2017 8
Physiological traits and cereal germplasm for sustainable agricultural systems
Richards R. A.,
Watt M., Rebetzke G. J.
Euphytica. 2007 154(3). p.409
Environment, Climate, Plant and Vegetation Growth (2020)
Abiotic Stresses in Wheat (2023)
Genetics of Na+ exclusion and salinity tolerance in Afghani durum wheat landraces
Shamaya Nawar Jalal,
Shavrukov Yuri,
Langridge Peter,
Roy Stuart John, Tester Mark
BMC Plant Biology. 2017 17(1).
Genetic behaviour of physiological traits conferring cytosolic K+/ Na+ homeostasis in wheat
Cuin T. A.,
Zhou M.,
Parsons D., Shabala S.
Plant Biology. 2012 14(3). p.438
Use of genetic tolerance in grain crops to overcome subsoil constraints in alkaline cropping soils
Nuttall J. G.,
Hobson K. B.,
Materne M.,
Moody D. B.,
Munns R., Armstrong R. D.
Soil Research. 2010 48(2). p.188
Detection of QTLs associated with salinity tolerance in durum wheat based on association analysis
Turki Nejla,
Shehzad Tariq,
Harrabi Moncef, Okuno Kazutoshi
Euphytica. 2015 201(1). p.29
Nitrogen Source Differently Regulates Barley (Hordeum vulgare) Response to NaCl Stress At Seed Germination and Early Seedling Development Stages
Ounissi A.,
Manai J.,
Rabhi M.,
Gouia H., Debouba M.
Cereal Research Communications. 2015 43(2). p.225
Genome-wide association studies of seedling quantitative trait loci against salt tolerance in wheat
Khan Rao Waqar Ahmad,
Khan Rao Sohail Ahmad,
Awan Faisal Saeed,
Akrem Ahmed,
Iftikhar Arslan,
Anwar Farhana Naureen,
Alzahrani Hind A. S.,
Alsamadany Hameed, Iqbal Rana Khalid
Frontiers in Genetics. 2022 13
Abiotic Stresses in Wheat (2023)
Mapping QTLs with epistatic effects and QTL × treatment interactions for salt tolerance at seedling stage of wheat
Xu Yun-Feng,
An Diao-Guo,
Liu Dong-Cheng,
Zhang Ai-Min,
Xu Hong-Xing, Li Bin
Euphytica. 2012 186(1). p.233
Multi-locus genome-wide association studies reveal novel genomic regions associated with vegetative stage salt tolerance in bread wheat (Triticum aestivum L.)
Chaurasia Shiksha,
Singh Amit Kumar,
Songachan L.S.,
Sharma Axma Dutt,
Bhardwaj Rakesh, Singh Kuldeep
Genomics. 2020 112(6). p.4608
A Sodium Transporter (HKT7) Is a Candidate forNax1, a Gene for Salt Tolerance in Durum Wheat
Huang Shaobai,
Spielmeyer Wolfgang,
Lagudah Evans S.,
James Richard A.,
Platten J. Damien,
Dennis Elizabeth S., Munns Rana
Plant Physiology. 2006 142(4). p.1718
Control of Sodium Transport in Durum Wheat
Davenport Romola,
James Richard A.,
Zakrisson-Plogander Anna,
Tester Mark, Munns Rana
Plant Physiology. 2005 137(3). p.807
The Cucumber Genome (2022)
Mechanisms of sodium uptake by roots of higher plants
Zhang Jin-Lin,
Flowers Timothy J., Wang Suo-Min
Plant and Soil. 2010 326(1-2). p.45
Genetic analysis of abiotic stress tolerance in crops
Roy Stuart J,
Tucker Elise J, Tester Mark
Current Opinion in Plant Biology. 2011 14(3). p.232
Salinity tolerance of Aegilops cylindrica genotypes collected from hyper-saline shores of Uremia Salt Lake using physiological traits and SSR markers
Arabbeigi Mahbube,
Arzani Ahmad,
Majidi Mohamad Mahdi,
Kiani Razie,
Sayed Tabatabaei Badraldin Ebrahim, Habibi Farshad
Acta Physiologiae Plantarum. 2014 36(8). p.2243
Introgression of genes from bread wheat enhances the aluminium tolerance of durum wheat
Han Chang,
Zhang Peng,
Ryan Peter R.,
Rathjen Tina M.,
Yan ZeHong, Delhaize Emmanuel
Theoretical and Applied Genetics. 2016 129(4). p.729
Multi-dimensional evaluation of response to salt stress in wheat
Dadshani Said,
Sharma Ram C.,
Baum Michael,
Ogbonnaya Francis Chuks,
Léon Jens,
Ballvora Agim, Zhang Aimin
PLOS ONE. 2019 14(9). p.e0222659
Bioinformatics in Agriculture (2022)
Antioxidant Activity in Salt‐Stressed Barley Leaves: Evaluating Time‐ and Age‐Dependence and Suitability for the Use as a Biochemical Marker in Breeding Programs
Fan Y.,
Zhu M.,
Shabala S.,
Li C. D.,
Johnson P., Zhou M. X.
Journal of Agronomy and Crop Science. 2014 200(4). p.261
Impact of Nax genes for Na+ exclusion from leaves on bread wheat yield on saline soils
James Richard A.,
Khan Md. Mustafa,
Neogi Mrinmoy G.,
Zwart Alexander B.,
Munns Rana,
Kabir Md. Rezwan, Akhond Md. Abdullah Yousuf
Journal of Agronomy and Crop Science. 2023 209(4). p.459
(2021)
Functional characterization in Xenopus oocytes of Na+ transport systems from durum wheat reveals diversity among two HKT1;4 transporters
Ben Amar Siwar,
Brini Faiçal,
Sentenac Hervé,
Masmoudi Khaled, Véry Anne-Aliénor
Journal of Experimental Botany. 2014 65(1). p.213
SRAPs and EST-SSRs provide useful molecular diversity for targeting drought and salinity tolerance in Indian mustard
Saini Prince,
Kamboj Disha,
Yadav R. C., Yadav Neelam R.
Molecular Biology Reports. 2019 46(1). p.1213
Genetics of Salt Tolerance in Plants (2024)
QTL mapping of physiological traits associated with salt tolerance in Medicago truncatula Recombinant Inbred Lines
Arraouadi Soumaya,
Badri Mounawer,
Abdelly Chedly,
Huguet Thierry, Aouani Mohamed Elarbi
Genomics. 2012 99(2). p.118
Variability of durum wheat genotypes in terms of physio-biochemical traits against salinity stress
Soni Shobha,
Kumar Ashwani,
Sehrawat Nirmala,
Kumar Naresh,
Kaur Gurpreet,
Kumar Arvind, Mann Anita
Cereal Research Communications. 2021 49(1). p.45
Plant Abiotic Stress (2013)
Increasing salt tolerance in the tomato
Cuartero J.,
Bolarín M. C.,
Asíns M. J., Moreno V.
Journal of Experimental Botany. 2006 57(5). p.1045
Genomic Designing of Climate-Smart Cereal Crops (2020)
Mapping of Tolerant Salinity QTLs in the Progeny of Gaspard and Kharchia Cultivars in Bread Wheat
Abedi Jamileh,
Baghi Zadeh Amin, Mohammadinejad Ghasem
Journal of Crop Breeding. 2018 10(28). p.125
QTLs for seedling traits under salinity stress in hexaploid wheat
Ren Yongzhe,
Xu Yanhua,
Teng Wan,
Li Bin, Lin Tongbao
Ciência Rural. 2018 48(3).
Seawater stress applied at germination affects mitochondrial function in durum wheat (Triticum durum) early seedlings
Flagella Zina,
Trono Daniela,
Pompa Marianna,
Di Fonzo Natale, Pastore Donato
Functional Plant Biology. 2006 33(4). p.357
Identification of quantitative trait loci for ion homeostasis and salt tolerance in barley (Hordeum vulgare L.)
Nguyen Viet Long,
Ribot Simon A.,
Dolstra Oene,
Niks Rients E.,
Visser Richard G. F., van der Linden C. Gerard
Molecular Breeding. 2013 31(1). p.137
Genes and salt tolerance: bringing them together
Munns Rana
New Phytologist. 2005 167(3). p.645
(2009)
Estimation of salt tolerance in Andrographis paniculata accessions using multiple regression model
Talei Daryush,
Valdiani Alireza,
Yusop Mohd Khanif, Abdullah Mohd Puad
Euphytica. 2013 189(1). p.147
Change in salt tolerance of bread wheat as a result of the introgression of the genetic material of Aegilops speltoides and Triticum timopheevii
Yudina R. S.,
Leonova I. N.,
Salina E. A., Khlestkina E. K.
Russian Journal of Genetics: Applied Research. 2016 6(3). p.244
Advances in Wheat Breeding (2024)
(2019)
Genome-wide association study of yield and related traits in common wheat under salt-stress conditions
Hu Pan,
Zheng Qi,
Luo Qiaoling,
Teng Wan,
Li Hongwei,
Li Bin, Li Zhensheng
BMC Plant Biology. 2021 21(1).
Phenotyping and microsatellite marker analysis of HD 2851 (salt sensitive) × Kharchia 65 (salt tolerant) F2 population for salinity tolerance
Yadav Satender,
Yashveer Shikha,
Solanki Y. P. S., Singh Vikram
Indian Journal of Plant Physiology. 2018 23(1). p.57
Morphological and Genetic Diversity within Salt Tolerance Detection in Eighteen Wheat Genotypes
Al-Ashkar Ibrahim,
Alderfasi Ali,
Ben Romdhane Walid,
Seleiman Mahmoud F.,
El-Said Rania A., Al-Doss Abdullah
Plants. 2020 9(3). p.287
Using leaf sodium concentration for screening sodicity tolerance in cotton (Gossypium hirsutum L.)
Liu Shiming,
Constable Greg, Stiller Warwick
Field Crops Research. 2020 246 p.107678
Plant Stress Mitigators (2023)
Co-treatment effect of triadimefon and salt stress on antioxidant responses, NHX1 and LEA expression in two alfalfa cultivars (Medicago sativa L.) under in vitro culture
Arab Leila,
Ehsanpour Ali Akbar, Jwa Nam Soo
Journal of the Korean Society for Applied Biological Chemistry. 2013 56(4). p.409
Potential of tetraploid wheats in plant breeding: A review
Mohammadi Majid, Mohammadi Reza
Plant Science. 2024 346 p.112155
A conserved primary salt tolerance mechanism mediated by HKT transporters: a mechanism for sodium exclusion and maintenance of high K+/Na+ ratio in leaves during salinity stress
HAUSER FELIX, HORIE TOMOAKI
Plant, Cell & Environment. 2010 33(4). p.552
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
Phenotypic responses of the wild wheat relative Aegilops geniculata Roth and wheat (Triticum durum Desf.) to experimentally imposed salt stress
Mguis Khaled,
Ben Brahim Nadia,
Albouchi Ali,
Yakkoubi-Tej Mbarka,
Mahjoub Asma, Ouerghi Zeineb
Genetic Resources and Crop Evolution. 2008 55(5). p.665
Mapping and confirmation of loci for salt tolerance in a novel soybean germplasm, Fiskeby III
Do Tuyen D.,
Vuong Tri D.,
Dunn David,
Smothers Scotty,
Patil Gunvant,
Yungbluth Dennis C.,
Chen Pengyin,
Scaboo Andrew,
Xu Dong,
Carter Thomas E.,
Nguyen Henry T., Grover Shannon J.
Theoretical and Applied Genetics. 2018 131(3). p.513
Wide genetic diversity of salinity tolerance, sodium exclusion and growth in wild emmer wheat, Triticum dicoccoides
Shavrukov Yuri,
Langridge Peter,
Tester Mark, Nevo Eviatar
Breeding Science. 2010 60(4). p.426
Mechanism of high affinity potassium transporter (HKT) towards improved crop productivity in saline agricultural lands
Dave Ankita,
Agarwal Parinita, Agarwal Pradeep K.
3 Biotech. 2022 12(2).
New Horizons in Wheat and Barley Research (2022)
The key genomic regions harboring QTLs associated with salinity tolerance in bread wheat (Triticum aestivum L.): a comprehensive review
Chaurasia Shiksha, Kumar Arvind
Journal of Crop Science and Biotechnology. 2024 27(1). p.17
Genetic Enhancement of Crops for Tolerance to Abiotic Stress: Mechanisms and Approaches, Vol. I (2019)
Cereal Genomics II (2013)
Salinity and Water Stress (2009)
HKT transporter-mediated salinity resistance mechanisms in Arabidopsis and monocot crop plants
Horie Tomoaki,
Hauser Felix, Schroeder Julian I.
Trends in Plant Science. 2009 14(12). p.660
OsHKT1;4-mediated Na+ transport in stems contributes to Na+ exclusion from leaf blades of rice at the reproductive growth stage upon salt stress
Suzuki Kei,
Yamaji Naoki,
Costa Alex,
Okuma Eiji,
Kobayashi Natsuko I.,
Kashiwagi Tatsuhiko,
Katsuhara Maki,
Wang Cun,
Tanoi Keitaro,
Murata Yoshiyuki,
Schroeder Julian I.,
Ma Jian Feng, Horie Tomoaki
BMC Plant Biology. 2016 16(1).
Allelic variations and differential expressions detected at quantitative trait loci for salt stress tolerance in wheat
Oyiga Benedict C.,
Sharma Ram C.,
Baum Michael,
Ogbonnaya Francis C.,
Léon Jens, Ballvora Agim
Plant, Cell & Environment. 2018 41(5). p.919
Improving Wheat Salt Tolerance for Saline Agriculture
Li Zihan,
Zhong Fan,
Guo Jianrong,
Chen Zhuo,
Song Jie, Zhang Yi
Journal of Agricultural and Food Chemistry. 2022 70(48). p.14989
Sodium exclusion is a reliable trait for the improvement of salinity tolerance in bread wheat
Saddiq Muhammad Sohail,
Afzal Irfan,
Basra Shahzad M. A.,
Ali Zulfiqar, Ibrahim Amir M. H.
Archives of Agronomy and Soil Science. 2018 64(2). p.272
Abiotic Stress Responses in Plants (2012)
Genetics and Genomics of the Triticeae (2009)
Salinity and Water Stress (2009)
Potassium transport and plant salt tolerance
Shabala Sergey, Cuin Tracey A.
Physiologia Plantarum. 2008 133(4). p.651
Mitigation of salinity stress in wheat (Triticum aestivum L.) seedlings through physiological seed enhancements
Saddiq Muhammad Sohail,
Iqbal Shahid,
Afzal Irfan,
Ibrahim Amir M. H.,
Bakhtavar Muhammad A.,
Hafeez Muhammad B.,
Jahanzaib , Maqbool Muhammad Mudassar
Journal of Plant Nutrition. 2019 42(10). p.1192
Germination Stage Water Scarcity in Bread and Einkorn Wheat
ASLAN Didem,
ORDU Bülent,
GÖRE Mehmet Erhan,
AKIN Beyhan, Zencirci Nusret
Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi. 2018 p.1
Quantitative trait loci for salinity tolerance in barley (Hordeum vulgare L.)
Zhou Gaofeng,
Johnson Peter,
Ryan Peter R.,
Delhaize Emmanuel, Zhou Meixue
Molecular Breeding. 2012 29(2). p.427
Sodium Exclusion Affects Seed Yield and Physiological Traits of Wheat Genotypes Grown Under Salt Stress
Saddiq Muhammad Sohail,
Afzal Irfan,
Basra Shahzad M.A.,
Iqbal Shahid, Ashraf Muhammad
Journal of Soil Science and Plant Nutrition. 2020 20(3). p.1442
Durum and Bread Wheat Differ in Their Ability to Retain Potassium in Leaf Mesophyll: Implications for Salinity Stress Tolerance
Wu Honghong,
Shabala Lana,
Zhou Meixue, Shabala Sergey
Plant and Cell Physiology. 2014 55(10). p.1749
Integrating Agro-Morpho-Physiological Traits and SSR Markers for Detecting the Salt Tolerance of Advanced Spring Wheat Lines under Field Conditions
Junaid Muhammad Bilawal,
El-Hendawy Salah,
Al-Ashkar Ibrahim,
Al-Suhaibani Nasser, Alotaibi Majed
Agriculture. 2023 13(11). p.2135
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
Rediscovery of Genetic and Genomic Resources for Future Food Security (2020)
Genetic analysis of salt tolerance in a recombinant inbred population of wheat (Triticum aestivum L.)
Ma Liqing,
Zhou Erfeng,
Huo Naxing,
Zhou Ronghua,
Wang Guoying, Jia Jizeng
Euphytica. 2007 153(1-2). p.109
Cultivated einkorn wheat (Triticum monococcum L. subsp. monococcum): the long life of a founder crop of agriculture
Zaharieva Maria, Monneveux Philippe
Genetic Resources and Crop Evolution. 2014 61(3). p.677
Genetics and molecular mapping for salinity stress tolerance at seedling stage in lentil (Lens culinaris Medik)
Singh Dharmendra,
Singh Chandan Kumar,
Tomar Ram Sewak Singh,
Sharma Shristi,
Karwa Sourabh,
Pal Madan,
Singh Vijayata,
Sanwal Satish Kumar, Sharma PC
Crop Science. 2020 60(3). p.1254
Induced growth promotion and higher salt tolerance in the halophyte grass Puccinellia tenuiflora by beneficial rhizobacteria
Niu Shu-Qi,
Li Hui-Ru,
Paré Paul W.,
Aziz Mina,
Wang Suo-Min,
Shi Huazhong,
Li Jing,
Han Qing-Qing,
Guo Shi-Qian,
Li Jian,
Guo Qiang,
Ma Qing, Zhang Jin-Lin
Plant and Soil. 2016 407(1-2). p.217
HKT transporters mediate salt stress resistance in plants: from structure and function to the field
Hamamoto Shin,
Horie Tomoaki,
Hauser Felix,
Deinlein Ulrich,
Schroeder Julian I, Uozumi Nobuyuki
Current Opinion in Biotechnology. 2015 32 p.113
Molecular breeding in Brassica for salt tolerance: importance of microsatellite (SSR) markers for molecular breeding in Brassica
Kumar Manu,
Choi Ju-Young,
Kumari Nisha,
Pareek Ashwani, Kim Seong-Ryong
Frontiers in Plant Science. 2015 6
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
Salt stress reveals differential physiological, biochemical and molecular responses in T. monococcum and T. durum wheat genotypes
Tounsi Sana,
Feki Kaouthar,
Hmidi Dorsaf,
Masmoudi Khaled, Brini Faiçal
Physiology and Molecular Biology of Plants. 2017 23(3). p.517
Designing salt stress‐resilient crops: Current progress and future challenges
Liang Xiaoyan,
Li Jianfang,
Yang Yongqing,
Jiang Caifu, Guo Yan
Journal of Integrative Plant Biology. 2024 66(3). p.303
Assessment of the salt tolerance of wheat genotypes during the germination stage based on germination ability parameters and associated SSR markers
El-Hendawy Salah,
Elshafei Adel,
Al-Suhaibani Nasser,
Alotabi Majed,
Hassan Wael,
Dewir Yaser Hassan, Abdella Kamel
Journal of Plant Interactions. 2019 14(1). p.151
Genetics of yield, abiotic stress tolerance and biofortification in wheat (Triticum aestivum L.)
Gupta Pushpendra Kumar,
Balyan Harindra Singh,
Sharma Shailendra, Kumar Rahul
Theoretical and Applied Genetics. 2020 133(5). p.1569
Omics Approach to Manage Abiotic Stress in Cereals (2022)
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
Crop breeding for salt tolerance in the era of molecular markers and marker‐assisted selection
Ashraf Muhammad,
Foolad Majid R., Tuberosa R.
Plant Breeding. 2013 132(1). p.10
COMPARATIVE STUDY OF DIFFERENT SALTS (SODIUM CHLORIDE, SODIUM SULFATE, POTASSIUM CHLORIDE, AND POTASSIUM SULFATE) ON GROWTH OF FORAGE SPECIES
Sima Nayer Azam Khosh Kholgh,
Ahmad Sara Tale, Pessarakli Mohammad
Journal of Plant Nutrition. 2013 36(2). p.214
Characterization of Two HKT1;4 Transporters fromTriticum monococcumto Elucidate the Determinants of the Wheat Salt ToleranceNax1QTL
Tounsi Sana,
Ben Amar Siwar,
Masmoudi Khaled,
Sentenac Hervé,
Brini Faiçal, Véry Anne-Aliénor
Plant and Cell Physiology. 2016 57(10). p.2047
Advances in Molecular Breeding Toward Drought and Salt Tolerant Crops (2007)
Physiological and molecular analyses of seedlings of two Tunisian durum wheat (Triticum turgidum L. subsp. Durum [Desf.]) varieties showing contrasting tolerance to salt stress
Brini Faïçal,
Amara Imen,
Feki Kaouther,
Hanin Moez,
Khoudi Habib, Masmoudi Khaled
Acta Physiologiae Plantarum. 2009 31(1). p.145
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
Soil Conditions and Plant Growth (2013)
Salt stress manifestation on plants, mechanism of salt tolerance and potassium role in alleviating it: a review
Abbasi Hassan,
Jamil Moazzam,
Haq Anwar,
Ali Shafaqat,
Ahmad Rafiq,
Malik Zafar, Parveen
Zemdirbyste-Agriculture. 2016 103(2). p.229
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
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
QTL Mapping of Yield and Yield Components under Normal and Salt-stress Conditions in Bread Wheat (Triticum aestivum L.)
Azadi Amin,
Mardi Mohsen,
Hervan Eslam Majidi,
Mohammadi Seyed Abolghasem,
Moradi Foad,
Tabatabaee Mohammad Taghi,
Pirseyedi Seyed Mostafa,
Ebrahimi Mohsen,
Fayaz Farzad,
Kazemi Mehrbano,
Ashkani Sadegh,
Nakhoda Babak, Mohammadi-Nejad Ghasem
Plant Molecular Biology Reporter. 2015 33(1). p.102
Wheat Production in Changing Environments (2019)
Genetic Opportunities to Improve Cereal Root Systems for Dryland Agriculture
Richards Richard A.
Plant Production Science. 2008 11(1). p.12
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
Genome-wide association analysis of quantitative trait loci for salinity-tolerance related morphological indices in bread wheat
Liu Ying,
Liu Yanyan,
Zhang Qiaofeng,
Fu Bisheng,
Cai Jin,
Wu Jizhong, Chen Yahua
Euphytica. 2018 214(10).
Physiological, Molecular, and Genetic Perspectives of Wheat Improvement (2021)
Prioritisation of candidate genes in QTL regions for seed germination and early seedling growth in bread wheat (Triticum aestivum) under salt-stress conditions
Rezaei Elham,
Hervan Eslam Majidi,
Azadi Amin,
Etminan Alireza, Ramshini Hossein
Crop and Pasture Science. 2021 72(1). p.1
QTL and Candidate Genes: Techniques and Advancement in Abiotic Stress Resistance Breeding of Major Cereals
Raj Sujitra Raj Genga, Nadarajah Kalaivani
International Journal of Molecular Sciences. 2022 24(1). p.6
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
A SOS3 homologue maps to HvNax4, a barley locus controlling an environmentally sensitive Na+ exclusion trait
Rivandi J.,
Miyazaki J.,
Hrmova M.,
Pallotta M.,
Tester M., Collins N. C.
Journal of Experimental Botany. 2011 62(3). p.1201
Plant Stress Physiology (2021)
Low leaf sodium content improves the grain yield and physiological performance of wheat genotypes in saline-sodic soil
Saddiq Muhammad Sohail,
Afzal Irfan,
Iqbal Shahid,
Hafeez Muhammad Bilal, Raza Ali
Pesquisa Agropecuária Tropical. 2021 51
Improving salt tolerance of wheat and barley: future prospects
Colmer T. D.,
Munns R., Flowers T. J.
Australian Journal of Experimental Agriculture. 2005 45(11). p.1425
Climate Change and Food Security with Emphasis on Wheat (2020)
Annual Plant Reviews online (2019)
One Hundred Candidate Genes and Their Roles in Drought and Salt Tolerance in Wheat
Urbanavičiūtė Ieva,
Bonfiglioli Luca, Pagnotta Mario A.
International Journal of Molecular Sciences. 2021 22(12). p.6378
Sodium transport in plants: a critical review
Kronzucker Herbert J., Britto Dev T.
New Phytologist. 2011 189(1). p.54
The Na+ transporter, TaHKT1;5‐D, limits shoot Na+ accumulation in bread wheat
Byrt Caitlin Siobhan,
Xu Bo,
Krishnan Mahima,
Lightfoot Damien James,
Athman Asmini,
Jacobs Andrew Keith,
Watson‐Haigh Nathan S.,
Plett Darren,
Munns Rana,
Tester Mark, Gilliham Matthew
The Plant Journal. 2014 80(3). p.516
Advances in studies on ion transporters involved in salt tolerance and breeding crop cultivars with high salt tolerance
Huang Lu,
Wu De-zhi, Zhang Guo-ping
Journal of Zhejiang University-SCIENCE B. 2020 21(6). p.426
Salinity Responses and Tolerance in Plants, Volume 1 (2018)
Mapping QTL for seedling morphological and physiological traits under normal and salt treatments in a RIL wheat population
Luo Qiaoling,
Hu Pan,
Yang Guotang,
Li Hongwei,
Liu Liqin,
Wang Zishan,
Li Bin,
Li Zhensheng, Zheng Qi
Theoretical and Applied Genetics. 2021 134(9). p.2991
Identification of salt tolerance QTL in a wheat RIL mapping population using destructive and non-destructive phenotyping
Asif Muhammad A.,
Garcia Melissa,
Tilbrook Joanne,
Brien Chris,
Dowling Kate,
Berger Bettina,
Schilling Rhiannon K.,
Short Laura,
Trittermann Christine,
Gilliham Matthew,
Fleury Delphine,
Roy Stuart J., Pearson Allison S.
Functional Plant Biology. 2021 48(2). p.131
Genetic technologies for the identification of plant genes controlling environmental stress responses
Papdi Csaba,
Joseph Mary Prathiba,
Salamó Imma Pérez,
Vidal Sabina, Szabados László
Functional Plant Biology. 2009 36(8). p.696
Potassium and sodium relations in salinised barley tissues as a basis of differential salt tolerance
Chen Zhonghua,
Zhou Meixue,
Newman Ian A.,
Mendham Neville J.,
Zhang Guoping, Shabala Sergey
Functional Plant Biology. 2007 34(2). p.150
Evaluating relative contribution of osmotolerance and tissue tolerance mechanisms toward salinity stress tolerance in three Brassica species
Chakraborty Koushik,
Bose Jayakumar,
Shabala Lana,
Eyles Alieta, Shabala Sergey
Physiologia Plantarum. 2016 158(2). p.135
Wheat Production in Changing Environments (2019)
Crop Adaptation to Climate Change (2011)
Making Plant Life Easier and Productive Under Salinity - Updates and Prospects [Working Title] (2023)
Kirk-Othmer Encyclopedia of Chemical Technology (2013)
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
Genetic variation in tolerance to the osmotic stress componentof salinity stress in durum wheat
James Richard A.,
von Caemmerer Susanne,
Condon A. G. (Tony),
Zwart Alexander B., Munns Rana
Functional Plant Biology. 2008 35(2). p.111
High-LD SNP markers exhibiting pleiotropic effects on salt tolerance at germination and seedlings stages in spring wheat
Hasseb Nouran M.,
Sallam Ahmed,
Karam Mohamed A.,
Gao Liangliang,
Wang Richard R. C., Moursi Yasser S.
Plant Molecular Biology. 2022 108(6). p.585
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
Wheat (2022)
Conditional QTL mapping for seed germination and seedling traits under salt stress and candidate gene prediction in wheat
Guo Xin,
Wu Chongning,
Wang Dehua,
Wang Guanying,
Jin Kaituo,
Zhao Yingjie,
Tian Jichun, Deng Zhiying
Scientific Reports. 2022 12(1).
Genetic approaches to crop improvement: responding to environmental and population changes
Takeda Shin, Matsuoka Makoto
Nature Reviews Genetics. 2008 9(6). p.444
Mapping of a major QTL for salt tolerance of mature field-grown maize plants based on SNP markers
Luo Meijie,
Zhao Yanxin,
Zhang Ruyang,
Xing Jinfeng,
Duan Minxiao,
Li Jingna,
Wang Naishun,
Wang Wenguang,
Zhang Shasha,
Chen Zhihui,
Zhang Huasheng,
Shi Zi,
Song Wei, Zhao Jiuran
BMC Plant Biology. 2017 17(1).
Durum Wheat (2012)
Plant Breeding Reviews (2010)
Microsatellite marker-assisted backcross breeding for improvement of wheat salt tolerance using Kharchia 65
Sharma Kritika,
Yashveer Shikha,
Singh Vikram,
Sharma Sudhir,
Redhu Mandeep, Rahimi Mehdi
BMC Genomics. 2024 25(1).
Mapping QTLs for salt tolerance with additive, epistatic and QTL × treatment interaction effects at seedling stage in wheat
Xu Y.,
Li S.,
Li L.,
Zhang X.,
Xu H.,
An D., Igartua E.
Plant Breeding. 2013 132(3). p.276
Innovative Saline Agriculture (2016)
Scaling up: the essence of effective agricultural research
Passioura J. B.
Functional Plant Biology. 2010 37(7). p.585
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
PHYSIOLOGICAL RESPONSE OF SPRING DURUM WHEAT GENOTYPES TO SALINITY
Azizpour Kambiz,
Shakiba M. R.,
Sima N. A. Khosh Kholg,
Alyari H.,
Mogaddam M.,
Esfandiari E., Pessarakli M.
Journal of Plant Nutrition. 2010 33(6). p.859
Applied Mathematics and Omics to Assess Crop Genetic Resources for Climate Change Adaptive Traits (2016)
Promoter of the TmHKT1;4-A1 gene of Triticum monococcum directs stress inducible, developmental regulated and organ specific gene expression in transgenic Arbidopsis thaliana
Tounsi Sana,
Feki Kaouthar,
Saïdi Mohamed Najib,
Maghrebi Sahar,
Brini Faiçal, Masmoudi Khaled
World Journal of Microbiology and Biotechnology. 2018 34(7).
Fundamental parenchyma cells are involved in Na+ and Cl– removal ability in rice leaf sheath
Neang Sarin,
de Ocampo Marjorie,
Egdane James A.,
Platten John D.,
Ismail Abdelbagi M.,
Skoulding Nicola S.,
Kano-Nakata Mana,
Yamauchi Akira, Mitsuya Shiro
Functional Plant Biology. 2019 46(8). p.743
Genetic, Epigenetic, Genomic and Microbial Approaches to Enhance Salt Tolerance of Plants: A Comprehensive Review
Saradadevi Gargi Prasad,
Das Debajit,
Mangrauthia Satendra K.,
Mohapatra Sridev,
Chikkaputtaiah Channakeshavaiah,
Roorkiwal Manish,
Solanki Manish,
Sundaram Raman Meenakshi,
Chirravuri Neeraja N.,
Sakhare Akshay S.,
Kota Suneetha,
Varshney Rajeev K., Mohannath Gireesha
Biology. 2021 10(12). p.1255
Characterization of the Durum Wheat-Aegilops tauschii 4D(4B) Disomic Substitution Line YL-443 With Superior Characteristics of High Yielding and Stripe Rust Resistance
Yang Fan,
Liu Qier,
Wang Qin,
Yang Ning,
Li Jun,
Wan Honshen,
Liu Zehou,
Yang Sujie,
Wang Ying,
Zhang Jie,
Liu Hang,
Fan Xing,
Ma Wujun,
Yang Wuyun, Zhou Yonghong
Frontiers in Plant Science. 2021 12
Genetic basis of ion exclusion in salinity stressed wheat: implications in improving crop yield
Naeem Muhammad,
Iqbal Muhammad,
Shakeel Amir,
Ul-Allah Sami,
Hussain Manzoor,
Rehman Abdur,
Zafar Zafar Ullah,
Athar Habib-ur-Rehman, Ashraf Muhammad
Plant Growth Regulation. 2020 92(3). p.479
A GWAS approach to find SNPs associated with salt removal in rice leaf sheath
Neang Sarin,
de Ocampo Marjorie,
Egdane James A,
Platten John Damien,
Ismail Abdelbagi M,
Seki Masahide,
Suzuki Yutaka,
Skoulding Nicola Stephanie,
Kano-Nakata Mana,
Yamauchi Akira, Mitsuya Shiro
Annals of Botany. 2020 126(7). p.1193
Pentaploid Wheat Hybrids: Applications, Characterisation, and Challenges
Padmanaban Sriram,
Zhang Peng,
Hare Ray A.,
Sutherland Mark W., Martin Anke
Frontiers in Plant Science. 2017 8
Aegilops tauschiiGenome Sequence: A Framework for Meta-analysis of Wheat QTLs
Xu Jiale,
Dai Xiongtao,
Ramasamy Ramesh K,
Wang Le,
Zhu Tingting,
McGuire Patrick E,
Jorgensen Chad M,
Dehghani Hamid,
Gulick Patrick J,
Luo Ming-Cheng,
Müller Hans-Georg, Dvorak Jan
G3 Genes|Genomes|Genetics. 2019 9(3). p.841
Genetic analysis of Na+ and K+ concentrations in leaf and stem as physiological components of salt tolerance in Tomato
Villalta I.,
Reina-Sánchez A.,
Bolarín M. C.,
Cuartero J.,
Belver A.,
Venema K.,
Carbonell E. A., Asins M. J.
Theoretical and Applied Genetics. 2008 116(6). p.869
Toward an Integrated Root Ideotype for Irrigated Systems
Schmidt Jennifer E., Gaudin Amélie C.M.
Trends in Plant Science. 2017 22(5). p.433
Analysis of Quantitative Trait Loci (QTL) for Grain Yield and Agronomic Traits in Wheat (Triticum aestivum L.) Under Normal and Salt-Stress Conditions
Narjesi Vahideh,
Mardi Mohsen,
Hervan Eslam Majidi,
Azadi Amin,
Naghavi Mohammad Reza,
Ebrahimi Mohsen, Zali Abbas Ali
Plant Molecular Biology Reporter. 2015 33(6). p.2030
QTL mapping for salt tolerance associated traits in wheat (Triticum aestivum L.)
Devi Rajni,
Ram Sewa,
Rana Veenti,
Malik Vipin Kumar,
Pande Veena, Singh Gyanendra Pratap
Euphytica. 2019 215(12).
