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Journal of Plant Nutrition Volume 15, 1992 - Issue 5
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Original Articles

>Aluminum toxicity effects on durum wheat cultivars

M. Moustakas Department of Botany, Aristotelian University of Thessaloniki, Thessaloniki, 54006, Greece
,
T. Yupsanis Laboratory of Biochemistry, Aristotelian University of Thessaloniki, Thessaloniki, 54006, Greece
,
L. Symeonidis Department of Botany, Aristotelian University of Thessaloniki, Thessaloniki, 54006, Greece
&
S. Karataglis Department of Botany, Aristotelian University of Thessaloniki, Thessaloniki, 54006, Greece
Pages 627-638 | Published online: 21 Nov 2008

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Read on this site (4)

Ferenc Zsoldos, Ágnes Vashegyi, Lajos Bona, Attila Pécsváradi & Zsolt Szegletes. (2000) Growth of and potassium transport in winter wheat and durum wheat as affected by various aluminum exposure times. Journal of Plant Nutrition 23:7, pages 913-926.
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C. D. Foy. (1996) Tolerance of durum wheat lines to an acid, aluminum‐toxic subsoil. Journal of Plant Nutrition 19:10-11, pages 1381-1394.
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Michael Moustakas, Georgia Ouzounidou & Robert Lannoye. (1995) Aluminum effects on photosynthesis and elemental uptake in an aluminum‐tolerant and non‐tolerant wheat cultivar. Journal of Plant Nutrition 18:4, pages 669-683.
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Georgia Ouzounidou. (1994) Root growth and pigment composition in relationship to element uptake in Silene compacta plants treated with copper. Journal of Plant Nutrition 17:6, pages 933-943.
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Articles from other publishers (21)

Lijun Liu, Chunming Bai, Yinglong Chen, Jairo A. Palta, Emmanuel Delhaize & Kadambot H. M. Siddique. (2021) Durum wheat with the introgressed TaMATE1B gene shows resistance to terminal drought by ensuring deep root growth in acidic and Al3+-toxic subsoils. Plant and Soil 478:1-2, pages 311-324.
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Ivana Maksimović, Rudolf Kastori, Marina Putnik-Delić, Vojislava Momčilović, Srbislav Denčić & Milan Mirosavljević. (2020) Genetic differences in aluminium accumulation in the grains of field grown Aegilops and Triticum. Plant, Soil and Environment 66:7, pages 351-356.
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Vijay Pooniya, Jairo A. Palta, Yinglong Chen, Emmanuel Delhaize & Kadambot H. M. Siddique. (2019) Impact of the TaMATE1B gene on above and below-ground growth of durum wheat grown on an acid and Al3+-toxic soil. Plant and Soil 447:1-2, pages 73-84.
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A. M. Kiszonas, R. Higginbotham, X. M. Chen, K. Garland-Campbell, N. A. Bosque-Pérez, M. Pumphrey, M. N. Rouse, D. Hole, N. Wen & C. F. Morris. (2019) Agronomic Traits in Durum Wheat Germplasm Possessing Puroindoline Genes. Agronomy Journal 111:3, pages 1254-1265.
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Julietta Moustaka, Georgia Ouzounidou, Ilektra Sperdouli & Michael Moustakas. (2018) Photosystem II Is More Sensitive than Photosystem I to Al3+ Induced Phytotoxicity. Materials 11:9, pages 1772.
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Julietta Moustaka, Georgia Ouzounidou, Gülriz Bayçu & Michael Moustakas. (2016) Aluminum resistance in wheat involves maintenance of leaf Ca2+ and Mg2+ content, decreased lipid peroxidation and Al accumulation, and low photosystem II excitation pressure. BioMetals 29:4, pages 611-623.
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Chang Han, Peng Zhang, Peter R. Ryan, Tina M. Rathjen, ZeHong Yan & Emmanuel Delhaize. (2016) Introgression of genes from bread wheat enhances the aluminium tolerance of durum wheat. Theoretical and Applied Genetics 129:4, pages 729-739.
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Chang Han, Peter R. Ryan, ZeHong Yan & Emmanuel Delhaize. (2014) Introgression of a 4D chromosomal fragment into durum wheat confers aluminium tolerance. Annals of Botany 114:1, pages 135-144.
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Susana R. Valle, Dante Pinochet & Daniel F. Calderini. (2011) Uptake and use efficiency of N, P, K, Ca and Al by Al-sensitive and Al-tolerant cultivars of wheat under a wide range of soil Al concentrations. Field Crops Research 121:3, pages 392-400.
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C. Musharo & J. Nyamangara. 2011. Innovations as Key to the Green Revolution in Africa. Innovations as Key to the Green Revolution in Africa 491 500 .
Ivica DjalovicG.G., Ivana MaksimovicV.V., Rudolf KastoriR.R. & Miodrag JelicZ.Z.. (2010) Mechanisms of adaptation of small grains to soil acidity. Zbornik Matice srpske za prirodne nauke Matica Srpska Journal for Natural Sciences:118, pages 107-120.
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M. Čiamporová. (2002) Morphological and Structural Responses of Plant Roots to Aluminium at Organ, Tissue, and Cellular Levels. Biologia plantarum 45:2, pages 161-171.
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M. Moustakas, L. Bona, F. Zsoldos, G. Ouzounidou & L. Purnhauser. 1998. Progress in Botanical Research. Progress in Botanical Research 337 340 .
L. Bona, F. Zsoldos, Á. Vashegyi, M. Moustakas & L. Purnhauser. 1998. Progress in Botanical Research. Progress in Botanical Research 277 280 .
T. Yupsanis, M. Moustakas & C. Cosma. 1998. Progress in Botanical Research. Progress in Botanical Research 247 250 .
M. Moustakas, E.P. Eleftheriou & G. Ouzounidou. (1997) Short-term effects of aluminium at alkaline pH on the structure and function of the photosynthetic apparatus. Photosynthetica 34:2, pages 169-177.
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Jan J. Ślaski, Guichang Zhang, Urmila Basu, Julie L. Stephens & Gregory J. Taylor. (2006) Aluminum resistance in wheat ( Triticum aestivum ) is associated with rapid, Al‐induced changes in activities of glucose‐6‐phosphate dehydrogenase and 6‐phosphogluconate dehydrogenase in root apices . Physiologia Plantarum 98:3, pages 477-484.
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Jan J. Ślaski. 1995. Structure and Function of Roots. Structure and Function of Roots 327 333 .
Jan J. Ślaski. (1994) Differences in the metabolic responses of root tips of wheat and rye to aluminium stress. Plant and Soil 167:1, pages 165-171.
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G. Ouzounidou, L. Symeonidis, D. Babalonas & S. Karataglis. (1994) Comparative Responses of a Copper-tolerant and a Copper-sensitive Population of Minuartia hirsuta to Copper Toxicity. Journal of Plant Physiology 144:1, pages 109-115.
Crossref
M. Moustakas, G. Ouzounidou & R. Lannoye. (2006) Rapid Screening for Aluminum Tolerance in Cereals by Use of the Chlorophyll Fluorescence Test. Plant Breeding 111:4, pages 343-346.
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