Coleoptile length and plant height of modern tall and semi-dwarf European winter wheat varieties
Acta Societatis Botanicorum Poloniae, 2011 A total of 124 recent winter wheat accessions of European origin were screened for coleoptile length and plant height. Most of the accessions (74.2%) possessed a coleoptile length ranging between 5.00 and 7.00 cm.
Žilvinas Liatukas, Vytautas Ruzgas
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Chemical and physical influence of sodic soils on the coleoptile length and root growth angle of wheat genotypes. [PDF]
Ann Bot, 2019 Abstract Background and Aims High exchangeable sodium percentage (ESP) and bulk density of sodic soils can reduce seedling emergence. This study examined variation in seedling coleoptile length and seminal root angle of wheat (Triticum aestivum.
Anzooman M +5 more
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Screening Wheat Genotypes for Coleoptile Length: A Trait for Drought Tolerance [PDF]
American Journal of Agriculture and Forestry, 2014 The study was conducted during Rabi season of 2013-14 at the Wheat Research Centre (WRC), Bangladesh Agricultural Research Institute (BARI), Dinajpur. Thirty wheat genotypes including local control BARI Gom 26 were evaluated in split-split plot design having two replications with irrigation in the main plot, seeding depth in a sub-plot and genotype was
N. C. D. Barma +3 more
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COLEOPTILE LENGTH AND EMERGENCE IN VARIETIES OF BARLEY, OATS, AND WHEAT [PDF]
Canadian Journal of Plant Science, 1968 Coleoptile length and seedling emergence were studied in barley, oats, and wheat, with four varieties for each crop. Significant differences in coleoptile length were obtained in darkened cabinets between varieties of barley and oats with temperature regimes of 8 and 21 °C, and between varieties of wheat at 8 °C.
M. L. Kaufmann
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The genetic control of gibberellic acid insensitivity and coleoptile length in a “dwarf” wheat [PDF]
Heredity, 1975 In hexaploid wheat (Triticum aestivum) analysis of the F2 generation of the cross of Minister Dwarf and Chinese Spring showed that insensitivity to gibberellic acid, a characteristic of Minister Dwarf and other dwarf wheats, was determined by a single gene, Gai3. The short coleoptiles, which are also a feature of these dwarf wheats, was also identified
Geraldine A Marshall +3 more
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Dwarfing Gene Effects on Coleoptile Length in Pearl Millet [PDF]
Crop Science, 1989 Dwarfing genes have been reported to affect either or both the length of the coleoptile and mesocotyl in several cereal species, which can reduce seedling emergence. Such an effect of dwarfing genes has not been reported for pearl millet [Pennisetum glaucum (L.) R. Br.].
Soman, P, Rai, K N, Bidinger, F R
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Covariation for Microsatellite Marker Alleles Associated withRht8 and Coleoptile Length in Winter Wheat [PDF]
Crop Science, 2004 Wheat (Triticum aestivumL.) cultivars with greater coleoptile elongation are preferred in low‐precipitation dryland regions and in early‐planted management systems of the Great Plains, but the presence of GA3 (gibberellin)‐insensitive dwarfing genes tends to restrict coleoptile elongation.
Bai, Guihua +4 more
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EFFECTS OF IMAZALIL SEED TREATMENT ON SUBCROWN INTERNODE LENGTHS AND COLEOPTILE-NODE-TILLERING IN WHEAT [PDF]
Canadian Journal of Plant Science, 1980 The effects of seed treatment with imazalil at 0.2 and 0.3 g a.i./kg seed on subcrown internode length and occurrence of coleoptile-node-tillers (CNT) was studied in four spring wheat cultivars at two locations in Saskatchewan. Without treatment, Cypress had the longest internodes followed in descending order by Glenlea, Neepawa, and Wascana ...
P. R. Verma, S. H. F. Chinn, D. T. Spurr
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The Changes in Coleoptile Length and Root System Architecture During Wheat Polyploidization
ISPEC Journal of Agricultural SciencesPolyploidy, the doubling of chromosomes, has significantly shaped the evolution of flowering plants, including wheat. Yet, its impact on crucial traits like coleoptile length and root development remains unclear.
Uğur SESİZ
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New semi-dwarfing alleles with increased coleoptile length by gene editing of gibberellin 3-oxidase 1 using CRISPR-Cas9 in barley (Hordeum vulgare L.). [PDF]
Plant Biotechnol J, 2023 Cheng J +9 more
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