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Sunflower (Helianthaus annuus L.) Seeds Germination in Saline Hydroculture

Received: 15 March 2019     Accepted: 26 April 2019     Published: 31 July 2019
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Abstract

Salinity affects seed germination, many plant growth and yield traits. This study assessed seed response, quality, ability and phenetic relationship in three sunflower (Helianthaus annuus L.) varieties (SSL-803, SSL-807 and SSL-809) in eleven concentrations of NaCl + CaCl2 solutions (1:1 by weight). Electrical conductivity of the saline solutions ranged from 0.16 to 31.25 dS/m. The repeated factorial experiment (3x11) was laid out in a completely randomized design with three replications in the screenhouse. Germination of 20 seeds per treatment was evaluated within five to ten days after culturing in filter-paper lined petri-dishes. Salinity above 15.63 dS/m significantly (p ≤ 0.05) inhibited seed germination; three seeds of twenty (16.7%) of variety SSL-809 and eight seeds (41.7%) of SSL-807 germinated in 18.75 dS/m solution, and high salinity (18.75 to 31.25 dS/m) caused seed discolouration and shrivelling in SSL-809 and SSL-803 varieties. Cluster analysis (Bray-Curtis’ method) partitioned SSL-807 on a par with SSL-803 in terms of tolerance and adaptability to salinity, SSL-809 was at aversion with the two varieties in these traits. The variety SSL-807 is recommended for cultivation in soils with electrical conductivity below 21.88 dS/m and SSL-803 in saline environments below 18.75 dS/m. Future research on sunflower seed germination will be carried out on the field to verify and fully elucidate current studies.

Published in Journal of Plant Sciences (Volume 7, Issue 4)
DOI 10.11648/j.jps.20190704.11
Page(s) 72-75
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2019. Published by Science Publishing Group

Keywords

Helianthaus annuus L., Seed Germination, Sunflower, Tropical Ecology, Salinity Tolerance

References
[1] Zeng, W-Z, Chi, X., Jing-Wei, W., Huang J-S., Zhao Q. and Wu M-S (2014). Impacts of salinity and nitrogen on the photosynthetic rate and growth of sunflowers (Helianthaus annuus L.) Pedosphere 24 (5): 635–644.
[2] Srivastava, J. P and Jana, S., (1984). Screening wheat and barley germplasm for salt tolerance. In: Salinity Tolerance in Plants. Eds R. C. Staples and G. H. Toenniessen. John Wiley andSons. New York, pp. 273-283.
[3] Mohammed, E. M., Benbella, M and Talouizete. A. (2002). Effect of sodium chloride on sunflower (Helianthus annuus L.) seed germination. HELIA 25 (37): 51-58.
[4] Katerji, N., Van Hoorn, J. W., Hamdy, A., Karam, F. and Mastrorilli, M., (1994). Effect of salinity on emergence and water stress and early seedling growth of sunflower and maize. Agricultural and Water Management 26: 81-91.
[5] Jampeetong, A. and Brix, H. (2009). Effects of NaCl salinity on growth, morphology, photosynthesis and proline accumulation of Salvinia natans. Aquat. Bot. 91: 181–186.
[6] Tang, Z. H., Liu, Y. J., Guo, X. R. and Zu, Y. G. (2011). The combined effects of salinity and nitrogen forms on Catharanthus roseus: The role of internal ammonium and free amino acids during salt stress. Journal Plant Nutrition and Soil Science. 174: 135–144.
[7] Torabi, M. (2014) Physiological and biochemical responses of plants to salt stress. In the 1st International Conference on new Ideas in Agriculture. Islamic Azad University Khorasgan Branch, 26-27 January, 2014, Isfahan, Iran.
[8] Fernández-Luqueño, F., López-Valdez, F., Miranda-Arámbula, M., Rosas-Morales, M., Pariona, N. and Espinoza-Zapata, R. (2014) An introduction to the sunflower crop. In: Sunflowers Edited by: J. I. Arribas. Nova Science Publishers, Inc pp 1-18.
[9] Kunduraci, B. S., Bayrak A., and Kiralan, M. (2010). Effect of essential oil extracts from oregano (Origanum onites L.) leaves on the oxidative stability of refined sunflower oil. Asian Journal of Chemistry 22 (2): 1377-1386.
[10] Vasilakoglou, I., Dhima, K., Karagiannidis, N. and Gatsis, T. (2011). Sweet sorghum productivity for biofuels under increased soil salinity and reduced irrigation. Field Crop Research 120: 38-46.
[11] Hasanuzzaman, M., Nahar, K., Alam, M. M., Bhowmik, P. C., Hossain, M. A., Rahman, M. M., Prasad, M N. V., Ozturk, M. and Fujita, M. (2014). Potential use of halophytes to remediate saline soils. BioMed Research International. Hindawi Publishing Corporation 12 pp.
[12] World Atlas (2017). The top sunflower seed producing countries in the world. Downloaded from https://www.worldatlas.com/articles/the-top-sunflower-seed-producing-countries-in-the-world.html.
[13] FAOSTAT (2017) FAOSTAT. Available at: http://www.fao.org/faostat/en/#home (Accessed: 1 July 2018).
[14] Mabaya, E., Gouse, M., Mugoya, M., Quilligan, E. and van der Walt, W. (2017). South Africa Brief 2017 -The African Seed Access Index. Available at: tasai.org/reports.
[15] Abayomi S. E, James W. F and Olufemi A. A (2015). A study on the assessment of the use of sunflower crop among smallholder farmers in sub-Saharan Africa: Evidence from Nigeria and Botswana. International J. of Agric. Extension and Rural Dev. 2 (5): 103-108.
[16] GENSTAT (2005). GenStat Release 8.1 (Windows® PC) Lawes Agricultural Trust (Rothamsted Experimental Station).
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  • APA Style

    Macauley Asim Ittah, Idorenyin Asukwo Udo, Ekemini Edet Obok. (2019). Sunflower (Helianthaus annuus L.) Seeds Germination in Saline Hydroculture. Journal of Plant Sciences, 7(4), 72-75. https://doi.org/10.11648/j.jps.20190704.11

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    ACS Style

    Macauley Asim Ittah; Idorenyin Asukwo Udo; Ekemini Edet Obok. Sunflower (Helianthaus annuus L.) Seeds Germination in Saline Hydroculture. J. Plant Sci. 2019, 7(4), 72-75. doi: 10.11648/j.jps.20190704.11

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    AMA Style

    Macauley Asim Ittah, Idorenyin Asukwo Udo, Ekemini Edet Obok. Sunflower (Helianthaus annuus L.) Seeds Germination in Saline Hydroculture. J Plant Sci. 2019;7(4):72-75. doi: 10.11648/j.jps.20190704.11

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  • @article{10.11648/j.jps.20190704.11,
      author = {Macauley Asim Ittah and Idorenyin Asukwo Udo and Ekemini Edet Obok},
      title = {Sunflower (Helianthaus annuus L.) Seeds Germination in Saline Hydroculture},
      journal = {Journal of Plant Sciences},
      volume = {7},
      number = {4},
      pages = {72-75},
      doi = {10.11648/j.jps.20190704.11},
      url = {https://doi.org/10.11648/j.jps.20190704.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jps.20190704.11},
      abstract = {Salinity affects seed germination, many plant growth and yield traits. This study assessed seed response, quality, ability and phenetic relationship in three sunflower (Helianthaus annuus L.) varieties (SSL-803, SSL-807 and SSL-809) in eleven concentrations of NaCl + CaCl2 solutions (1:1 by weight). Electrical conductivity of the saline solutions ranged from 0.16 to 31.25 dS/m. The repeated factorial experiment (3x11) was laid out in a completely randomized design with three replications in the screenhouse. Germination of 20 seeds per treatment was evaluated within five to ten days after culturing in filter-paper lined petri-dishes. Salinity above 15.63 dS/m significantly (p ≤ 0.05) inhibited seed germination; three seeds of twenty (16.7%) of variety SSL-809 and eight seeds (41.7%) of SSL-807 germinated in 18.75 dS/m solution, and high salinity (18.75 to 31.25 dS/m) caused seed discolouration and shrivelling in SSL-809 and SSL-803 varieties. Cluster analysis (Bray-Curtis’ method) partitioned SSL-807 on a par with SSL-803 in terms of tolerance and adaptability to salinity, SSL-809 was at aversion with the two varieties in these traits. The variety SSL-807 is recommended for cultivation in soils with electrical conductivity below 21.88 dS/m and SSL-803 in saline environments below 18.75 dS/m. Future research on sunflower seed germination will be carried out on the field to verify and fully elucidate current studies.},
     year = {2019}
    }
    

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  • TY  - JOUR
    T1  - Sunflower (Helianthaus annuus L.) Seeds Germination in Saline Hydroculture
    AU  - Macauley Asim Ittah
    AU  - Idorenyin Asukwo Udo
    AU  - Ekemini Edet Obok
    Y1  - 2019/07/31
    PY  - 2019
    N1  - https://doi.org/10.11648/j.jps.20190704.11
    DO  - 10.11648/j.jps.20190704.11
    T2  - Journal of Plant Sciences
    JF  - Journal of Plant Sciences
    JO  - Journal of Plant Sciences
    SP  - 72
    EP  - 75
    PB  - Science Publishing Group
    SN  - 2331-0731
    UR  - https://doi.org/10.11648/j.jps.20190704.11
    AB  - Salinity affects seed germination, many plant growth and yield traits. This study assessed seed response, quality, ability and phenetic relationship in three sunflower (Helianthaus annuus L.) varieties (SSL-803, SSL-807 and SSL-809) in eleven concentrations of NaCl + CaCl2 solutions (1:1 by weight). Electrical conductivity of the saline solutions ranged from 0.16 to 31.25 dS/m. The repeated factorial experiment (3x11) was laid out in a completely randomized design with three replications in the screenhouse. Germination of 20 seeds per treatment was evaluated within five to ten days after culturing in filter-paper lined petri-dishes. Salinity above 15.63 dS/m significantly (p ≤ 0.05) inhibited seed germination; three seeds of twenty (16.7%) of variety SSL-809 and eight seeds (41.7%) of SSL-807 germinated in 18.75 dS/m solution, and high salinity (18.75 to 31.25 dS/m) caused seed discolouration and shrivelling in SSL-809 and SSL-803 varieties. Cluster analysis (Bray-Curtis’ method) partitioned SSL-807 on a par with SSL-803 in terms of tolerance and adaptability to salinity, SSL-809 was at aversion with the two varieties in these traits. The variety SSL-807 is recommended for cultivation in soils with electrical conductivity below 21.88 dS/m and SSL-803 in saline environments below 18.75 dS/m. Future research on sunflower seed germination will be carried out on the field to verify and fully elucidate current studies.
    VL  - 7
    IS  - 4
    ER  - 

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Author Information
  • Department of Crop Science, Faculty of Agriculture, Forestry and Wildlife Resources Management, University of Calabar, Calabar, Nigeria

  • Department of Crop Science, Faculty of Agriculture, Forestry and Wildlife Resources Management, University of Calabar, Calabar, Nigeria

  • Department of Crop Science, Faculty of Agriculture, Forestry and Wildlife Resources Management, University of Calabar, Calabar, Nigeria

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