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Relationship between salinity stress and ion uptake of hyacinth (Hyacinthus orientalis)

Year 2014, Volume: 1 Issue: Özel Sayı-1, 578 - 583, 01.03.2014

Abstract

Salinity is one of the most severe environmental factors limiting the agricultural productivity. Salt stress is also of rising importance in landscaping. Salinity is a reality in coastal area and in countries where de-icing salts are applied to roadways. Plants are affected in a different way by amount of salt and depending on their growth and development stage. Major saline ions can affect nutrient uptake which may cause reductions in plant growth. Hyacinth (Hyacinthus orientalis L.) is grown worldwide as a commercially important bulbous ornamental plant. In this study the effect of salt stress on ion uptake of hyacinth plants were investigated. The plants were irrigated with different NaCl concentration by the addition of 0, 25, 50, 75, 100, 200, 400 and 600 mM for 15 days with two days intervals in soil medium under controlled conditions. Salt treatments were imposed to plants at the beginning of flowering stage. According to the results Na+ uptake were significantly increased by salt stress. The higher concentration of NaCl treatments (75 mM and upper) caused sharply reduction on K+/Na+ and Ca2+/Na+ ratios. This study showed that measuring of Na+ concentrations and calculating the ratios of K+/Na+ and Ca+2/Na+, in leaf tissue are reliable physiological parameters for predicting salt damage of hyacinth plant

References

  • Alkan Torun, A., Gulmezoglu, N., Tolay, I., Ertargin, E., Aytac, Z., Kulan, E.G., 2013. Alleviating role of zinc applications on damage of salt stress in basil (Ocimum basilicum L.). XVII. International Plant Nutrition Colloquium (19-22 August, 2013 –Istanbul/Turkey).
  • Aydınşakır, K., Tepe, A., Buyuktaş, D., 2010. Effects of saline irrigation water applications on quality characteristics of freesia grown in greenhouse. Akdeniz Üniv Ziraat Fak Derg 23(1): 41-46.
  • Carter, C.T., Grieve, C.M., 2008. Mineral nutrition, growth, and germination of Antirrhinum majus L. (snapdragon) when produced under HortScience 43: 710-718. conditions.
  • Cassaniti, C., Romano, D., Flowers, T.J., 2012. The response of ornamental plants to saline irrigation water. In: I. García-Garizábal (Eds.), Pollution and Alternative Strategies, Inc., InTech, pp.132-158. Management,
  • Clark, C.J., Boldingh, H.L., 1991. Biomass and mineral nutrient partitioning in relation to seasonal growth of Zantedeschia. Sci. Hortic. 47(1-2): 125-135.
  • Ferrante, A., Trivellini, A., Malorgio, F., Carmassi, G., Vernieri, P., Serra, G., 2011. Effect of seawater aerosol on leaves of six plant species potentially useful for ornamental purposes in coastal areas. Sci. Hortic. 128: 332-341.
  • Friedman, H., Bernstein, N., Bruner, M., Rot, I., Ben-Noon, Z., Zuriel, A., Zuriel, R., Finkelstein, S., Umiel, N., Hagiladi, A., 2007. Application of secondary-treated effluents for cultivation of sunflower (Helianthus annuus L.) and celosia (Celosia argentea L.) as cut flowers. Sci. Hortic. 115: 62-69.
  • Grattan, S.R., Grieve, C.M., 1999. Salinity–mineral nutrient relations in horticultural crops. Sci. Hortic. 78:127-157.
  • Greenway, H., Munns, R., 1980. Mechanisms of salt tolerance in nonhalophytes. Ann. Rev. Plant Physiol. 31: 149-190.
  • Grieve, C.M., Poss, J.A., Grattan, S.R., Shouse, P.J., Lieth, J.H., Zeng, L., 2005. Productivity and mineral nutrition of Limonium species irrigated HortScience 40: 654-658. wastewaters.
  • Köksal, N., Külahlıoğlu, İ. 2013. Tuz stresinin sümbül (Hyacinthus orientalis) bitkisinin gelişimine etkisi. V. Süs Bitkileri Kongresi (06-09 Mayıs 2013-Yalova) Bildiriler Cilt-II, 860-865 (In Turkish).
  • McCammon, T.A., Marquart-Pyatt, S.T., Kopp, K.L. 2009. Water-conserving landscapes: an evaluation of homeowner preference, J Extension 47(2): 1-10.
  • Navarro, A., Bañón, S., Conejero, W., Sánchez- Blanco, M.J. 2008. Ornamental characters, ion accumulation and water status in Arbutus unedo seedlings irrigated with saline water and subsequent relief and transplanting. Environ. Exp. Bot. 62: 364- 370.
  • Niu, G., Cabrera, R.I., 2010. Growth and physiological responses of landscape plants to saline water irrigation: A Review. HortScience 45(11): 1605-1609.
  • Niu, G., Rodriguez, D.S., 2006. Relative salt tolerance of selected herbaceous perennials and groundcovers. Sci. Hortic. 110: 352-358.
  • Niu, G., Rodriguez, D.S., Aguiniga, L., Mackay, W., 2007. Salinity tolerance of Lupinus havardii and Lupinus texenis. HortScience 42: 526- 528.
  • Parida, A., Das, A.B., Das, P., 2002. NaCl stress causes changes in photosynthetic pigments, proteins, and other metabolic components in the leaves of a true mangrove, Bruguiera parviflora, in hydroponic cultures. J Plant Biology 45(1): 28-36.
  • Parida, A.K., Das, A.B., 2005. Salt tolerance and salinity effects on plants: a review. Ecotox. Environ. Safe. 60: 324-349.
  • Ramírez-Martínez, M., Trejo-Téllez, L., Gómez- Merino, F., Sánchez-García, P., Rodríguez- Mendoza, M.N., Sandoval-Villa, M., 2009. Potassium/calcium ratios of the nutrient solution on tulip nutrient status. Acta Hort 843: 119-122.
  • Shillo, R., Ding, M., Pasternak, D., Zaccai, M., 2002. Cultivation of cut flower and bulb species with saline water. Sci. Hortic. 92: 41-54.
  • Townsend, A.M., Kwolek, W.F., 1987. Relative susceptibility of thirteen pine species to sodium chloride spray. J Arboriculture 13: 225-227.
  • Tuna, A.L., Kaya, C., Ashraf, M., Altunlu, H., Yokas, I., Yagmur, B., 2007. The effects of calcium sulphate on growth, membrane stability and nutrient uptake of tomato plants grown under salt stress. Environ. Exp. Bot. 59: 173- 178.
  • Türkoglu, N., Erez, M.E., Battal, P., 2011. Determination of physiological responses on hyacinth exposed to different salt concentrations. Afr. J Biotechnol. 10(32): 6045-6050.
  • Valdez-Aguilar, L.A., Grieve, C.M., Poss, J., 2009a. Salinity and alkaline pH in irrigation water affect marigold plants: I. growth and shoot dry weight partitioning. HortScience 44(6): 1719-1725.
  • Valdez-Aguilar, L.A., Grieve, C.M., Poss, J., Layfield, D.A., 2009b Salinity and alkaline pH in irrigation water affect marigold plants: II. Mineral ion relations. HortScience 44(6): 1726-1735.
  • Veatch-Blohm, M.E., Chen, D., Hassett, M., 2013. Narcissus cultivar differences in response to saline irrigation when application began either pre- or postemergence. HortScience 48: 322-329.
  • Veatch-Blohm, M.E., Morningstar, L., 2011. Calla lily growth and development under saline irrigation. HortScience 46: 222-227.
  • Villora, G., Moreno, A., Pulgar, G., Romero, L., 2000. Yield improvement in zucchini under salt balance. Sci. Hortic. 86: 175-183. micronutrient

Relationship between salinity stress and ion uptake of hyacinth (Hyacinthus orientalis)

Year 2014, Volume: 1 Issue: Özel Sayı-1, 578 - 583, 01.03.2014

Abstract

Tuzluluk tarımsal verimliliği sınırlayan en ciddi çevresel faktörlerden biridir. Tuz stresinin önemi peyzaj düzenlemelerinde de giderek artmaktadır. Tuzluluk, deniz kıyısındaki bölgelerin ve yol buzlanmalarına karşı tuz uygulamasının yapıldığı ülkelerin önemli bir gerçeğidir. Bitkiler tuz stresinden stresin şiddeti ve bitkinin büyüme ve gelişme aşamasına bağlı olarak farklı şekillerde etkilenmektedir. Tuzluluğa yol açan iyonları, bitki besin elementi alımını etkileyerek bitki büyümesinde azalmaya yol açabilmektedir.Sümbül (Hyacinthus orientalis L.) ticari olarak önemli bir soğanlı süs bitkisi olarak dünya çapında yetiştirilmektedir. Bu çalışmada sümbül bitkisinin iyon alımı üzerine tuz stresinin etkisi araştırılmıştır.Bitkiler, kontrollü koşullar altında, toprak ortamında 0, 25, 50, 75, 100, 200, 400 ve 600 mM tuz konsantrasyonu ile iki gün aralıklarla 15 gün süre boyunca sulanmıştır.Tuz uygulamaları bitkilere çiçeklenme döneminin başında uygulanmıştır. Sonuçlara göre, tuz stresinin artışı ile Na+ alımı önemli ölçüde artmıştır. Yüksek NaCI uygulamaları (75 mM ve üstü) K+/Na+ ve Ca2+/Na+ oranlarında keskin bir düşüşe neden olmuştur.Bu çalışma, yaprak dokularında Na+ konsantrasyonunun ölçülmesi ve K+/Na+ ve Ca2+/Na+ oranlarının hesaplamasının sümbül bitkisinde tuz zararının tahmin edilmesinde için güvenilir fizyolojik parametreler olduğunu göstermektedir

References

  • Alkan Torun, A., Gulmezoglu, N., Tolay, I., Ertargin, E., Aytac, Z., Kulan, E.G., 2013. Alleviating role of zinc applications on damage of salt stress in basil (Ocimum basilicum L.). XVII. International Plant Nutrition Colloquium (19-22 August, 2013 –Istanbul/Turkey).
  • Aydınşakır, K., Tepe, A., Buyuktaş, D., 2010. Effects of saline irrigation water applications on quality characteristics of freesia grown in greenhouse. Akdeniz Üniv Ziraat Fak Derg 23(1): 41-46.
  • Carter, C.T., Grieve, C.M., 2008. Mineral nutrition, growth, and germination of Antirrhinum majus L. (snapdragon) when produced under HortScience 43: 710-718. conditions.
  • Cassaniti, C., Romano, D., Flowers, T.J., 2012. The response of ornamental plants to saline irrigation water. In: I. García-Garizábal (Eds.), Pollution and Alternative Strategies, Inc., InTech, pp.132-158. Management,
  • Clark, C.J., Boldingh, H.L., 1991. Biomass and mineral nutrient partitioning in relation to seasonal growth of Zantedeschia. Sci. Hortic. 47(1-2): 125-135.
  • Ferrante, A., Trivellini, A., Malorgio, F., Carmassi, G., Vernieri, P., Serra, G., 2011. Effect of seawater aerosol on leaves of six plant species potentially useful for ornamental purposes in coastal areas. Sci. Hortic. 128: 332-341.
  • Friedman, H., Bernstein, N., Bruner, M., Rot, I., Ben-Noon, Z., Zuriel, A., Zuriel, R., Finkelstein, S., Umiel, N., Hagiladi, A., 2007. Application of secondary-treated effluents for cultivation of sunflower (Helianthus annuus L.) and celosia (Celosia argentea L.) as cut flowers. Sci. Hortic. 115: 62-69.
  • Grattan, S.R., Grieve, C.M., 1999. Salinity–mineral nutrient relations in horticultural crops. Sci. Hortic. 78:127-157.
  • Greenway, H., Munns, R., 1980. Mechanisms of salt tolerance in nonhalophytes. Ann. Rev. Plant Physiol. 31: 149-190.
  • Grieve, C.M., Poss, J.A., Grattan, S.R., Shouse, P.J., Lieth, J.H., Zeng, L., 2005. Productivity and mineral nutrition of Limonium species irrigated HortScience 40: 654-658. wastewaters.
  • Köksal, N., Külahlıoğlu, İ. 2013. Tuz stresinin sümbül (Hyacinthus orientalis) bitkisinin gelişimine etkisi. V. Süs Bitkileri Kongresi (06-09 Mayıs 2013-Yalova) Bildiriler Cilt-II, 860-865 (In Turkish).
  • McCammon, T.A., Marquart-Pyatt, S.T., Kopp, K.L. 2009. Water-conserving landscapes: an evaluation of homeowner preference, J Extension 47(2): 1-10.
  • Navarro, A., Bañón, S., Conejero, W., Sánchez- Blanco, M.J. 2008. Ornamental characters, ion accumulation and water status in Arbutus unedo seedlings irrigated with saline water and subsequent relief and transplanting. Environ. Exp. Bot. 62: 364- 370.
  • Niu, G., Cabrera, R.I., 2010. Growth and physiological responses of landscape plants to saline water irrigation: A Review. HortScience 45(11): 1605-1609.
  • Niu, G., Rodriguez, D.S., 2006. Relative salt tolerance of selected herbaceous perennials and groundcovers. Sci. Hortic. 110: 352-358.
  • Niu, G., Rodriguez, D.S., Aguiniga, L., Mackay, W., 2007. Salinity tolerance of Lupinus havardii and Lupinus texenis. HortScience 42: 526- 528.
  • Parida, A., Das, A.B., Das, P., 2002. NaCl stress causes changes in photosynthetic pigments, proteins, and other metabolic components in the leaves of a true mangrove, Bruguiera parviflora, in hydroponic cultures. J Plant Biology 45(1): 28-36.
  • Parida, A.K., Das, A.B., 2005. Salt tolerance and salinity effects on plants: a review. Ecotox. Environ. Safe. 60: 324-349.
  • Ramírez-Martínez, M., Trejo-Téllez, L., Gómez- Merino, F., Sánchez-García, P., Rodríguez- Mendoza, M.N., Sandoval-Villa, M., 2009. Potassium/calcium ratios of the nutrient solution on tulip nutrient status. Acta Hort 843: 119-122.
  • Shillo, R., Ding, M., Pasternak, D., Zaccai, M., 2002. Cultivation of cut flower and bulb species with saline water. Sci. Hortic. 92: 41-54.
  • Townsend, A.M., Kwolek, W.F., 1987. Relative susceptibility of thirteen pine species to sodium chloride spray. J Arboriculture 13: 225-227.
  • Tuna, A.L., Kaya, C., Ashraf, M., Altunlu, H., Yokas, I., Yagmur, B., 2007. The effects of calcium sulphate on growth, membrane stability and nutrient uptake of tomato plants grown under salt stress. Environ. Exp. Bot. 59: 173- 178.
  • Türkoglu, N., Erez, M.E., Battal, P., 2011. Determination of physiological responses on hyacinth exposed to different salt concentrations. Afr. J Biotechnol. 10(32): 6045-6050.
  • Valdez-Aguilar, L.A., Grieve, C.M., Poss, J., 2009a. Salinity and alkaline pH in irrigation water affect marigold plants: I. growth and shoot dry weight partitioning. HortScience 44(6): 1719-1725.
  • Valdez-Aguilar, L.A., Grieve, C.M., Poss, J., Layfield, D.A., 2009b Salinity and alkaline pH in irrigation water affect marigold plants: II. Mineral ion relations. HortScience 44(6): 1726-1735.
  • Veatch-Blohm, M.E., Chen, D., Hassett, M., 2013. Narcissus cultivar differences in response to saline irrigation when application began either pre- or postemergence. HortScience 48: 322-329.
  • Veatch-Blohm, M.E., Morningstar, L., 2011. Calla lily growth and development under saline irrigation. HortScience 46: 222-227.
  • Villora, G., Moreno, A., Pulgar, G., Romero, L., 2000. Yield improvement in zucchini under salt balance. Sci. Hortic. 86: 175-183. micronutrient
There are 28 citations in total.

Details

Primary Language Turkish
Journal Section Research Articles
Authors

Nezihe Koksal This is me

Ilknur Kulahlıoglu This is me

Ebru Ertargın This is me

Ayfer ALKAN Torun This is me

Publication Date March 1, 2014
Submission Date January 26, 2015
Published in Issue Year 2014 Volume: 1 Issue: Özel Sayı-1

Cite

APA Koksal, N., Kulahlıoglu, I., Ertargın, E., Torun, A. A. (2014). Relationship between salinity stress and ion uptake of hyacinth (Hyacinthus orientalis). Turkish Journal of Agricultural and Natural Sciences, 1(Özel Sayı-1), 578-583.