Araştırma Makalesi
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Yıl 2019, Cilt: 9 Sayı: 3, 1737 - 1746, 01.09.2019
https://doi.org/10.21597/jist.498409

Öz

Kaynakça

  • Abdalla MM, El-Khoshiban NH, 2007. The Influence of Water Stress on Growth, Relative Water Content, Photosynthetic Pigments, Some Metabolic and Hormonal Contents of Two Triticium aestivum Cultivars. Journal of Applied Sciences Research, 3 (12): 2062-2074.
  • Anonymous, 2016a. Food Outlook, http://www.fao.org/docrep/016/al993e/al993e00.pdf. 05.11.2016
  • Anonymous, 2016b. Statistics of Agriculture. Statistics of Plant Production, http://www.tuik.gov.tr/UstMenu.do?metod=temelist. 05.11.2016.
  • Ayas S, Demirtas C, 2009. Deficit Irrigation Effects on Cucumber (Cucumis sativus L. Maraton) Yield in Unheated Greenhouse Condition. Journal of Food, Agriculture & Environment,7 (3,4) : 645 - 649.
  • Bajji M, Kinet JM, Lutts S, 2002. The Use of the Electrolyte Leakage Method for Assessing Cell Membrane Stability as A Water Stress Tolerance Test in Durum Wheat. Plant Growth Regulation, 36 (1): 61-70.
  • Barkosky RR, Einhellig FA, 1993. Effects of Salicylic Acid on Plant Water Relationship, Journal of Chemical Ecology,19, 237-247.
  • Beeflink WG, Rozema J, Huiskes AEL, 1985. Ecology of Coastal Vegetation. 2nd Edn., W. Junk Publication. USA. ISBN: 9061935318, pp: 640.
  • Blum A, Ebrecon A, 1981. Cell membrane stability as measure of drought and heat tolerance in wheat. Crop Science; 21:43–7.
  • Bray JR, 1963. Root production and the estimation of net productivity. Canadian Journal of Botany, 41(1), 65-72.
  • Canakci S, Munzuroglu O, 2006. Effects of Acetylsalicylic Acid on Growth and Transpiration Rate of Corn (Zea mays L.) Seedlings. Science and Engineering Journal of Firat University. (4), 479 – 484.
  • Canakci S, 2010. The effects of Salicylic Acid and ferulic acid on germination, various grovth parameters and amount of pigments on barley (Hordeum vulgare L.) seeds.Firat University Journal of Science., 22 (1), 37-45.
  • Coban SS, 2007. Effect Of Salicylic Acid On Physiological Parameters Symptomatic For Drought Stress And Mineral Nutrition Of Chickpea Genotypes. Master Thesis. Ankara University Graduate School of Natural and Applied Sciences, Department of Soil Science.
  • Cuevas E, Baeza P, Lissarrague JR, 2006. Variation in stomatal behaviour and gas exchange between mid-morning and mid-afternoon of north-south oriented grapevines (Vitis vinifera L. cv. tempranillo) at different levels of soil water availability, Science Horticultural, 108, 173-180.
  • El-Tayeb MA, 2005. Response of Barley Grains to The Interactive Effect of Salinity and Salicylic Acid. Plant Growth Regulation,45: 215-224.
  • Ferreira ME, Satagopan J, Yandell B, Williams PH, Osborn TC, 1995. Mapping loci controlling vernalization requirement and flowering time in Brassica napus. Theoretical and Applied Genetics,90: 727- 732.
  • Gokmen E, 2011. Some Physiological And Biochemical Showed Chickpea Genotypes Against Drought Stress Determination Reactions.MS Thesis. The Graduate School of Natural and Applied Science of Selcuk University the Degree of Master of Science in Field Crops. Konya.
  • Guneri Bagci E, 2010. Determination of Physiological and Biochemical Parameters Symptomatic for Oxidative Stress in Chickpea (Cicer arietinum L.) Cultivars Under Drought.Ph.D. Thesis. Ankara University, Graduate School of Natural ve Applied Sciences, Department of Soil Science. Ankara
  • Gunes A, Adak MS, Inal A, Alpaslan M, Eraslan F, Cicek N, Kayan N, Soylu B, 2006. Oxidatie Stress Depending on Drought and Determination Physiological Tolerance Mechanism in Chickpea and Lentil cultivars. Scientific Research Project. Ankara University.
  • Jagtap V, Bhargava S, Streb P, Feierabend J, 1998. Comparative effect of water , heat and light stress on photosynthetic reaction in Sorghum biocolor (L.) Moench. Journal Experimental Botany. 49: 1715-1721.
  • Jones MM, Turner NC, 1978. Osmotic adjustment in leaves of Sorghumin response to water deficits. Plant Physiology, 61, 122–126.
  • Jung B, Alsanius, BW, Jensen P, 1999. Effects of some plant and microbial metabolites on germination and emergence of tomato seedlings. In International Symposium on Growing Media and Hydroponics. 548(pp. 603-610).
  • Kabiri R, Nasibi F, Farahbakhsh H, 2014. Effect of exogenous salicylic acid on some physiological pa-rameters and alleviation of drought stress in Nigella sativa plant under hydroponic culture. Plant Protect. Science,50: 43–51.
  • Kacar B, 1995. Chemical Analysis of Plant and Soil III. A.U.A.F. Publications of Education, Research and Development Foundation. (3), pp: 255.
  • Kaydan D, Yagmur M, Okut N, 2007. Effects of Salicylic Acid on the Growth and Some Physiological Characters in Salt Stressed Wheat (Triticum aestivum L.). Ankara University, Faculty of Agriculture, Journal of Agricultural Sciences,13 (2): 114-119.
  • Kaydan D, Yagmur M, 2008. A Research on Yield and Yield Components of Some Bread Wheat (Triticum aestivum L.) Varieties in Van Ecological Conditions, Ankara University, Faculty of Agricultural Sciences, 14 (4), 350-358.
  • Khaliq I, Shah SAH, Ahsan M, 1999. Evaluation of Spring Wheat ( Triticum aestivum L.) For Drought Field Conditions. Pakistan Journal of Biological Sciences, 2 (3): 1006-1009.
  • Khan W, Prithiviraj B, Smith DL, 2003. Photosynthetic responses of corn and soybean to foliar application of salicylates. Journal of Plant Physiology. 160, 485–492.
  • Kulshreshta S, Mishra DP, Gupta RK, 1987. Changes in content of cholorophyll, proteins and lipids in whole choloplast and chloroplast membrane fractions at different leaf water potentials in drought resistant and sensitive genotypes of wheat. Photosynthetica, 21(1): 65-70.
  • Kusvuran S, 2010. Relationships Between Physiological Mechanisms of Tolerances to Drought And Salinity in Melons. Ph. D. Thesis. Department of Horticulture Institute of Natural and Applied Sciences University of Cukurova. Adana.
  • Kusvuran S, Dasgan HY, Abak K, 2011. Responses of different melon genotypes to drought stress. Yuzuncu Yil University Journal of Agricultural Sciences, 21(3): 209-219.
  • Larque-Saavedra A, 1978. The antitranspirant effect of acetylsalicylic acid on Phaseolus vulgaris. Physiology Plant.,43: 126–128.
  • Mensah JK, Obadoni BO, Eroutor PG, Onome-Irieguna F, 2006. Simulated flooding and drought effects on germination, growth and yield parameters of Sesame (Seasamum indicum L.). African Journal of Biotechnology., 5: 1249-1253.
  • Monti LM, 1986. Breeding Plants for Drought Resistance: The Problem and its Relevance. Drought Resistance in Plants. Meeting Held in Amalfi, 19 to 23 October 1986, Belgium, 1-8.
  • Munns R, Shazia H, Rivelli AR, James RA, Condon AG, Lindsay MP, 2002. Avenues for increasing salt tolerance of crops and the role of physiologically based selection traits. Plant Soil. 247: 93–105.
  • Mutlu S, Karadagoglu O, Atici O, Tasgin E, Nalbantoglu B, 2013. Time-dependent effect of salicylic acid on alleviating cold damage in two barley cultivars differing in cold tolerance. Turkish Journal of Botany, 37: 343-349.
  • Nemeth M, Janda T, Hovarth E, Paldi E, Szali G, 2002. Exogenous salicylic acid increases polyamine content but may decrease drought tolerance in maize. Plant Science,162: 569–574.
  • Ohashi Y, Nakayama N, Saneoka H, Mohapatra KP, Fujita K, 2009. Differences in the Responses of Stem Diameter and Pod Thickness To Drought Stress During the Grain Filling Stage in Soybean Plants. Acta Physiol Plant, 31: 271–277.
  • Perez-Lopez U, Robredo A, Lacuesta M, Mena-Petite A, Munoz-Rueda A, 2008. The Impact of Salt Stress on the Water Status of Barley Plants is Partially Mitigated by Elevated CO2. Environmental and Experimental Botany,66 (3): 463-470.
  • Praxedes SC, DaMatta FM, Loureiro ME, Ferrao MAG, Cordeiro AT, 2006. Effects of long-term soil drought on photosynthesis and carbohydrate metabolism in mature robusta coffee (Coffea canephora Pierre var. kouillou) leaves, Environmental and Experimental Botany,56, 263-273.
  • Premchandra GS, Saneoka H, Ogata S, 1990. Cell membrane stability, an indicator of drought tolerance as affected by applied nitrogen in soybean. Journal Agricultural Science Cambridge. 115, 63-66.
  • Sairam RK, 1994. Effect of moisture-stress on physiological activities of two contrasting wheat genotypes. Indian Journal of Experimental Biology, 32, 594-594.
  • Singh B, Usha K, 2003. Salicylic acid induced physiological and biochemical changes in wheat seedlings under water stress. Plant Growth Regulation. 39, 137-141.
  • Tavakkolli E, Fatehi F, Rengasamy P, McDonald G, 2012. A comparison of hydroponic and soil-based screening methods to identify salt tolerance in the field in barley. Journal of Experimental Botany, 63(10): 3853-3868.
  • Turkyilmaz B, Aktas LY, Guven A, 2005. Salicylic acid induced some biochemical and physiological changes in Phaseolus vulgaris L.Science and Engineering Journal of Firat University.17 (2), 319-326.

The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress

Yıl 2019, Cilt: 9 Sayı: 3, 1737 - 1746, 01.09.2019
https://doi.org/10.21597/jist.498409

Öz

This research was conducted at Department of Field Crops in Faculty of Agriculture in Yüzüncü Yıl University in 2014 , in the growth chamber under controlled conditions in terms of temperature and light, for 5 bread wheat varities (Doğu-88, Altay-2000, Bezostaja1, Alparslan and Tir mixed population line), for two different irrigation levels (using 40% of the field capacity for drought and 60% for control), through the application of two different salicylic acid dosage (0.1 mM kg-1 SA and 1.0 mM kg-1 SA), with four repetitions in 80 pots with 4 kg soil capacity, with respect to randomized experimental design principles. In terms of the investigated characteristics, salicylic acid applications were found to be effective for the Bezostaja1, Doğu-88, Altay-2000 varieties and Tir wheat population line by enhancing their tolerance to drought and exhibited differences with respect to the salicylic acid doses (0.1 mM kg-1 and1.0 mM kg-1). The characteristics, which were adversely affected when compared to the control application under drought conditions, were commonly positively affected by the salicylic acid applications.

Kaynakça

  • Abdalla MM, El-Khoshiban NH, 2007. The Influence of Water Stress on Growth, Relative Water Content, Photosynthetic Pigments, Some Metabolic and Hormonal Contents of Two Triticium aestivum Cultivars. Journal of Applied Sciences Research, 3 (12): 2062-2074.
  • Anonymous, 2016a. Food Outlook, http://www.fao.org/docrep/016/al993e/al993e00.pdf. 05.11.2016
  • Anonymous, 2016b. Statistics of Agriculture. Statistics of Plant Production, http://www.tuik.gov.tr/UstMenu.do?metod=temelist. 05.11.2016.
  • Ayas S, Demirtas C, 2009. Deficit Irrigation Effects on Cucumber (Cucumis sativus L. Maraton) Yield in Unheated Greenhouse Condition. Journal of Food, Agriculture & Environment,7 (3,4) : 645 - 649.
  • Bajji M, Kinet JM, Lutts S, 2002. The Use of the Electrolyte Leakage Method for Assessing Cell Membrane Stability as A Water Stress Tolerance Test in Durum Wheat. Plant Growth Regulation, 36 (1): 61-70.
  • Barkosky RR, Einhellig FA, 1993. Effects of Salicylic Acid on Plant Water Relationship, Journal of Chemical Ecology,19, 237-247.
  • Beeflink WG, Rozema J, Huiskes AEL, 1985. Ecology of Coastal Vegetation. 2nd Edn., W. Junk Publication. USA. ISBN: 9061935318, pp: 640.
  • Blum A, Ebrecon A, 1981. Cell membrane stability as measure of drought and heat tolerance in wheat. Crop Science; 21:43–7.
  • Bray JR, 1963. Root production and the estimation of net productivity. Canadian Journal of Botany, 41(1), 65-72.
  • Canakci S, Munzuroglu O, 2006. Effects of Acetylsalicylic Acid on Growth and Transpiration Rate of Corn (Zea mays L.) Seedlings. Science and Engineering Journal of Firat University. (4), 479 – 484.
  • Canakci S, 2010. The effects of Salicylic Acid and ferulic acid on germination, various grovth parameters and amount of pigments on barley (Hordeum vulgare L.) seeds.Firat University Journal of Science., 22 (1), 37-45.
  • Coban SS, 2007. Effect Of Salicylic Acid On Physiological Parameters Symptomatic For Drought Stress And Mineral Nutrition Of Chickpea Genotypes. Master Thesis. Ankara University Graduate School of Natural and Applied Sciences, Department of Soil Science.
  • Cuevas E, Baeza P, Lissarrague JR, 2006. Variation in stomatal behaviour and gas exchange between mid-morning and mid-afternoon of north-south oriented grapevines (Vitis vinifera L. cv. tempranillo) at different levels of soil water availability, Science Horticultural, 108, 173-180.
  • El-Tayeb MA, 2005. Response of Barley Grains to The Interactive Effect of Salinity and Salicylic Acid. Plant Growth Regulation,45: 215-224.
  • Ferreira ME, Satagopan J, Yandell B, Williams PH, Osborn TC, 1995. Mapping loci controlling vernalization requirement and flowering time in Brassica napus. Theoretical and Applied Genetics,90: 727- 732.
  • Gokmen E, 2011. Some Physiological And Biochemical Showed Chickpea Genotypes Against Drought Stress Determination Reactions.MS Thesis. The Graduate School of Natural and Applied Science of Selcuk University the Degree of Master of Science in Field Crops. Konya.
  • Guneri Bagci E, 2010. Determination of Physiological and Biochemical Parameters Symptomatic for Oxidative Stress in Chickpea (Cicer arietinum L.) Cultivars Under Drought.Ph.D. Thesis. Ankara University, Graduate School of Natural ve Applied Sciences, Department of Soil Science. Ankara
  • Gunes A, Adak MS, Inal A, Alpaslan M, Eraslan F, Cicek N, Kayan N, Soylu B, 2006. Oxidatie Stress Depending on Drought and Determination Physiological Tolerance Mechanism in Chickpea and Lentil cultivars. Scientific Research Project. Ankara University.
  • Jagtap V, Bhargava S, Streb P, Feierabend J, 1998. Comparative effect of water , heat and light stress on photosynthetic reaction in Sorghum biocolor (L.) Moench. Journal Experimental Botany. 49: 1715-1721.
  • Jones MM, Turner NC, 1978. Osmotic adjustment in leaves of Sorghumin response to water deficits. Plant Physiology, 61, 122–126.
  • Jung B, Alsanius, BW, Jensen P, 1999. Effects of some plant and microbial metabolites on germination and emergence of tomato seedlings. In International Symposium on Growing Media and Hydroponics. 548(pp. 603-610).
  • Kabiri R, Nasibi F, Farahbakhsh H, 2014. Effect of exogenous salicylic acid on some physiological pa-rameters and alleviation of drought stress in Nigella sativa plant under hydroponic culture. Plant Protect. Science,50: 43–51.
  • Kacar B, 1995. Chemical Analysis of Plant and Soil III. A.U.A.F. Publications of Education, Research and Development Foundation. (3), pp: 255.
  • Kaydan D, Yagmur M, Okut N, 2007. Effects of Salicylic Acid on the Growth and Some Physiological Characters in Salt Stressed Wheat (Triticum aestivum L.). Ankara University, Faculty of Agriculture, Journal of Agricultural Sciences,13 (2): 114-119.
  • Kaydan D, Yagmur M, 2008. A Research on Yield and Yield Components of Some Bread Wheat (Triticum aestivum L.) Varieties in Van Ecological Conditions, Ankara University, Faculty of Agricultural Sciences, 14 (4), 350-358.
  • Khaliq I, Shah SAH, Ahsan M, 1999. Evaluation of Spring Wheat ( Triticum aestivum L.) For Drought Field Conditions. Pakistan Journal of Biological Sciences, 2 (3): 1006-1009.
  • Khan W, Prithiviraj B, Smith DL, 2003. Photosynthetic responses of corn and soybean to foliar application of salicylates. Journal of Plant Physiology. 160, 485–492.
  • Kulshreshta S, Mishra DP, Gupta RK, 1987. Changes in content of cholorophyll, proteins and lipids in whole choloplast and chloroplast membrane fractions at different leaf water potentials in drought resistant and sensitive genotypes of wheat. Photosynthetica, 21(1): 65-70.
  • Kusvuran S, 2010. Relationships Between Physiological Mechanisms of Tolerances to Drought And Salinity in Melons. Ph. D. Thesis. Department of Horticulture Institute of Natural and Applied Sciences University of Cukurova. Adana.
  • Kusvuran S, Dasgan HY, Abak K, 2011. Responses of different melon genotypes to drought stress. Yuzuncu Yil University Journal of Agricultural Sciences, 21(3): 209-219.
  • Larque-Saavedra A, 1978. The antitranspirant effect of acetylsalicylic acid on Phaseolus vulgaris. Physiology Plant.,43: 126–128.
  • Mensah JK, Obadoni BO, Eroutor PG, Onome-Irieguna F, 2006. Simulated flooding and drought effects on germination, growth and yield parameters of Sesame (Seasamum indicum L.). African Journal of Biotechnology., 5: 1249-1253.
  • Monti LM, 1986. Breeding Plants for Drought Resistance: The Problem and its Relevance. Drought Resistance in Plants. Meeting Held in Amalfi, 19 to 23 October 1986, Belgium, 1-8.
  • Munns R, Shazia H, Rivelli AR, James RA, Condon AG, Lindsay MP, 2002. Avenues for increasing salt tolerance of crops and the role of physiologically based selection traits. Plant Soil. 247: 93–105.
  • Mutlu S, Karadagoglu O, Atici O, Tasgin E, Nalbantoglu B, 2013. Time-dependent effect of salicylic acid on alleviating cold damage in two barley cultivars differing in cold tolerance. Turkish Journal of Botany, 37: 343-349.
  • Nemeth M, Janda T, Hovarth E, Paldi E, Szali G, 2002. Exogenous salicylic acid increases polyamine content but may decrease drought tolerance in maize. Plant Science,162: 569–574.
  • Ohashi Y, Nakayama N, Saneoka H, Mohapatra KP, Fujita K, 2009. Differences in the Responses of Stem Diameter and Pod Thickness To Drought Stress During the Grain Filling Stage in Soybean Plants. Acta Physiol Plant, 31: 271–277.
  • Perez-Lopez U, Robredo A, Lacuesta M, Mena-Petite A, Munoz-Rueda A, 2008. The Impact of Salt Stress on the Water Status of Barley Plants is Partially Mitigated by Elevated CO2. Environmental and Experimental Botany,66 (3): 463-470.
  • Praxedes SC, DaMatta FM, Loureiro ME, Ferrao MAG, Cordeiro AT, 2006. Effects of long-term soil drought on photosynthesis and carbohydrate metabolism in mature robusta coffee (Coffea canephora Pierre var. kouillou) leaves, Environmental and Experimental Botany,56, 263-273.
  • Premchandra GS, Saneoka H, Ogata S, 1990. Cell membrane stability, an indicator of drought tolerance as affected by applied nitrogen in soybean. Journal Agricultural Science Cambridge. 115, 63-66.
  • Sairam RK, 1994. Effect of moisture-stress on physiological activities of two contrasting wheat genotypes. Indian Journal of Experimental Biology, 32, 594-594.
  • Singh B, Usha K, 2003. Salicylic acid induced physiological and biochemical changes in wheat seedlings under water stress. Plant Growth Regulation. 39, 137-141.
  • Tavakkolli E, Fatehi F, Rengasamy P, McDonald G, 2012. A comparison of hydroponic and soil-based screening methods to identify salt tolerance in the field in barley. Journal of Experimental Botany, 63(10): 3853-3868.
  • Turkyilmaz B, Aktas LY, Guven A, 2005. Salicylic acid induced some biochemical and physiological changes in Phaseolus vulgaris L.Science and Engineering Journal of Firat University.17 (2), 319-326.
Toplam 44 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Ziraat Mühendisliği
Bölüm Tarla Bitkileri / Field Crops
Yazarlar

Yusuf Öztürkci 0000-0002-9122-5007

Diğdem Arpalı 0000-0003-1795-468X

Yayımlanma Tarihi 1 Eylül 2019
Gönderilme Tarihi 17 Aralık 2018
Kabul Tarihi 29 Mart 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 9 Sayı: 3

Kaynak Göster

APA Öztürkci, Y., & Arpalı, D. (2019). The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress. Journal of the Institute of Science and Technology, 9(3), 1737-1746. https://doi.org/10.21597/jist.498409
AMA Öztürkci Y, Arpalı D. The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress. Iğdır Üniv. Fen Bil Enst. Der. Eylül 2019;9(3):1737-1746. doi:10.21597/jist.498409
Chicago Öztürkci, Yusuf, ve Diğdem Arpalı. “The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress”. Journal of the Institute of Science and Technology 9, sy. 3 (Eylül 2019): 1737-46. https://doi.org/10.21597/jist.498409.
EndNote Öztürkci Y, Arpalı D (01 Eylül 2019) The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress. Journal of the Institute of Science and Technology 9 3 1737–1746.
IEEE Y. Öztürkci ve D. Arpalı, “The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress”, Iğdır Üniv. Fen Bil Enst. Der., c. 9, sy. 3, ss. 1737–1746, 2019, doi: 10.21597/jist.498409.
ISNAD Öztürkci, Yusuf - Arpalı, Diğdem. “The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress”. Journal of the Institute of Science and Technology 9/3 (Eylül 2019), 1737-1746. https://doi.org/10.21597/jist.498409.
JAMA Öztürkci Y, Arpalı D. The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress. Iğdır Üniv. Fen Bil Enst. Der. 2019;9:1737–1746.
MLA Öztürkci, Yusuf ve Diğdem Arpalı. “The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress”. Journal of the Institute of Science and Technology, c. 9, sy. 3, 2019, ss. 1737-46, doi:10.21597/jist.498409.
Vancouver Öztürkci Y, Arpalı D. The Effects of Salicylic Acid on The Growth and Some Physiological Properties of Bread Wheat Varieties Under Drought Stress. Iğdır Üniv. Fen Bil Enst. Der. 2019;9(3):1737-46.