Effect of zeolite and potassium on some of characteristic and yield of chickpea (Cicer arietinum L.) in the different irrigation management

Document Type : Original Articles

Authors

1 University of Gonbad Kavoos, Gonbad Kavoos, Iran

2 Agricultural and Natural Resources Research and Education of Hamadan, Hamadan, Iran

3 Center of Agricultural Research and Natural Resources of Gorgan, Gorgan, Iran

Abstract

Chickpea (Cicer arietinum L.) is grown predominantly in Mediterranean environment where yield is faced with abiotic stresses such as water deficit. Due to shortage of water resources and sequential cropping in many areas, it is necessary to manage the irrigation water, because this would cause inadequate irrigation. Therefore, in order to achieve the maximum yield and efficient use of available water, prevention of waste of water is necessary. One of the reasons for the use of zeolite in agricultural production and productivity of soil, is the moisture absorption and maintain the property for a long time and prevent environmental pollution. Zeolite acts as a slow release fertilizer, giving the plant access to water and nutrients for more times. Also zeolite caused significant saving in water use and reducing the amount of fertilizer. Thus helping to decrease the amount of water used per crop and the contamination of aquifers due to overuse of chemical fertilizers. Adjustment of drought negative effects by maintaining inflammation pressure, transpiration reduction and increase of water use efficiency has been through consumption of potassium. Although potassium unlike N and P, does not enter into the composition of any product. Potassium has an important role either direct or indirect, under different environments, in major plant processes such as photosynthesis, respiration, protein synthesis, enzyme activation, water uptake, osmoregulation, growth and yield of plant. Considering the importance of chickpea in nutrition of human and weather conditions of arid and semiarid, supplementary irrigation is necessity for cultivation of this plant in Iran; with regard to role of zeolite and potassium in reducing sensitivity of plants to water deficit and since there is limited published work about the effect of application of potassium sulphate combined with zeolite, this research was conducted to compare their effects on some of characteristics and yield of chickpea.
 
Materials & Methods
In order to study the effect of different irrigation regimes and different Zeolite and Potassium application on quality characteristics and yield of chickpea cv Azad, an experiment was conducted as split factorial arrangement in a randomized complete block design with three replications in Research Station of Agriculture and Natural Resource Research center of Hamadan, during 2015 cropping season. Main plot included supplementary irrigation (check as non-irrigation, supplementary irrigation at flowering, irrigations at both flowering and pod setting and irrigation at pod setting stages) and subplot included three levels of zeolite (Z0=0, Z1=15 and Z2=30 ton ha-1) and three levels of potassium fertilizer (K0=0, K1=150 and K2= 250 kg ha-1 K2SO4) that located as split factorial in each sub plot. In this study, the amount of proline, potassium, protein, chlorophyll content (flowering and pod setting stage), seed yield and Plant weight were determined. Software SAS Ver. 9.1 was used for the statistical analysis and the means were compared by using Least Significant Difference (LSD) test at 0.05 level of significance.
 
 Results & Discussion
The results showed that the different irrigation regimes, Zeolite and Potassium fertilizer levels had significant effect on proline, potassium, protein, chlorophyll (flowering stage), chlorophyll (pod setting stage) and seed yield. The results indicated that drought stress significantly decreased leaf potassium and leaf chlorophyll whereas protein percent and proline were increased. Interaction between irrigation and Zeolite was significant except for chlorophyll (pod setting). In this study, the highest plant weight and seed yield were obtained under irrigations at both flowering and pod setting along with 30 ton ha-1 zeolite. Enhanced proline accumulation during stress indicates that proline is thought to play a cardinal role as an osmoregulatory solute in plants. The flowering stage in chickpea cultivars is the most sensitive stage to drought stress and in deficit water condition supplemental irrigation in this stage may considerably increases yield of chickpea.
 
Conclusion
Production in dry land farming systems in Iran is limited by deficiency of water. Chickpea has good potential to increase production in dry land conditions. Zeolite and potassium consumption can be positive effects on yield and quality characteristic of chickpea in severity and moderately stress conditions. It is concluded that zeolite and potassium consumption with ameliorate damages due to water stress could be effective on plant and formation economical yield in conditions of Hamadan region. Zeolite application in lands which are exposure to late season drought stress can keep soil water content and improve seed yield and production. Therefore, considering water shortage in drought area of the country, application of zeolite can be useful to save more water that leads to produce more yield. According to results of this study, potassium sulfate consumption has been enhanced 8 to 13 percent grain yield.

Keywords


  1. Ahmadi, A., and Bikr, D.A. 2000. Stomatal and nonstomatal militants of photosynthesis under water stress conditions in wheat plant. Iranian Journal of Agricultural Science 31: 813-826. (In Persian with English Summary).
  2. Ahmadi Mousavi, A., Manouchehri Kalantari, Kh., and Torkzade, M  . Effect a kind of berasinoestroeed on Malondealdeid, proline, chlorophyll in drought stress. Biology Journal 4: 259-267. (In Persian with English Summary).
  3. Alexieva, V., Sergiev, I., Mapelli, S., and Karanove, E. 2001. The effect of drought and ultraviolet radiation on growth and stress markers in pea and wheat. Journal of Plant Cell Environment 24: 1337-1344.
  4. Almodares, A., Hadi, M.R., Ranjbar, M., and Taheri, R. 2007. The effect of nitrogen treatments, cultivars and harvest stages on stalk yield and sugar content in sweet sorghum: Asian Journal of Plant Sciences 6 (2): 423-426.
  5. Amiri Dehahmadi, S.R., Parsa, M., and Ganjali, A. 2010. The effect of drought stress at different phonological stages on morphological traits and yield components of chickpea under greenhouse conditions. Bimonthly Iranian Journal of Field Crop Research 8(1): 157-166. (In Persian with English Summary).
  6. Asilan, K. 2016. Effect of water deficit stress on soluble sugars, proline, protein and chlorophyll content in Sunflower (Helianthus annuus ) hybrids. Iranian Journal of Filed Crop Science 47(2): 175-184. (In Persian with English Summary).
  7. Bahador, M., Ebdali Mashhadi, A., Siadat, A., Fathi, G., and Lotfi Jalalabadi, A. 2016. Effect of zeolite and seed priming on nitrogen, chlorophyll and seed yield of grass pea. Journal of Plant Process and Function 4(11): 137-147. (In Persian).
  8. Bates, I., Waldern, R.P., and Teare, I.D. 1973. Rapid determination of free Proline for water stress studies. Journal of Plant and Soil 39: 205-207.
  9. Beiknejad, S., Azizi, M., Rameh, V., and Afzali, M. 2013. Effect of potassium and Mg on yield and yield component of soybean. (Abstract). In: Abstract Book of the 11th Iranian Crop Science Congress. September 2013. Shahid Beheshti Agricultural Organization. p. 3035. (In Persian).
  10. Chehelgerdi, A., Saffari, M., and Abdolshahi, R. 2015. Effect of super absorbent polymer, potassium sulphate and farmyard manure on physiological characteristics of millet (Setaria italic ) under optimum irrigation and drought stress conditions. Journal of Crop Production 7(2): 43-60. (In Persian with English Summary).
  11. Daneshian, J., Majidi Hrvan, A., and Jonoubi, P. 2002. The effect of drought stress and different amounts of potassium on quantitative and qualitative characteristics of soybean. Journal of Agriculture Sciences 8(1): 108-95. (In Persian).
  12. Dogounchi, A., Biabani, A., Sabouri, H., Gholizadeh, A., Esmaeeli, M., Romani, A., and Jaafarzadeh, M. 2016. Effect of zeolite and urea manure with azospirillum on yield on yield and yield of components of wheat. Journal of Agricultural Research, Education and Extension organization 1(1): 41-53. (In Persian).
  13. Domadar Reddy, D., Subba, A., and Rupa, T. R. 2000. Effect of continuous use of cattle manure and fertilizer phosphorus on crop yield and soil organic in a vertical. Journal of Bioresearch Technology 75: 113-118.
  14. Fanaee, H.R., Galavi, M., Kafi, M., Ghanbari, A., and Shirani Rad, A. 2010. Effect of potassium fertilization and irrigation on yield and water use efficiency of canola and Indian mustard species ( napus. L. and B. juncea L.). Iranian Journal of Field Crop Science 11(3): 273-291. (In Persian with English Summary).
  15. Ganjeali, A., and Nezami, A. 2008. Ecophysiology and Yield Barriers in Pulse C In: M.Parsa and Bagheri A. (Eds.). Pulses. Jehad Daneshgahi Mashhad Publisher. (In Persian).
  16. Ghazavi, R. 2015. The application effects of natural zeolite on soil runoff, soil drainage and some chemical soil properties in arid land area. International Journal of Innovation and Applied Studies 13(1): 172-177.
  17. Ghorbanli, M., and Niyakan, M. 2005. Effect of drought stress on protein, proline, phenol and nitrate redoctas anzyme in soybean (gorgane 3). Oloom Journal of Tarbiat Moalem University 1: 537-551. (In Persian with English Summary).
  18. Hayati, A., Ramroudi, M., and Galavi, M. 2012. Effect of timing of potassium application on Millet (Setaria italica) yield and grain protein content in different irrigation regimes. Journal of Crop Production and Processing 1(2): 35-44. (In Persian with English Summary).
  19. Heidari, M., and Asgharipour, M.R. 2012. Effect of potassium sulphate on yield and component yield of Sorghum (Sorghum bicolor) under drought stress. Iranian Journal of Field Crops Research 10(2): 374-381. (In Persian).
  20. Imanzadeh, B., Yarnia, M., and RahimzadehKhoiy, F. 2014. Effect of soil use and spraying of potassium sulfate and different irrigation intervals on grain related trains in maize 704 in Khoda Afarin. Journal of Biodiversity and Environmental Sciences 4(3): 92-100.
  21. Kafi, M., Borzouei, A., Salehi, M., Kamandi, A., Masoomi, A., and Nabati, J. 2009. Physiology of environmental stresses in plants. Jihad Daneshgahi of Mashhad Publishers. 504 pp.
  22. Khodami, S., Shirani Rad, A.H., Delkhosh, B., and NoorMohamadi, Gh. 2013. Effect of different potassium levels and different humidity conditions, in the use of zeolite and disuse zeolite in safflower. Annals of Biological Research 4(8):56-60.
  23. Krouma, A. 2010. Plant water relations and photosynthetic activity in three Tunisian chickpea (Cicer arietinum ) genotype subjected to drought.  Turkish Journal of Agriculture and Forestry 34 (3): 257-264.
  24. Malakouti, M.J., and Homaee, M. 2005. Soil Fertility of Arid and Semi-Arid Regions "Difficulties and Solutions". 2nd, ed. Tarbiat Modarres University P 435 pp.
  25. Mirzaee, M.R., and Rezvani, M. 2006. Effect of water deficit on quality of sugar beet at different growth stages. Agronomy Journal (Pajouhesh & Sazandegi) 23(1): 29-42. (In Persian(.
  26. Mirzakhani, M., Hemmati, Z., Sajedi, A. 2015. Response agronomic and physiologic wheat traits to drought stress and application of zeolite. Journal of Agronomy Research in Iran 13(1): 173-183. (In Persian with English Summary).
  27. Mollavaly, M., Bolandnazar, S., and Tabatabai, S.J. 2009. The effect of different amounts of ammonium nitrate and potassium sulfate growth characteristics and yield of onion. Journal of Agriculture Science 19(2): 227-239. (In Persian with English Summary).
  28. Momeni, F., Ghobadi, M., Jalali, S., and Shekari, P. 2015. Response of physiolgical characteristics of chickpea to Zinc and Potassium in irrigation and rainfed condition. Journal of Plant P 3(9): 71-83. (In Persian with English Summary).
  29. Mottaghi, M., Najafiyan, G., and Bihamta, M.R. 2009. Effect of terminal drought stress on grain yield and baking quality of hexapoloid wheat genotype. Iranian Journal of Crop Science 11(3): 290-306. (In Persian with English Summary).
  30. Naseri, R., Siyadat, S.A., Soleymanifard, A., Soleymani, R., and Khosh Khabar, H. 2011. Effect of planting date and density on yield, yield components and protein content of three chickpea (Cicer arietinum ) cultivars under rainfed conditions in Ilam province. Iranian Journal of Pulses Research 2(2): 7-18. (In Persian with English Summary).
  31. Naseri, R., Rahimi, M.J., Siyadat, S.A., and Mirzaei, A. 2015. The effects of supplementary irrigation and different plant densities on morphological traits, yield and its components and protein content of chickpea (Cicer arietinum ) in Sirvan region in Ilam province. Iranian Journal of Pulses Research 6(1): 78-91. (In Persian with English Summary).
  32. Nasri, M. 2015. Effect of zinc foliar, potassium elements and irrigation terms of concentrations of nitrogen, phosphorus and potassium in grain and some quantitative characteristics of corn (KSC704).  International Journal of Biosciences 6(2): 15-23. (In Persian with English Summary).
  33. Nayyar, H., and Gupta, D. 2006. Differential sensitivity of C3 and C4 plants to water deficit stress: association with oxidative stress and antioxidants. Environmental and Experimental Botany 58: 106-113.
  34. Nazarli, H., Zardashti, M.R., Darvishzadeh, R., and Najafi, S. 2010. The effect of water stress and polymer on water use efficiency, yield and several morphological traits of sunflower under greenhouse condition. Notulace Scientia Biologicae 2(4): 53-58. (In Persian).
  35. NiariKhamssi, N., Ghassemi Golezani, K., ZehtabSalmasi, S., and Najaphy, A. 2010. Effect of water deficit stress on field performance of chickpea cultivars. African Journal of Agriculture Research 5(15): 1973-1977.
  36. Oneill, P.M., Shanahan, J.F., and Schepers, J.S. 2006. Use chlorophyll florescence assessments to differentiate corn hybrid respond to variable water conditions Journal of Crop Science 46(2): 681-687.
  37. Pirdashti, H., Tahmasebi-Sarvestani, Z., and Bahmanyar, A. 2009. Comparison of physiological responses among four contrast rice cultivars under drought stress conditions. World Academy of Science, Engineering and Technology 49: 52-54.
  38. Pirzad, A., Shakiba, M.R., Zehtab-Salmasi, , Mohammadi, S.A., Darvishzadeh, R., and Samadi, A. 2011. Effect of water stress on leaf relative water content, chlorophyll, proline and soluble carbohydrates in (Matricaria chamomilla L.). Journal of Medicinal Plants Research 5(12): 2483-2488.
  39. Prez-Cabalero, R., Gill, J., Benitez, C., and Gonzalez, J.L. 2008. The effect of adding zeolite to soils in order to improve the N-K nutrition of olive trees. American Journal of Agricultural and Biological Science 2(1):321-324.
  40. Rabbani, J., and Emam, Y. 2011. Yield response of maiz hybrids to drought stress at different growth stages. Journal of Crop Production and Processing 1(2): 65-78. (In Persian with English Summary).
  41. Sabaghpour, S.H., Sadeghi. E., and Malhotra, R.S. 2003. Present status and future prospects of chickpea cultivation in Iran. (Abstract). In: Abstract Book of the International Chickpea Conference January 20-22, Indira Gandhi Agicultural University, Raipur Chhattisgarh, India.p. 436-443.
  42. Sabaghpour, S.H. 2015. Strategic Framework for Food Legume R Nashar and Entesharat Organization. 417pp.
  43. Sanchez, F.J., Manzanares, M., Andres, E.F., Tenorio, J.L., and Ayerbe, L. 1998. Turgor maintenance, osmotic adjustment and soluble sugar and proline accumulation in 49 pea cultivars in response to water stress. Journal of Field Crop Research 59: 225-235.
  44. Serraj, R., and Sinclair, T.R. 2002. Osmolyte accumulation: can it really help increase crop yield under drought conditions? Plant Cell Environment 25: 333-341.
  45. Siva Nageswara Rao, D., Naidu, D., and Ashoka Rani, Y. 2015. Effect of foliar nutrition on antioxident enzymes, photosynthetic rate, dry matter production and yield of Mung Bean under receding soil moisture condition. International Journal of Pure & Applied Bioscience 3(1): 115-123.
  46. Thalooth, A.T., Tawfik, M.M., and Magda Mohamed, H. 2006. A comparative study on the effect of foliar application of zinc, potassium and magnesium on growth, yield and some chemical constituents of Mung Bean plants grown under water stress conditions. World Journal of Agriculture Sciences 2(1): 37-46.
  47. Valadabadi, S.A.R., Aliabadi Farahani, H., and Khalvati, M.A. 2009. Evaluation of grain growth of corn and sorghum under K2O application and irrigation according. Asian Journal of Agricultural Sciences 1: 19-24.
  48. Zaferanieh, M., Nezami, A., Parsa, M., Porsa, H., and Bagheri A. 2010. Evaluation of fall sowing of cold tolerant chickpea (Cicer arietinum ) germplasms under complementary irrigation in Mashhad condition: 2- Yield and yield components. Iranian Journal of Field Crop Research 7(2): 483-492. (In Persian with English Summary).
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