Effect of Irrigation Interval, Humic Acid and Methanol Foliar Application on Morphological Traits, Yield and Yield Components of Cichorium intybus L.

Document Type : Research Article

Authors

1 Department of Agronomy, Birjand Branch, Islamic Azad University, Birjand, Iran

2 Department of Agricultural Sciences, Payame Noor University (PNU), Iran

Abstract

Introduction
Iran with mean annual precipitation of 240 mm is considered located in arid zones of the world. Water deficit reduces plant growth and development by affecting various physiological and biochemical processes. Methanol foliar application is a method which increases crop CO2 fixation in unit area. Recent investigation showed that C3 crops yield, and growth increased via methanol spray and methanol may act as C source for these crops. Generally, the major role of this substance is to prevent negative effects of stresses on crops via reduction of photo respiration. The application of organic matters, such as humic substances have inhibitory effects of drought stress by improving the physical and chemical properties of soils, increasing soil water retention and providing the nutrients during plant growth. The objective of the present study was to examine the possibility of increasing water use efficiency and tolerance to water deficit stress by using humic acid and methanol foliar application and also influence of methanol and humic acid application on yield and yield components of Cichorium intybus L. under water deficit stress in Birjand, Iran.
Materials and Methods
This research was carried out as factorial split-plot layout based on randomized complete block design with three replications in the research farm of Islamic Azad University of Birjand, Iran in 2015. In this research, irrigation interval was considered as main factor with three levels (irrigation after 70, 140 and 210 mm cumulative evaporation from evaporation pan class A), the factorial of methanol spray at two levels (0 and 21 % V/V) and humic acid at two levels (0 and 10 L.ha-1) were considered as sub factor. The texture of the soil in research farm was loam with the pH of 8.2, electrical conductivity of 3.23 dS.m-1 whose organic carbon, total N, P, and K content was 0.3%, 0.033%, 6.8 mg.kg-1 and 133 mg.kg-1 at the depth of 0-30 cm, respectively. All data were analyzed by MSTAT-C statistical software and means were compared by Duncan’s Multiple Range Test at 5% level.
Results and Discussion
The results showed that irrigation after 210 mm cumulative evaporation compared to irrigation after 70 mm of cumulative evaporation significantly reduced stem diameter, branch number of main stem and 1000-grain weight by 30.6, 46 and 35.5%, respectively. The means comparison showed that 21% V/V methanol spray significantly increased 1000- grain weight by 15.3%. Also, application of 10 L.ha-1 humic acid significantly increased stem diameter, aken number per plant, seed number per plant, 1000- seed weight and water use efficiency by 16.7, 8.9, 10.6, 13.2 and 14.3 % respectively as compared with no application of humic acid treatment. Means comparison of interaction between irrigation and methanol revealed that the highest seed yield (57.2 g.m-2) and biological yield (423.4 g.m-2) were produced under the treatment of irrigation after 70 mm cumulative evaporation with methanol spray. It seems that although methanol application at irrigation intervals after 70 and 140 mm accumulation evaporation from the evaporation pan increased seed and biological yield but methanol application in severe water deficit stress conditions (irrigation interval of after 210 mm cumulative evaporation) probably due to the reduction in stomatal conductance and absorption, has not been able to change dramatically these traits. Also, means comparison of interaction between irrigation and humic acid indicated that highest seed yield (55.5 g.m-2) and biological yield (415.1 g.m-2) were produced under the treatment of irrigation after 70 mm cumulative evaporation with humic acid application. Increasing of low water stress in vegetative growth stage reduces the absorption of water and nutrients, chlorophyll content and relative humidity of leaves, thus decreased vegetative growth, leaf photosynthesis and production of assimilate but humic acid application significantly increases chlorophyll index and relative humidity of leaves. Hence the result of these positive effects of humic acid application was the improvement of yield components and seed and biological yields of chicory, even under conditions of water deficit stress. Moreover, means comparison of interaction between irrigation and methanol showed that the highest water use efficiency for seed production (66.7 g.m-3) belonged to treatment of irrigation after 140 mm of cumulative evaporation and methanol application.
Conclusions
Overall, results of this study showed that treatment of irrigation after 70 mm cumulative evaporation with humic acid application or methanol spray could be suggested for chicory cultivation in Birjand, Iran.

Keywords

Main Subjects


  1. Amraei, B., Peknezad, F., Ebrahimi, M. A., and Subhaniyan, H. 2017. Effect of methanol foliar application and drought tension on grain yield and growth indices of soybean (Glycine max L.). Crop Physiology Journal 9 (34): 111-129. (in Persian).
  2. Armand, N., Amiri, H., and Ismaili, A. 2016. The effects of foliar application of methanol on morphological characteristics of bean (Phaseolus vulgaris L.) under drought stress condition. Iranian Journal of Field Crops Research 13 (4): 854-863. (in Persian with English abstract).
  3. Azimi, F., and Nejatzadeh, F. 2020. Effect of Methanol Spraying on Seed Yield and Mucilage of Flixweed (Descurainia sophia L.). Journal of Plant Productions (Agronomy, Breeding and Horticulture)43 (1): 81-92. (inPersian).
  4. Behdani, M. A., and Jami Al-Ahmadi, M. 2011. Response of spring safflower varieties to different irrigation distance in Birjand. Iranian Journal of Field Crops Research 8: 315-323. (in Persian with English abstract).
  5. Chang, W. C., Kim, S. C., Hwang, S. S., Choi, B. K., and Kim, S. K. 2002. Antioxidant activity and free radical scavenging capacity between Korean medicinal plants and flavonoids by assay-guided comparison. Plant Science 163: 1161-1168.
  6. Delfine, S., Tognetti, R., Desiderio, E., and Alvino, A. 2005. Effect of foliar application of N and humic acids on growth and yield of durum wheat. Agronomy for Sustainable Development 25: 183-191.
  7. Downie, A., Miyazaki, S., Bohnert, H., John, P., Coleman, J., Parry, M., and Haslam, R. 2004. Expression profiling of the response of Arabidopsis thaliana to methanol stimulation. Photochemistry 65 (16): 2305-2316.
  8. Farhadi, A., Daneshvar, M., Eisvand, H., and Nazarian Firoozabadi, F. 2018. Effects of humic acid on morpho-physiological characteristics, yield components and essential oil of Matiricaria chamomilla L. under water deficit stress. Iranian Journal of Medicinal and Aromatic Plants Research 33 (6): 1060-1071. (in Persian).
  9. Fazeli Rostampour, M., Yarnia, M., Farokhzadeh Khoee, R., Seghatoleslami, M. J., and Moosavi, G. R. 2013. Physiological response of forage sorghum to polymer under water deficit conditions. Agronomy Journal 105 (4): 1-9.
  10. Foaadeini, M., Seghatoleslami, M. J., and Moosavi, S. G. R. 2015. Effect of water deficit stress on traits of chichory (Cichorium intybus L.) in different planting dates. Iranian Journal of Medicinal Aromatic Plants 31 (3): 383-395. (in Persian with English abstract).
  11. Ghafori, A., Rezvani Moghaddam, P., Nassiri Mahallati, M., Khorramdel, S., and Ebrahimian, E. 2013. Evaluation of growth characteristics of castor bean (Ricinus communis L.) affected by organic fertilizers. 605-609 Pp. 8th Congress of Horticultural Sciences, 26-28 August. 2013. Bo Ali Sina University, Hamedan, Iran. (in Persian).
  12. Gholami, H., Saharkhiz, M. J., Raouf Fard, F., Ghani, A., and Nadaf, F. 2018. Humic acid and vermicompost increased bioactive components, antioxidant activity and herb yield of Chicory (Cichorium intybus L.). Biocatalysis and Agricultural Biotechnology 14: 286- 292.
  13. Hatami, H. 2017. The effect of zinc and humic acid applications on yield and yield components of sunflower in drought stress. Journal of Advanced Agricultural Technologies 4 (1): 36-39.
  14. Hossinzadeh, S. R., Salimi, A., Ganjeali, A., and Ahmadpour, R. 2013. Effects of foliar application of methanol on photosynthetic characteristics, chlorophyll fluorescence and chlorophyll content of chickpea (Cicer arietinum L.) under dought stress. Iranian Journal of Plant Biology 5 (18): 115-132. (in Persian with English abstract).
  15. Janbazi Roodsari, A., Asouri, M., and Amiri, E. 2015. Effect of methanol and nitrogen spraying on yield and yield components of soybeans in Gilan weather conditions. Plant Ecophysiology 7 (20): 1-14. (in Persian with English abstract).
  16. Khaled, H., and Fawy, H. A. 2011. Effect of different levels of humic acids on the nutrient content, plant growth, and soil properties under conditions of salinity. Journal of Soil and Water Resource 6 (1): 21-29.
  17. Khosravi, A. 2015. Effect of irrigation interval, foliar application of methanol and plant density on morphophysiology traits, yield and yield components of cotton. MSc Thesis, Faculty of Agriculture, Azad University of Birjand, Iran. (In Persian with English abstract).
  18. Khosravi, M. T., Mehr Afarin, A., Naghdi Badi, H. A., Haji Aghaei, R., and Khosravi, E. 2011. The Effect of Methanol and Ethanol on yield of Purple coneflower (Echinacea purpurea L.) in Karaj Region. Herbal Medicine Journal 2: 121-128. (in Persian).
  19. Kulkarni, V. V., Sivakumar, K., Singh, A. P., and Visha, P. 2014. Yield and quality characteristics of rendered chicken oil for biodiesel production. Journal Oil Chemistry Sociality 91: 133-141.
  20. Lack, Sh. 2013. Evaluation of physiological traits effective on seed yield of corn in different irrigation, nitrogen and plant density levels. Crop Physiology Journal 5 (19): 17-33. (in Persian with English abstract).
  21. Li, Y., Gupta G., Joshi, J. M., and Siyumbano, A. K. 1995. Effect of methanol on soybean photosynthesis and chlorophyll. Journal Plant Nutrition 18: 1875-1880.
  22. Mehmood, N., Zubair, M., Rizwan, K., Muhammad Shahid, N. R., and Ahmad, V. U. 2012. Antioxidant, antimicrobial and phytochemical analysis of Cichorium intybus seeds extract and various organic fractions. Iranian Journal of Pharmaceutical Research 11 (4): 1145-1151. (in Persian).
  23. Mirhajian, A. 2012. What is humic acid. Agricultural Engineering. 33: 7-16. (in Persian).
  24. Moghaddam, M., Narimani, R., Rostami, G., and Mojarab, S. 2017. Studying the Effect of Foliar Application of Methanol and Ethanol on Morphological and Biochemical Characteristics of Sweet Basil (Ocimum basilicum c.v. Keshkeni luvelou). Iranian Journal of Field Crops Research 16 (2): 345-354. (in Persian).
  25. Mousavi, S., Seghatoleslami, M., Ansarinia, E., and Javadi, H. 2012. The effect of water deficit stress and nitrogen fertilizer on yield and water use efficiency of Calendula officinalis L. Iranian Journal of Medicinal and Aromatic Plants Research 28 (3): 493-508. (in Persian).
  26. Moussavi-Nik, S. M., Salari, M., Mobasser, H. R., and Keshavarzi, M. H. B. 2011. The effect of different irrigation intervals and mineral nutrition on seed yield of ajowan (Trachyspermum Ammi). Annals of Biological Research 2 (6): 692-698.
  27. Nardi, S., Pizzeghello, D., Muscolo, A., and Vianello, A. 2002. Physiological effects of humic substances on higher plants. Soil Biology and Biochemistry 34: 1527-1536.
  28. Nasooti, R., Samavat, S., and Tehrani, M. M. 2011. Effects of humic acid fertilizer on plant and soil. Agriculture and Food 101: 53-55. (in Persian).
  29. Nourihoseini, S. M., Khorassani, R., Astaraei, A. R., Rezvani Moghadam, P., and Zabihi, H. R. 2016. Effect of different fertilizer resources and humic acid on some morphological criteria, yield and antioxidant activity of black zira seed (Bunium persicum Boiss). Applied Field Crops Research 29 (4): 87-104.
  30. Omaraei, B., Paknejad, F., Ebrahimi, M., and Sobhanian, H. 2017. Effect methanol spray and drought stress on seed yield and growth indices of soybean. Crop Physiology Journal 9 (34): 111-129. (in Persian with English abstract).
  31. Oveysi Omran, M., Zavareh, M., Sefidkon, F., Abaszadeh, B., and Asadi-Sanam, S. 2020. Effects of potassium and brassinosteroid on some morphophysiological characteristics and essential oil yield of Echinacea purpurea (L.) Moench under different regimens of water availability Availability. Iranian Journal of Medicinal and Aromatic Plants Research 36 (1): 40-58. (in Persian).
  32. Oveysi, M., and Ghoshchi, F. 2012. Study of humic acid role on reduction of water deficit stress effects on crops. Agriculture and Sustainable Development 43: 12-16. (in Persian).
  33. Rahimi, Z., Mozaffari, H., and Hasanpour, D. 2016. Study of the effect of humic acid on irrigation water on yield and yield components of rapeseed. Agronomy and Plant Breeding 12 (1): 95-106.
  34. Ramak, P., Khavirenejad, R. A., Heydari Sharifabad, H., and Rafiee, M. 2008. Effect of water stress on photosynthesis and growth factors in two sainfoin species. 10th congress of agriculture and plant breeding. (in Persian).
  35. Ramirez, I., Dorta, F., Espinoza, V., Jimenez, E., Mercado, A., and Pena-Cortes, H. 2006. Effects of foliar and root applications of methanol on the growth of Arabidopsis, tobacco and tomato plants. Plant Growth Regulation 25: 30-44.
  36. Ramroudi, M., Chezgi, M., and Galavi, M. 2017. Effect of methanol spraying on quantitative traits and osmatic adjustments in Moldavian (Dracocephlum moldavica L.) under low irrigation conditions. Iranian Journal of Field Crop Science 48 (1): 149-158. (in Persian).
  37. Ramroudi, M., Rezaei Nia, N., Galavi , M., and Foruzandeh, M. 2017. Study of crop characteristics, flower yield and inulin percentage of Chicory root (Cichorium intibus) under the influence of soil fertilizers and drought stress. Journal of Plant Production 24 (4): 129-140. (in Persian with English abstract).
  38. Rezaei, A., and Soltani, A. 1996. Potato cultivation (translation). Mashhad University Jihad Publications. (in Persian).
  39. Rezaienia, N., Ramroudi, M., Galavi, M., and Fofouzandeh, M. 2017. Effects of Bio-fertilizers on Physiological Traits and Absorption of Some Nutrients of Chicory (Cichorium intybus L.) in Response to Drought Stress. Iranian Journal of Field Crops Research 15 (4): 925-938. (in Persian).
  40. Safarzade Vishkaei, M. 2007. Effects of methanol on growth and yield of peanut. Ph.D. Desertation. Sciences and Research Unit, Islamic Azad University Tehran, Iran. 232 pp. (in Persian).
  41. Salehi, B., Bagherzadeh, A., and Ghasemi, M. 2010. Effect of humic acid on growth, yield and yield components traits of three varieties of tomato (Lycopersicon esculentum L.). Agroecology Journal 2 (4): 640-647. (in Persian with English abstract).
  42. Samavat, S., and Malakuti, M. 2005. Important use of organic acid (humic and fulvic) for increase quantity and quality agriculture productions. Water and Soil Researchers Technical 463: 1-13. (in Persian).
  43. Sanjari Mijani, M., Sirousmehr, A. R., and Fakheri, B. A. 2015. The effects of drought stress and humic acid on some physiological characteristics of roselle (Hibiscus sabdariffa). Journal Crop Improvement 17 (2): 403-414. (in Persian with English abstract).
  44. Shahani, S., Zakeri, N., Hamzkanlu, N., and Hosseinimehr, S. J. 2015. The Protective Effects of Cichorium intybus L. seed Extract against Cell Toxicity Induced by Bleomycin on Human Non-malignant Fibroblast and Ovarian Cancer Cells. Journal of Mazandaran University of Medical Sciences 121: 39-47. (in Persian).
  45. Taheri Asghari, M. 2010. Effect water deficit stress on some traits of (Cichorium intybus L.) under different plant densities. Crop Ecophysiology 2 (3): 147-155. (in Persian with English abstract).
  46. Taheri Asghari, M., Daneshian, J., and Aaliabdi Farahani, H. 2009. Effects of drought stress and planting density on quantity and morphological characteristics of chicory (Cichorium intybus L.). Asian Journal of Agricultural Sciences 1 (1): 12-14.
  47. Valdrighi, M. M., Pear, A., Agnolucci, M., Frassinetti, S., Lunardi, D., and Vallini, G. 1996. Effects of compost derived humic acids on vegetable biomass production and microbial growth within a plant (Cichorium intybus) soil system: a comparative study. Agriculture, Ecosystems and Environment 58: 133-144.
  48. Zarei, Gh., Shamsi Mahmoodabadi, H., Tabatabaei, S. A., and Mohtaram, S. A. 2014. Effect of sowing date and plant density on yield of chicory (Cichorium intybus L.). Agronomy Journal (Pajouhesh and Sazandegi) 104: 136- 141. (in Persian with English abstract).
  49. Zbiec, I., Karczmarczyk, S., and Koszanski, Z. 1999. Influence of methanol on some cultivated plants. Folia University, Agriculture Stetinensis, Agricultural 73: 217-220.
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  • Receive Date: 08 January 2020
  • Revise Date: 18 January 2021
  • Accept Date: 06 March 2021
  • First Publish Date: 08 March 2021