The Impact of Different Levels of Irrigation, Planting Date and Fertilizer Management on Yield and Yield Components of Roselle (Hibiscus sabdariffa L.) in Minab

Document Type : Research Article

Authors

1 Ferdowsi University of Mashhad

2 Agricultural Research Center, Bandar Abas

Abstract

Introduction
Roselle (Hibiscus sabdariffa ) is considered as a member of Malvaceae family which is cultivated across all tropical and warm areas. More than 300 species of Hibiscus are found in tropical and subtropical regions across the world. Roselle is annual and self-pollinated plant. This plant is very sensitive to cold and glacial, it is multipurpose plant and its various components are used. Severe water restrictions and the high water costs cause in some areas, the optimal level of water to become lower than the required level for maximum production. Nowadays, appropriate irrigation management and the cultivation of drought-resistant plants are regarded as strategies to deal with drought stress. Roselle is one of the few drought resistant plants. To study the effect of different levels of irrigation, planting date and fertilizer management on yield and yield components of Roselle, an experiment was contacted in Agricultural Research Station, 105 kilometers East of Bandar Abbas, Minab city, Iran.
Materials and Methods
An experiment was conducted as split-split-plot based on a randomized complete blocks design with three replications. Treatments included irrigation levels in three levels (100,80 and 60 percent evapotranspiration from reference crop) as main plots, planting date in three levels (June 15, September 10 and October 1th) as subplots and three levels of fertilizer (Cow manure, chemical fertilizer 50% and 50% cow manure and chemical fertilizers) are allocated as sub-sub plots.
Results and Discussion
The results showed that the highest plant height (127.7 cm) and stem diameter (1.97 cm) were obtained in irrigation after 60 percent evapotranspiration from reference crop. The highest number of growing stems (3.20 stems) and sepal dry weight (18.48 g) were shown in 100 percent evapotranspiration from reference crop. The total number of stems, the number of generate stems, flower dry weight and plant dry weight were decreased by increasing the percent evapotranspiration from reference crop. Thus, the lowest total number of stems (7.70), the number of generate stems (4.52), flower dry weight (4.28 g. per plant) and plant dry weight (377.1 g. per plant) were shown in 100% evapotranspiration of the reference treatment. Most of the studied criteria were decreased by delaying sowing date. The lowest stem height (108.2 cm), stem diameter (1.32 cm), total number of stems per plant (7.3), the number of generate stems per plant (3.94), sepals dry weight per plant (16.15 g), flower dry weight per plant (3.65 g), total dry weight per plant (212 g), were obtained on 1th October sowing date. The highest stem diameter (1.85 cm), total number of stems per plant (10.78), the number of growing stems per plant (7.22), sepals dry weight per plant (21.02 g), flower dry weight per plant (6.59 g), total dry weight per plant (420.02 g), were obtained under 100% chemical fertilizer treatment. The highest plant height (125.1 cm) and the number of growing stems per plant (3.61) were obtained under 100% chemical fertilizer treatment+100 percent evapotranspiration from reference crop under 1th of October treatment. The lowest stem diameter, the number of generate stems, the number of growing stems, sepals dry weight and total dry weight in each plant were obtained under 100% chemical fertilizer treatment+100 percent evapotranspiration from reference crop under 1th of October treatment. The highest stem diameter, the number of generate stems per plant and flower dry weight per plant were observed under 100% cow manure+60 percent evapotranspiration from reference crop. The highest number of stems per plant, the number of generate stems per plant, sepals dry weight per plant and dry weight of flower per plant were obtained under 100% cow manure on 15 July sowing date treatment.
Conclusions
The results showed that most of the studied criteria were decreased by delaying sowing date from June to October. The highest dry weight of flower per plant and sepals yield were obtained under 100% animal manure+ June 15 sowing date treatment. The lowest dry weight of sepals per plant was shown under 100% of evapotranspiration irrigation of the reference crop.

Keywords

References

1. AkramGhaderi, F. 2001. Effects of planting date on phenology and morphology, yield and yield components of three cotton cultivars in Gorgan. M.Sc. thesis Faculty of Agriculture Gorgan University of Agricultural Sciences Gorgan Iran 150p. (in Persian with English abstract).
2. Al-Nahid, T. S. 1991. Effect of frequency of irrigation on sewage sludge amended soil and corn nutrition. Arid Soil Research Rehabilitation 5: 137-146.
3. Ashiri, F., Khoskhoi, M., SaharKhiz, M., Firouzi, O., and Javidnia, K. 2010. Effects of water deficit stress on morphological characteristics, chlorophyll and peroline contents and antioxidant activity of garden thyme (Thymus vulgaris L.). Iranian Journal of Horticultural Science and Technology 11 (2): 163-174 (in Persian.(
4. Bdou, M. A., and Mahmoud, A. H. 2003. Growth and oil production of Foeniculum vulgare Mill. 2. The effect of number of irrigation and organic fertilizers. Mansoura University Journal of Agricultural Sciences 28 (5): 3868-3888.
5. Biasi, L. A., Machado, E. M., Kowalski, A. P., Signor, D., Alves, M. A., Lima, F. I., Deschamps, C., Cocco, L. C., and Scheer, A. P. 2009. Organic fertilization in the production, yield and chemical composition of basil chemotype eugenol. Horticultura Brasileira 27 (1): 35-39.
6. Bishr, G. A., Meawad, A. A., Gewaifel, S. G., and Mohamed, M. S. 2006. Effect of chicken manure and dry yeast on the growth, seed yield and active ingredients of Silybum marianum plant. Zagazig Journal of Agricultural Research 33 (4): 665-683.
7. Borna, F., Omidbaigi, R., and Sefidkon, F. 2007. The effect of sowing dates on growth, yield and essential oil content of Dracocephalum moldavica L. Iranian Journal of Medicinal and Aromatic Plants 23 (3): 307-314 (in Persian with English abstract).
8. Bremner, P. M., and Radely, R. W. 1966. Studies in sesame agronomy. 2: The effect of variety and time of planting on growth, development and yield. Journal of Agricultural Science 66: 253-261.
9. Duke, J. A. 2006. Ecosystematic data on economic plants. Journal of Crude Research 17 (3): 91-110.
10. El-Ghawwas, E. O., Eid, M. A., and Mahmoud, S. M. 2002. Effect of different levels of organic manures and plant spacing on different (Foeniculum vulgar Mill.) Plants. Egyptian Journal of Applied Sciences 17 (5): 198-219.
11. El-Sayed, A. A., Mansour, W. A., El-Maadawy, E., Mahassen Sidky, M., and El Ghadban, M. A. 2002. Effect of organic and inorganic fertilization on herb and oil productivity of spearmint and marjoram. Zagazig Journal of Agricultural Research 29 (6): 1859-1888.
12. Fallahi, J., Koocheki, A. R., and Rezvani Moghaddam, P. 2009. Effects of biofertilizers on quantitative and qualitative yield of chamomile (Matricaria recutita) as a medicinal plant. Iranian Journal of Field Crops Research 7 (1): 127- 135. (in Persian with English abstract).
13. Ghorbani, R., Koocheki, A. R., Jahani, M., Hosseini, A., Mohammadabadi A. A. 2009. Effect of planting date, weed control time and method on yield and yield components of cumin. Iranian Journal of Field Crops Research 7 (1): 145-153.
14. Haj Alibabaie, M., Hashemi Dezfuli, A., and Neamati, N. 1996. Evaluate of the Effects of different planting dates on yield and growth procedure on Varamin cotton cultivar. Article abstracts of quintuplicate congress Agronomy and Plant breeding of Iran. 439 p.
15. Helmy, A., and Zarad, D. 2003. Effect of different rates of some organic manures on the productivity of Borage (Borago officinalis L.) plant in sandy soil. Mansoura University Journal of Agricultural Sciences 28 (5): 3911-3926.
16. Howard, A., and Howard, G. L. C. 2011. Studies in Indian fibre plants. No. 2. On some new varieties of Hibiscus cannabinus L. and Hibiscus sabdariffa L. Genetics and Molecular Biology 4: 9-36.
17. Kang, S. Z., Zhang, L., Liang, Y. L., Hu, X. T., Cai, H. J., and Gu, B. J. 2002. Effects of limited irrigation on yield and water use efficiency of winter wheat in the Loess Plateau of China. Agricultural Water Management 55 (3): 203-216.
18. Kaplan, M., Kocabas, I., Sonmez, I., and Kalkan, H. 2009. The effects of different organic manure applications on the dry weight and the essential oil quantity of sage (Salvia fruticosa Mill.). Acta Horticulturae 826: 147-152.
19. Khandan, A., Astaraeii, A., Nassiiri mahalati, M., and Fotovvat, A. 2005. Effects of organic and inorganic fertilizers on yield and yield components of Plantago ovata Forsk. Iranian Journal of Field Crop Research 3 (2): 245-253. (in Persian).
20. Koocheki A., Hosseini, M., and Dezfouli Hashemi, A. 2000. Sustainable Agriculture (Translated). Jihad Daneshgahi Mashhad Press Mashhad Iran 164 pp. (in Persian).
21. Luebs, R. R. E., Yermanos, D. M., Laag, A. E., and Burge, W. D. 2002. Effect of planting date on seed yield, oil content, and water requirement of safflower. Agronomy Journal 57 (2): 162-164.
22. Martin, E. C., Slack, D. C., Tannksley, K. A., and Basso, B. 2006. Fresh and composted dairy manure applications on alfalfa yield and the environment in Arizona. Agronomy Journal 98: 80-84.
23. Nemati, M., and Dehmordeh, M. 2015. Effect of manure and biological Application on yield and morphological parameters of (Hibiscus sabdariffa L.). Journal of Agroecology 7 (1): 62-73. (in Persian).
24. Panjehkoob, A, Galeshi, S., Zeinali, E., and Ghajari, A. 2007. Effect of planting date and Plant density on morphological characteristics of cotton (Gossypium hirsutum cv. Siokra, Journal of Agricultural Science and Natural Resources Iran 14 (5): 25-38. (in Persian with English abstract).
25. Patel, P. C., and Patel, J. R. 1988. Effect of Zinc nutrition of different genotypes of sorghum. Journal of the Indian Society of Soil Science 36: 820-832.
26. Porter, P. M., Sullivan, M. J., and Harvey, L. H. 1996. Cotton cultivar response to planting date on the southeastern coastal plain. Journal of Production Agriculture 9: 223-227.
27. Reddy, K. R., Hodges, H. F., and Reddy, V. R. 1992. Temperature effects on cotton fruit retention. Agronomy Journal 84: 26-30.
28. Rezaenejad, Y., and Afyuni, M. 2001. Effect of organic matter on soil chemical properties, and corn yield and elemental uptake. Journal of Science and Technology of Agriculture and Natural Resources, Water and Soil Science 4 (4): 19-29. (in Persian with English abstract).
29. Sadeghzadeh-Ahari, D., Hassandokht, M. R., Kashi, A. K., Amri, A., and Alizadeh, K. H. 2010. Genetic variability of some agronomic traits in the Iranian fenugreek landraces under drought stress and non-stress conditions. African Journal of Plant Science 4: 12-20.
30. Scheffer, M. C., Ronzelli Junior, P., and Koehler, H. S. 1993. Influence of organic fertilization on the biomass, yield and composition of the essential oil of Achillea millefolium L. Acta Horticulturae 33: 109-114.
31. Seghatoleslami, M. J., Mosavi, S. G., and Barzegaran, T. 2013. Effect of irrigation levels and planting date on yield and water use efficiency of Hibiscus sabdariffa L. Iranian Journal of Medicinal and Aromatic Plants 29 (1): 144-156. (in Persian with English abstract).
32. Ston, J. F., and Nofziger, D. L. 1993. Water use and yield of cotton grown under wide-spaced furrow irrigation. Agricultural Water Management 24: 27-38.
33. Yadav, R. L., Keshwa, G. L., and Yadav, S. S. 2003. Effect of integrated use of FYM and sculpture on growth and yield of isabgol. Medicinal and Aromatic Plant Science and Biotechnology 25: 668-671.
34. Yang, Y., Watanabe, M., Zhang, X., Zhang, J., Wang, Q., and Hayashi, S. 2006. Optimizing irrigation management for wheat to reduce groundwater depletion in the piedmont region of the Taichung mountains in the North China Plain. Agricultural Water Management 82: 25-44.
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Iranian Journal of Field Crops Research
Volume 16, Issue 4 - Serial Number 52
January 2019
Pages 707-721

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History

  • Receive Date: 27 July 2016
  • Revise Date: 22 January 2017
  • Accept Date: 23 January 2017
  • First Publish Date: 22 December 2018

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