Determining effects of irrigation stress on growth and yield of potato cultivars in Ardabil cold region

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Research Paper 01/04/2014
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Determining effects of irrigation stress on growth and yield of potato cultivars in Ardabil cold region

Ghasem Rahimi Darabad
J. Bio. Env. Sci.4( 4), 318-326, April 2014.
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Abstract

To determine effects of irrigation stress on growth and yield of experimental potato cultivars, 6 potato cultivars were studied in Ardabil Agricultural Research Station. To perform test, split plot statistical design based on Completely Randomized design was used in three replicates. In this test, water stress was applied with increasing irrigation distance during growth of the plant. Factor of irrigation interval with three levels i.e. stress-free (irrigation every 6 days), medium stress (irrigation every 12 days), and high stress (irrigation every 18 days) was included in main plots and factor of potato cultivars was included in 6 levels in subplots. In this research, traits of the number of day until emergency, the number of day until tuberization, the number of day until flowering, height of plant, number of main stem, diameter of main stem, number of tuber per plant, weight of tuber per plant and yield of the plant were studied. Results of ANOVA showed that there was significant difference among all of the studied traits but number of day until tuberization in terms of irrigation levels and cultivars. Serenade and agria cultivars produced the highest mean yields of tuber with 28.78 and 28.28 tons per hectare and draga cultivar produced the lowest mean yields of tuber with 24.41 tons per hectare. Potato cultivars with different irrigation periods in terms of plant height, number of man stem, and number of tuber per plant, weight of tuber per plant and yield of tuber showed interaction. This shows that difference of cultivars in different irrigation periods was not equal.

VIEWS 9

Adeli R.1998. Assessment of water stress tolerance in potato cultivars. MS Thesis Breeding, Islamic Azad University, Ardabil

Akbari M, Mortazavi A. 1998. Effect of water stress on potato yield sprinkler irrigation method. Annual Report of the Agricultural Research Center, Hamedan.

Babaei T, Ghafari H. 1994. Water stress and secondary growth in potato cultivars. Proceedings of the Second Research Seminar vegetable. Page 38.

Babaei T. 1996. Comparison of yield and quality of new varieties of potatoes. Arak Agricultural Research Center.

FAO. 2011. Data information. www. fao. org.

Farshi A.1995. Efficient use of water resources and the need to develop its agriculture. Journal of water and soil science and agriculture economics 5. Page 20-15. dx.doi.org/JWSSAE/5. P 20-15.

Fasan T, Havekort AJ. 1991. The influence of cyst nematodes and drought on growth of potato. 1. Effects on plant growth under semi-controlled conditions. Netherland Journal of plant pathology 97: 151-156. dx.doi.org/NJPP/97. P 151-156.

Foti S, Mauromicale G, Lrena A. 1995. Influence of irrigation regimes on growth and yield of potato CV. Spunta. Potato Research 38: 307-318. dx.doi.org/SPR/38. P 307-318.

Harris PM. 1987. The potato crop. Chapman and Hall Ltd.

Harris PM. 1992. The potato crop. Chapman and Hall Ltd.

Jefferies RA, Mackenson DKL. 1987. Aspects of the physiological basis of cultivar differences in yiled of potato under drought and irrigation conditions. Potato Research 29: 487.500. dx.doi.org/PR/5. P 487-500.

Karafylidis  DI,  Starropoul  N,  Georgakis  D. 1996. The effect of water stress on the yielding capacity of potato crops and subagent performance of seed tubers. Potato Researcher 39: 153-163. dx.doi.org/PR/39. P 153-163.

Karimian A, Hamdolahzadeh A, Jamaleh GH. 1994. Compare the yield of potato varieties resistant to major diseases in Iran. Seed and Plant Journal: Issue 4(1). Page 30-23. dx.doi.org/SPJ/4. P 30-23.

Khajepour M. 1994.  Industrial  crop  production. University of Technology.

Khodadadi M, Masiha S. 1996. Effect of harvest date and method of aerial biomass removal on some physiological traits potatoes. Seed and Plant Journal 2(12). Pp 12-20. dx.doi.org/SPJ/4. P 12-20.

Malakoti M, Tabatabaei J. 1998. The use of organic and chemical fertilizers to increase production and nitrate control of seed potatoes in Iran. Journal of Agricultural Education, Technical Bulletin No. 15.

Martin RJ, Jamieson PD, Wilson DR, Francis GS. 1992. Effects of soil moisture deficits on yield and quality of Russet Burbank. Potato Abstract. 14 (11).

Miller D, Martin MW. 1984. Effect of declining on interrupted irrigation on yield and quality of three potato cultivar grown on sandy soil. American Potato Journal 64: 109-117. dx.doi.org/APJ/64. P 109-117.

Mobli M, Piraste B. 1998. Vegetable production (translation). University of Technology. Pp. 226-591.

Mosavi Fazl M. 1998. Water management in potato production. Dissemination of agricultural education.

Necas JB.1962. Water regime of potatoes I. Growth a yield reactions of potatoes to redacted soil moisture. Rostl; 17-44 pp.

Rezaei A, Soltani A. 1996. Introduction to potato production,Jahad Publications. (In Farsi).

Shock CC, Zalewski JC, Stiber JD, Burnett DS. 1992. Impact of early-season water deficits on Russet Burbank plant development, tuber yield and quality. American Potato Journal 69: 793-803. dx.doi.org/APJ/69. P 793-803.

Steyn JM, Plessis HF, Nortje DU. 1993. The effect of different water regimes on up-todate potatoes. Yield size, distribution, quality and water use. Potato Abstract 18(1).12 pp. dx.doi.org/PA/18. 12pp.

Struik PC, Voorst GV. 1986. Effect of drought on the initiation, yield and size distribution of tuber of solanum tubrosum L. CV. Bintje. Potato Research 29: 487-500. dx.doi.org/PJ/29. P 487-500.