Study of physiological indices and yield of the rice varieties in north regions of Khuzestan
Subject Areas : agronomyAbdolali Gilani1 1 , Seyed Ataallah Siadat2 2 , Sami Jalali 3 , Kaveh Limouchi 4
1 - 1- Assistant Professor of Seed and Plant Improvement Research Department, Khozestan Agricultural and
Natural Resources Research Center, AREEO, Ahvaz, Iran
2 - 2- Professor., University of Agricultural and Natural Resources of Ramin, Ahwaz, Iran
3 - 3- M.sc of Research Center of Agriculture and Natural Resources Khuzestan Province, Iran.
4 - 4- Ph.D Agronomy. Young Researchers and Elite Club, Dezful Branch, Islamic Azad University, Dezful, Iran
Keywords: Yield, Rice, physiological indices, Dates of planting,
Abstract :
In order to evaluation of trend yield and physiological indices variation of some current Rice cultivars an experiment was carried out in split-plot arrangement using randomized complete blocks design with three replication. In 2006 and 2007 years at Shavoor Agricultural Research Station in Khuzestan province. For exposing rice cultivars to different higher temperature regimes, main plots were assigned to three sowing dates from 5 May with 20 days intervals and cultivars namely: Hoveizeh, Hamar (heat tolerance) Ghermez Anbori, Champa (heat sensitive) and Danial (relatively heat tolerant) were randomized in sub-plots. The results of combined analysis of variance showed that the highest grain yield was harvested from the second sowing date (26 May). It was the superior to first sowing date (5May) with 62.5 percentages. The reason of higher yield related to superior physiological indices in panicle exertion, LAD in ripening duration and also higher dry matter storage potential. In among cultivars, Hoveizeh was the superior to other cultivars and had higher yield related to Ghermez Anbori, Champa with 50.9 and 36.3 percentage respectively. In spite of heat sensitive cultivars had higher of Maximum leaf area index but their's crop growth rate, net assimilation rate and relative growth rate were lower.
1- امام، ی. ۱۳۸۶. زراعت غلات. چاپ سوم. انتشارات دانشگاه شیراز.
2- مرادی، ف. 1375. بررسی اثر فیزیولوژیکی تنش گرما بر 6 رقم برنج در خوزستان. پایاننامه کارشناسی ارشد، مجتمع عالی آموزشی و پژوهشی کشاورزی رامین، دانشگاه شهید چمران اهواز.138 ص.
3- نور محمدی، ق. ع، سیادت و ع، کاشانی. 1376. زراعت، جلد اول غلات انتشارات دانشگاه شهید چمران اهواز، 446 صفحه.
4- Akita, S. 1982. Studies on competition and compensation of crop plants. I. Effects of planting density on the yield component in rice plant. Science reports of Faculty of Agriculture, Kobe University. 15:17-20.
5- Ali, M. Y., and Rahman, M. M. 1992. Effect of seedling age and transplanting time on late planted Aman rice. Bangladesh Journal of Training and Development 5: 75-83.
6- Anonymous. 1979. Annual report, International Rice Research Institute Los Banos, Philippines. 132-135.
7- Cock, J. H. and Yoshida, S. 1972. Accumulation of 14c-Labeled carbohydrate before flowering and its subsequent redistribtion and respiration in the rice plant. Procedings of the Crop Science Society of Japon. 41: 226-234.
8- Guangnan, W. and Jiling, T. 1989. Physiological characteristics of high yielding rice cultivars in Chaina, progress in irrigation rice. IRRI.
9- Hair, O. M., Katyal, S. K., Dhiman, S. D. and Sheoran, Q. P. 1999. Physiological parameters and grain yield as in fluenced by time of transplanting and rice
(oryzo sativa. L.) hybrids. Indian .Journal of Agronomy. 44(4): 696-700.
10- Horie, T. Baker, J. T., Nakagawa, H. and Matsui, T. 2001. Crop ecosystem responses to climatic change: rice. In: Reddy, K. R., Hodges, H. F. editors. Climatic change, plant productivity and global implications. New York, N. Y. (USA): CAB I publishing. P: 81-106.
11- Horie, T., Yoshida, H., Shiraiwa, T., Nakagawa, H., Kuroda, E., Sasaki, T., Hagiwara, M., Kobata, T., Ohnishi, M. and Kobayashi, K. 2003. Analysis of genotype by environment interaction in yield formation processes of rice grown under a wide environmental range in Asia. 10. Asian Rice Network (ARICENET) research and preliminary results. Japanese Journal of Crop Science. 72 (Extra issue2): 88-89.
12- Lee, y. J. and Yang, C. M. 1999. Relationsh of plant growth and chlorophyll content in field –grown Rice. Chinese Journal Agronomy Metodology. 6(4)191-200.
13- Lu, J., Okawa,T. and Hirasawa, T. 2000. The effect of irrigation regimes on the water use, dry matter production and physiological responses of paddy rice.Plant and Soil. 223(1/2): 209-218.
14- Maurice, S. B-Ku. 2000. Metabolically modified rice exhibits surperior photosynthesis and yield, ISB New Report. http://www.biotech-info.net-metabolically.html.
15- Murchi, E., Jian Chang, Y., Stella, H., peter, H. and Shaobing, P. 2002. Are there associations between grain filling rate and photosynthesis in the flag leaves of field grown rice? Journal of Experimental Botany. 53(378): 2217-2224.
16- Steven, D. Linscombe. 2004. Plant Management Network. Rioce Response to Planting Date Differs at Two Locations in Louisiana.
17- Sumi, A., Hakoyama, S., Weng, J. H., Agata, W. and Takeda, T. 1996. Analysis of plant characteristics detemining ear weight increase during the ripening period in rice (oryza Sativa.L.) II. The role of the reserved carbohydrate at heading stage upon the receptive efficiency of at heading stage upon the receptive efficiency of assimilation products in spikelets. Japanese Journal of Crop Science. 65:214-221.
18- Sun, Y. F., Liang, J. M. Ye, J. and Zhu, W. Y. 1999. Cultivation of super- high yielding rice plants. China Rice. 38-39.
19- Wada, Y., yun, S., sasaki, H. Meeda, T., Mivra, K. and wadanabe, K. 2002. Dry matter production and nitrogen absorption of Japonica-Indica hybrid rice cultivars grown under upland conditions-a comparison with Japonica cultivates. Japanese Journal of Crop Science. 71(1): 28-35.
20- Yoshida, S. 1973. Effects of temperature on growth of the rice plant in a controlled environment. Soil science and plant nutrition (Tokyo) 19:299-310.
21- Yoshida, S. and Parao, F. T. 1976. Climatic in fluence on yield and yield component of lowland rice in the tropics. Pages 471-494 in climate and rice. International Rice Research Institute. P. O. Box993. Manila. Philippines.
22- Ziska, L. and Manalo, P. A. 1996. Increasing night temperature can reduce seed set and potential yield of tropical rice. Australian Journal of Plant Physiology. 23. 791-794.
_||_