Effect of methanol and zinc application on peanut qualities and quantities characteristics in Guilan region
Subject Areas : New Finding in AgricultureR. Pilehvari Khomami 1 , M. N. Safarzadeh Vishkaei 2 , N. Sajedi 3 , M. Rasuli 4 , M. Moradi 5
1 - M. Sc. in Agronomy, Member of Young Researchers Club, Islamic Azad University, Arak Branch, Iran
2 - Assist. Prof., Islamic Azad University, Rasht Branch, Iran
3 - Assist. Prof., Islamic Azad University, Arak branch, Iran
4 - Ph. D. Student in Plant Breeding, Science and Research Branch, Tehran, Iran
5 - M. Sc. Student in Agronomy, Islamic Azad University, Arak Branch, Iran
Keywords: Methanol, Zinc, Peanut, qualities and quantities characteristics,
Abstract :
Bandar Kiashahr County located in Guilan province is used to survey effect of methanol and zinc on peanut qualities and quantities characteristics.Various methanol application (0, 10, 20, 30 v/v) and zinc chelate (0, 0.5, 1, 1.5) in 1000cc were selected as surveying treatments. Results indicated that zinc and methanol application had significant effects on measured parameters. Also comparing the average of measured parameters showed that interaction effect of methanol solution 30% (v/v) and zinc 1/1000cc on surveyed parameters are more than other treatments. Foliar methanol and zinc application increased pod yield, grain yield, weight of 100 kernel, mature pods per plant, protein content of seed and oil content of seed but interaction effect of methanol and zinc had no significant impact on oil and protein content of seeds.
1- رحیمیان، ح.، کوچکی، ع. و زند، الف. 1377. تکامل، سازگاری و عملکردگیاهان زراعی (ترجمه). ، نشر آموزش کشاورزی. 495 صفحه.
2- صفرزاده ویشکایی، م. ن. 1378. بادام زمینی. انتشارات دانشگاه آزاد اسلامی واحد رشت. 46 صفحه.
3- صفرزاده ویشکایی، م. ن. 1386. اثر متانول بر رشد و عملکرد بادام زمینی، (رساله دکتری)، دانشگاه آزاد اسلامی واحد علوم تحقیقات تهران. 236 صفحه.
4-Abanda-Nkpwatt, D., Musch, M., Tschiersch, J., Soeime, M. and Schwab, W. 2006. Molecular interaction between Methylobacterium extorquens and seedling: growth promotion methanol consumption, and localization of the methanol emission site. J. Exp. Bot. 57(15):4025-4032.
5-Basile, D.V., Basile, M. R., Li, Q. Y. and Corpe, W. A. 1985. Vitamin B12 stimulated growth and development of Jungermannia leiantha Grolle and Gymnocolea inflata (Huds.) Dum (Hepaticae). Bryologist: 88, 77-81.
6-Duncan, W. G., McCloud, D. E., McGraw, R. L. and Boote, K. J. 1978. Physiological aspects of peanut yield improvement. Crop Sci., 18: 1015-1021.
7-Faver, K. L. and Gerik T. J.. 1996. Foliar applied methanol effects on cotton gas exchange and growth. Field Crops Res. 47:227-234.
8-Fageria, N. K. 2009. The use of nutrients in crop plants. CRC Press. Publisher Taylor and Francis Group. New York.
9-Griffiths, M. W., Kettlewell, P. S. and Hocking, T. J. 1995. Effects of foliar-applied sulphur and nitrogen on grain growth, sulphur and nitrogen concentrations and yield of winter wheat. J. Agric. Sci. (Cam.), 125: 331-339.
10-Hemming, D. J. B., Criddle, R. C. and Hansen, L. D. 1995. Effects of methanol on plant respiration. J. Plant Physiol. 146:193-198.
11-Holland, M. A. and Polacco, J. C. 1994. PPFMs and other covert contaminants: Is there more to plant physiology than just plant? Annu. Rev. Plant Physiol. Mol. Biol. 45:197-207.
12-Holland, M. A., Long, R. L. G. and Polacco, J. C. 2002. Methylobacterium spp: phylloplane bacteria involved in cross talk with the plant host In Lindow SE, Hecht-poiner EL, Elliot VJ (Eds.). pyllosphere microbiology (APS, st Paul, MN) PP.125-135.
13-Ivanova, F. G., Doronina, N. V. and Trotsenko, Y. A. 2001. Aerobic methylobacteria are capable of synthesizing auxins. Microbiol. 70:392-397.
14-Ivanova, F. G., Doronina, N. V., Shepelyakovskaya, A. O., Laman, A. G., Brovko, F. A. and Trotsenko Y. A. 2000. Faculative and obligate aerobic methylobacteria synthesize cytokinins. Microbiol. 69:646-651.
15-Li, Y., Gupta, G., Joshi, J. M. and Siyumbano, A.K. 1995. Effect of methanol on soybean photosynthesis and chlorophyll. J. Plant Nutr. 18:1875-1880.
16-Madani, H., Bakhsh Kelarestaghi, K. and Yarnia, M. 2007. The Agronomical aspects of zinc sulfate application on soybean in Iranian condition"Gonbad region". Congress Crop zinc 2007 Istambol Turky.
17-Makhdum, M. I., Malik, N. A., Udin, S., Ahmad, F. and Chaudhry, F. I. 2002. Physiological response of cotton to methanol foliar application. J. Res. Sci. 13(1):37– 43.
18-Malakouti, M. J. 1992. Determination of the diagnostic norms for corn on the calcareous soils of Iran. Commun Soil Sci. Plant Anal. 23:2687-2695.
19-Mcgiffen, M. E., Green, R. L., Manthey, J. A., Faber, B. A., Downer, A. J., Sakovich, N. J. and Aguiar, J. 1995. Field tests of methanol as a crop yield enhancer. Hortsci. 30:1225-1228.
20-Mudgett, M. E. and Clarke, S. 1993. Characterization of plant L-isoaspartyl methyltransferases that may be involved in seed survival. Purification, characterization and sequence analysis of the wheat germ enzyme. Biochem. 32:1100-1111.
21-Nonomura, A. M. and Benson, A. A. 1992. The path of carbon in photosynthesis: Improved crop yield with methanol. Proc. Natl. Acad. Sci. 89:9794-9798.
22-Rajala, A., Karkkainen, J., Peltonen, J. and Peltonen-Sainio, P. 1998. Foliar applications of alcohols failed to enhance growth and yield of C3 crops. Ind. Crop. Prod. 7:129-137.
23-Ramberg, H. A., Bradley, J. S. C., Olson, J. S. C., Nishio, J. N., Markwell, J. and Osterman, J. C. 2002. The role of methanol in promoting plant growth: An Update. Rev. Plant Biochem. Biotechnol. 1:113-126.
24-Ramirez, I., Dorta, F., Espinosa, V., Mercado, A. and Pena-cortes, H. 2006. Effect of foliar and root application of Methanol on the growth of Arabidopsis, Tobacco, and Tomato plants. J. Plant Growth Regulation. 56:165-174.
25-Smart, J. 1994. The groundnut crop: A scientific basis for improvement. London. Chapman and Hall, pp: 734.
26-Sawan, Z. M., Hafez, S. A., and Basyony, A. G. 2001. Effect of nitrogen fertilization and foliar application of plant growth retardant and zinc on cotton seed, protein and oil yield and oil properties of cotton. Journal of Agronomy and Crop Science, 186:183-191.
27-Sharma, P. N., Chatterjee, C., Sharma, C. P. and Nautiyal, N. 1990. Effect of zinc deficiency on the development and physiology of wheat pollen. J. Indian Bot. Soc. 58: 330-334.
28-Sukhija, P. S., Radhawa. V., Dhillon, K. S. and Munshi, S. K. 1987. The influence of zinc and sulphur deficiency on oil-filling in peanut (Arachis hypogaea L.) kernels. Plant and Soil, 103: 261-267.
29-Yilmaz, A., Ekiz, H., Torum, B., Gllekin, I., karanlik, S., Bagei, S. A. and Cakmak, I. 1997. Effect of different zinc application methods on grain yield and zinc concentration in wheat cultivars grown on zinc – deficient calcareous soils. J. Plant Nutr. 20(4): 461-471.