Growth and Corm Production of Gladiolus grandiflorus L. ‘Essential’ Under Different NPK Regimes
محورهای موضوعی : مجله گیاهان زینتیMohsin Bashir 1 , Imran. Khan 2 , Rashid Waseem Khan Qadri 3 , Mohsin Tanveer 4 , Muhammad Zain 5 , Iftikhar Ahmad 6
1 - Institue of Horticultural Sciences, University of Agriculture Faisalabad, Pakistan
2 - Department of Agronomy, University of Agriculture Faisalabad, Pakistan
3 - Institue of Horticultural Sciences, University of Agriculture Faisalabad, Pakistan
4 - School of Land and Food, University of Tasmania, Hobart Australia
5 - Department of Agronomy, University of Agriculture Faisalabad, Pakistan
6 - Institue of Horticultural Sciences, University of Agriculture Faisalabad, Pakistan
کلید واژه: growth, Gladiolus, Chlorohpyll, Fertilization, Florets, NPK,
چکیده مقاله :
Gladiolus is very popular and highly demanded cut flower worldwide however imbalance nutrition reduces its production, additionally irrational combination of nutrient further kindled the situation. The current study was conducted to ascertain the effects of different combinations of N, P and K on growth, floral development, and N, P and K uptake by gladiolus leaves. N, P and K was applied as; whole NPK (10: 20: 10 g m-2), N (20 g m-2), P (10 g m-2), K (10 g m-2), N+P (20: 10 g m-2), N+K (20: 10 g m-2), P+K (10:10 g m-2). Among treatments, better growth in term of higher sprouting percentage, plant height, leaf area was observed under whole NPK application while stem length and spike length was significantly higher under P+K. Further, we found whole NPK application resulted in higher floret fresh and dry weight whereas maximum floret diameter was under P+K. We found that K played significant role in the floret development while P was important for attaining higher corm weight. Higher leaf chlorophyll contents and N uptake was under whole NPK application. Alone P application showed maximum P uptake and higher K uptake was under P+K treatment. Our results concluded that balanced fertilization (NPK) is better for sustainable gladiolus production.
گلایل یکی از گلهای محبوب در دنیاست که عدم تعادل تغذیه، تولید آن را کاهش داده و همچنین تلفیق غیر اصولی کودها نیز مشکلساز شده است. مطالعهی اخیر برای تعیین اثرات مصرف توأم N، P و K روی رشد، نمو گل و جذب N، P و K در گلایل انجام شده است. N، P و K بهصورت NPK (10:20:10 گرم در مترمربع)، N (20 گرم در متر مربع)، P (10 گرم در متر مربع)، K (10 گرم در متر مربع)، N+P (10:20 گرم در متر مربع)، N+K (10:20 گرم در متر مربع) و P+K(10:10 گرم در مترمربع) استفاده شدند. در بین تیمارها، رشد بهتر از نظر درصد جوانهزنی بیشتر، ارتفاع گیاه و سطح برگ در تیمار NPK حاصل شد. حال آنکه طول ساقه و طول گلآذین در تیمار P+K بهصورت معنیداری بیشتر بود. همچنین مشاهده شد که NPK باعث وزن تر و خشک گلچهی بالاتر شد، در حالیکه P در افزایش وزن پداژه اهمیت بیشتری دارد. کلروفیل برگ بالاتر و جذب N بیشتر در تیمار NPK صورت گرفت. در تیمار P حداکثر جذب P به چشم خورد و در تیمار P+K بالاترین جذب Kمشاهده شد. نتایج ما نشان داد که تغذیه متعادل (NPK) برای تولید پایدار گلایل بهتر است.
Akram, M. 2014. Effects of nitrogen application on chlorophyll content, water relations, and yield of maize hybrids under saline conditions. Communication in Soil Science and Plant Analysis, 45 (10): 1336-1356.
Arnon, D.T. 1949. Copper enzyme in isolated chloroplasts polyphenol oxidase in Beta vulgaris. Plant Physiology, 24 (1): 1-15.
Barman, G., Chanda, S. and Roychoudhary. N. 1998. Production of corms and cormels of Gladiolus through application of N, P and K. Horticulture Journal, 11: 87-92.
Bhattacharjee, S.K. 1981. Influence of nitrogen, phosphorus and potash fertilization on flowering and corm production in gladiolus. Singapore Journal of Primary Industries, 9: 23-27.
Bose, T.K., Yadav, L.P., Pal, P., Parthasarathy, V.A. and Das. P. 2003. Commercial Flowers. Naya Udyog, Kolkata, India. (Research report) 2: 137-140.
Butt, S.J. 2005. Effect of N, P, K on some flower quality and corm yield characteristics of gladiolus. Tekirdag Journal of Agriculture, 2 (3): 212-214.
Feliziani, E., Santini, M., Landi, L. and Romanazzi, G. 2013. Pre-and postharvest treatment with alternatives to synthetic fungicides to control postharvest decay of sweet cherry. Postharvest Biology and Technology, 78: 133-138.
Haitbura, P. and Misra, R.L. 1999. Effect of nitrogen sources on vegetative and floral characters of gladiolus cv. Dhanvantari. Journal of Ornamental Horticulture, 2: 111-114.
Halder, N.K., Siddiky, A., Ahmad, R., Sharifuzzaman, M. and Begum, R.A. 2007. Effect of boron and zinc fertilization on flower yield and quality of gladiolus in grey terrace soils of Bangladesh. Journal of Soil and Nature, 1 (3): 40-45.
Khan, M.A. and Ahmad, I. 2004. Growth and flowering of Gladiolus hortulanus L. cv. Wind Song as influenced by various levels of NPK. International Journal of Agriculture and Biology, 6: 1037-1039.
Kumar, K., Arvind, K., Vidyasagar, R. and Rao, K. 1988. Studies on growth and activity of photosynthetic enzymes on Sorghum bicolor L. as influenced by micronutrients. Biological Sciences, 54: 75-80
Lehri, S.M., Kurd, A.A., Rind, M.A. and Bangulzai, N.A. 2011. The response of gladiolus Tristis L. to N and P2O5 fertilizers. Sarhad Journal of Agriculture, 27: 185-188
Malvi, U.R. 2011. Interaction of micronutrients with major nutrients with special reference to potassium. Karnataka Journal of Agricultural Sciences, 24 (1): 106-109.
Marschner, H. 1995. Mineral nutrition of higher plants. Academic Press, London, 889 pp.
Mukesh, K., Chattappadhyay, T.K., Das, D.K. and Kumar, M. 2001. Effect of foliar application of zinc, copper and iron on the yield and quality of Gladiolus cv. Mirela. Journal of Interacademicia. 5: 300-303.
Nelson, D. W. and Sommers, L. E. 1973. Determination of total nitrogen in plant material. Agronomy Journal, 65(1): 109-112.
Pant, S.S. 2005. Effect of different doses of nitrogen and phosphorus on the corm and cormel development of gladiolus (Gladiolus sp.) cv. American Beauty. Journal of the Institute of Agriculture and Animal Science, 26: 153-157.
Pimple, A.G., Dalal, S.R., Nandre, D.R.,Ghawade, S.M. and Utgikar, S. 2006. Yield and quality of gerbera influenced by nitrogen and phosphorus levels under polyhouse conditions. International Journalof Agricultural Sciences, 2(2): 320-321.
Rajiv, K., Chaturvedi, O.P. and Misra, R.L. 2003. Effect of N and P on growth and flowering of gladiolus. Journal of Ornamental Horticulture, 6 (2): 65-69.
Ruamrungsri, S., Bumphenyoo, W., Sriwichai, R. and Apavatjrut, P. 2007. Effects of nitrogen, phosphorous and potassium deficiencies on growth and development of Globba rosae Gagnep. Kasetsart Journal (Natural Science), 41: 72-83.
Saharkhiz, M.J. and Omidbaigi, R. 2008. The effect of phosphorous on the productivity of feverfew (Tanacetum parthenium (L.) Schultz Bip). Advances in Natural Applied Sciences, 2: 63-67.
Shah, A., Lal, S.B. and Sethi, J.N. 1984. Effect of different levels of N and P on growth, flowering and yield of Gladiolus cv. Vinks Glory. Progressive Horticulture, 16: 305–307.
Sharma, J.R., Gupta, R.B., Panwar, R.D. and Kaushik, R.A. 2003. Growth and flowering of gladiolus as affected by nitrogen and phosphorus levels. Journal of Ornamental Horticulture New Series, 6: 76-77.
Steel, R.G.D., Torrie, J.H. and Dicky, D.A. 1997. Principles and procedures of statistics: A Biometric Approach 3rd (eds). McGraw Hill, San Francisco, USA.
Van Lierop, W.M. 1976. Digestion procedures for simultaneous automated determination of NH+, P, K, Co. and Mg in plant material. Canadian Journal of Soil Science, 56: 425-432.
Younis, A., Pervez, M.A. and Riaz, A. 2006. Effect of different levels of nitrogen, phosphorous and potash fertilizers on growth of Dahlia. Caderno de Pesquisa, Serie Biologia, 18: 8-13.
Zafar, M.S. 2007. Efficacy of various micronutrients on growth and flowering of Rosa hybrida cv. Kardinal M.Sc. Thesis. Institute of Horticultural Science, University of Agriculture, Faisalabad, Pakistan.
Zubair, M. 2011. Effect of potassium fertility levels on gladiolus yield quality of cut flowers and corm production. Egyptian Academic Journal of Biological Sciences, 2: 17-27.