بررسی کاربرد اسید هیومیک بر برخی ویژگی های مورفولوژیکی و فیزیولوژیکی رز مینیاتور
Subject Areas : Journal of Ornamental Plantsپروین طالبی 1 , Zohreh Jabbarzadeh 2
1 - Department of Horticultural Science, College of Agriculture, Urmia University, Orumieh, Iran
2 - Department of Horticultural Science, College of Agriculture, Urmia University, Orumieh, Iran
Keywords: کلروفیل, آنتوسیانین, شاخص های رشدی, رز مینیاتور, محلولپاشی برگی,
Abstract :
در سال های اخیر، استفاده بیش از حد از کودهای شیمیایی و کمبود مواد آلی سبب کاهش میزان ماده آلی خاک در ایران شده است. افزایش استفاده از کودهای شیمیایی در کشاورزی سبب ایجاد مسائل زیست محیطی نظیر تخریب فیزیکی خاک و به هم خوردن تعادل غذایی خاک شده است. از این رو در حال حاضر، کاربرد کودهای آلی افزایش می یابد. به منظور بررسی اثرات کاربرد اسید هیومیک بر برخی ویژگی های مورفولوژیکی و فیزیولوژیکی رز مینیاتور رقم هفت رنگ، آزمایشی به صورت فاکتوریل در قالب طرح کاملا تصادفی با دو فاکتور غلظت اسید هیومیک در چهار سطح (0، 500، 1000 و 2000 میلی گرم در لیتر) و نحوه کاربرد آن به دو شیوه (کاربرد خاکی و محلولپاشی برگی) 5 بار با فاصله 15 روز یکبار با 3 تکرار و 2 مشاهده انجام شد. نتایج نشان داد که اسید هیومیک سبب افزایش میزان آنتوسیانین و قندهای محلول برگ ها شد. محلولپاشی برگی 500 میلی گرم در لیتر اسید هیومیک، به طور معنی داری میزان کلروفیل و فتوسنتز را افزایش داد. همچنین محلولپاشی برگی با 1000 میلی گرم در لیتر اسید هیومیک، میزان قندهای محلول را بیش از سایر تیمارها افزایش داد. اسید هیومیک تاثیر معنی داری بر شاخص سطح برگ و وزن تر ریشه ها داشت. در مجموع به نظر می رسد تغذیه گیاهان با اسید هیومیک سبب بهبود ویژگی های مورفولوژیکی و فیزیولوژیکی گل رز مینیاتور گردد.
Adani, F., Genevini, P., Zaccheo, P. and Zocchi, G. 1998. The effect of commercial humic acid on tomato plant growth and mineral nutrition. Journal of Plant Nutrition, 21 (3): 561-575.
Albayrak, S. and Camas, N. 2005.Effect of different levels and application times of humic acid on root and leaf yield and yield component of forage turpin. Journal of Agronomy, 42: 130-133.
Anderson, N. O. 2006. Flower breeding and genetics. Challenges and opportunities for the 21 century, Netherland.
Atiyeh, R. M., Subler, S., Edwards, C. A., Bachman, G., Metzger, J. D. and Shuster, W. 2000. Effects of vermicomposts and composts on plant growth in horticultural container media and soil. Pedobiologia, 44: 579–590.
Azam, F. and Mauk, K. A. 1983. Effect of humic acid soaking on seedling growth of wheat (Triticum aestivum L.) under different conditions. Pakistan Journal of Botany, 15: 31-38.
Bohme, M. and Thilua, H. 1997. Influence of mineral and organic treatments in the rhizosphere on the growth of tomato plants. Acta Horticuturae, 450: 161–168.
Canellas, L. P., Dobbss, L. B., Oliveira, A. L., Chagas, J. G., Aguiar, N. O., Rumjanek, V. M., Novotny, E. H., Olivares , F. L., Spaccini, R. and Piccolo, A. 2012. Chemical properties of humic matter as related to induction of plant lateral roots. European Journal of Soil Science, 63: 315–324.
Cangi, R., Tarakcioglu, C. and Yasar, H. 2006. Effect of humic acid applications on yield, fruit characteristics and nutrient uptake in Ercis grape (V. vinifera L.) cultivar. Asian Journal of Chemistry, 18: 1493-1499.
Chaves, M. M., Maroco, J. S. J., Rodrigues, M. L., Osorio, C. P. M. L., Carvalho, I., Faria, T. and Pinheiro, C. 2002. How plants cope with water stress in the field. Photosynthesis and Growth. Annals of Botany, 89: 907-916.
Chen, Y. and Aviad, T. 1990. Effects of humic substances on plant growth. In: Humic substances in soil and crop science: Selected Readings, eds. P. Mac Carthy, C.E. Clapp, R.L. Malcolm, and P. R. Bloom, pp. 161–186. Madison, WI: SSSA and ASA.
Delfine, S., Tognetti, R., Desiderio, E. and Alvino, A. 2005. Effect of foliar application of N and humic acids on growth and yield of durum wheat. Agronomy for Sustainable Development, 25: 183-191.
Edrisi, B., 2009. Postharvest physiology of cut flowers. Payam Digar. 160 p. (in Persian).
Figliolia, A., Benedetti, A., Izza, C., Indiati, R., Rea, E., Alianiello, F., Canali, S., Biondi, F. A., Pierandrei, F. and Moretti, R. 1994. Effects of fertilization with humic acid on soils and plant metabolism: A multidisciplinary approach. Note I: Crop production, In: Humic substances in the global environment and implications on human health. Proceedings of the 6th International Meeting of the International Humic Substances Society, Elsevier Science Publishers, Amsterdam, The Netherlands, pp. 579–584.
Garcia, M. C. V., Estrella, F. S., Lopes, M. J. and Moreno, J. 2008. Influence of compost amendment on soil biological properties and plants. Dynamic Soil Dynamic Plant, 1: 1-9.
Haghighi, M., Kafi, M. and Fang, P. 2012. Photosynthetic activity and N metabolism of lettuce as affected by humic acid. International Journal of Vegetable Science, 18: 182-189.
Hanafy Ahmad, A. H., Nesiem, M. R., Hewedy, A. M. and Sallam, H. E. I. S. 2010. Effect of some simulative compounds on growth, yield and chemical composition of snap bean plants grown under calcareous soil conditions. Journal of American Science, 6 (10): 552-569.
Irigoyen, J. J., Emerich, D. W. and Sanchez-Diaz, M. 1992. Water stress induced changes in concentrations of proline and total soluble sugars in nodulated alfalfa (Medicago sativa) plants. Physiologia Plantarum, 84: 55-60.
Kafi, M., Babalar, M., Nikbakht, A., Ebrahimzadeh, H., Etemadi, N. and Samavat, S. 2009.Effect of spraying humic acid on nutrient uptake, protein content and postharvest characteristics of Gerbera cv. Malibu. Journal of Horticultural Science and Technology, 8: 238-248. (in Persian).
Karakurt, Y., Unlu, H. and Padem, H. 2008. The influence of foliar and soil fertilization of humic acid on yield and quality of pepper. Acta Agriculturae Scandinavica Section B – Soil and Plant Science, 59(3): 233-237.
Li, G. and Evens, M. R. 2000. Humic acid substrate treatments and foliar spray application effects on root growth and development of seedlings. HortScience, 35: 434.
Liu, C., Cooper, R. J. and Bowman, D. C. 1998.Humic acid application affects photosynthesis, root development and nutrient content of creeping bentgrass. American Society for Horticultural Science, 33(6): 1023-1025.
Lulakis, M. D. and Petsas, S. I. 1995. Effect of humic substances from vine-canes mature compost on tomato seedling growth. Bioresearch Technology, 54: 179-192.
Marinari, S., Masciandaro, G., Ceccanti, B. and Grero, S. 2000. Influence of organic and mineral fertilizers on soil biology and physical properties. Bioresearch Technology, 72: 9-17.
Muscolo, A., Sidari, M., Francioso, O., Tugnoli, V. and Nardi, S. 2007. The auxin-like activity of humic substances is related to membrane interactions in carrot cell cultures. Journal of Chemical Ecology, 33: 115-129.
Nikbakht, A., Kafi, M., Babalar, M., Xia, Y. P., Luo, A. and Etemadi, N. A. 2008.Effect of humic acid on plant growth, nutrient uptake and postharvest life of Gerbera. Journal of Plant Nutrition, 31: 2155-2167.
Orlov, D. S. and Sadovnikova, L. K. 2005. Soil organic matter and protective functions of humic substances in the biosphere. Springer. pp. 37-52.
Piccolo, A., Nardi, S. and Concheri, G. 1991.Structural characteristics of humic substances as related to nitrate uptake and growth regulation in plant systems. Soil Biology and Biochemistry, 23: 833–836.
Pizzeghello, D., Nicolini, G. and Nardi, S. 2001. Hormone-like activity of humic substances in Fagus sylvaticae forests. New Phytology, 51: 647-657.
Rengrudkij, P. and Partida, G. J. 2003. The effects of humic acid and phosphoric acid on grafted Hass avocado on Mexican seedling rootstocks. Proceedings V World Avocado Congress Pp. 395- 400.
Russo, R.O. and Berlyn, G.P. 1990. The use of organic biostimulants to help low input sustainable agriculture. Journal of Sustainable Agriculture, 1: 19-42.
Saeedi, F. 2001. The effect of different levels of vermicompost on the qualitative and quantitative indicators of Lilium flowers varieties (Nello, Tresor, Navona). MSc Thesis, Azad University Branch of Garmsar.
Salaman, S. R., Abou-Hussein, S. D., Abdel-Mawgoud, A. M. R. and El-Nemr, M. A. 2005. Fruit yield and quality of watermelon as affected by hybrids and humic acid application. Journal of Applied Sciences Research, 1: 51-58.
Sharif, M., Khattak, R. A. and Sarir, M.S. 2002. Effect of different levels of lignite coal derived humic acid on growth of maize plants. Communications in Soil Science and Plant Analysis, 33: 3567-3580.
Tan, K. H. 1998. Colloidal chemistry of organic soil constituents. In: Tan, K.H., (Ed.), Principles of Soil Chemistry, Marcel Dekker, New York.
Tan, K. H. 2003. Chemical composition of humic matter. In: Humic matter in soil and the environment. Principles and controversies. Marceland Dekker, New York. USA.
Taylor, G. and Cooper, L. 2004. Humic acid: The root to healthy plant growth. California State Science Fair.
Tejada, M. and Gonzalez, J. L. 2003. Influence of foliar fertilization with amino acids and humic acids on productivity and quality of asparagus. Biological Agriculture and Horticulture, 21: 277-291.
Theunissen, J. P., Ndakidemi, A. and Laubscher, C. P. 2010. Potential of vermicompost produced from plant waste on the growth and nutrient status in vegetable production. International Journal of Physical Sciences, 5(13): 1964-1973.
Turkmen, O., Demir, S., Sensoy, S. and Dursun, A. 2005. Effect of arbuscular mycorrhizal fungus and humic acid on the seedling development and nutrient content of pepper grown under saline soil conditions. Journal of Biological Sciences, 5(5): 565-574.
Wagner, G. C. 1979. Content and vacuole/extravacuole distribution of neutral sugars, free amino acids and anthocyanin in protoplasts. Plant Physiology, 64(1): 88-93.
Zhang, X. Z. and Ervin, E. H. 2004. Cytokinin-containing seaweed and humic acid extracts associated with creeping bentgrass leaf cytokinins and drought resistance. Crop Science, 5: 1737-1745.