با همکاری انجمن علمی منظر ایران

نوع مقاله : مقالات پژوهشی

نویسنده

دانشگاه ولایت ایرانشهر

چکیده

این مطالعه با هدف بهبود ویژگی‌های رویشی و زایشی بر روی گیاهچه‌های گل جعفری آفریقایی در قالب دو آزمایش جداگانه در گلخانه تحقیقاتی دانشگاه ولایت ایرانشهر در سال 1396 اجرا شد. تیمارهای آزمایش اول شامل غنچه‌گیری در دو سطح (عدم غنچه‌گیری و غنچه‌گیری در 20 روز بعد از کاشت) و نیتروژن در چهار سطح (0 درصد، 2 درصد، 4 درصد و 6 درصد) و تیمارهای آزمایش دوم شامل سه سطح ایندول استیک اسید (50، 100 و 150 میلی گرم بر لیتر) و سه سطح اسید جیبرلیک (100، 200 و 300 میلی گرم بر لیتر) و آب مقطر به عنوان شاهد بودند. کیفیت گیاهچه‌ها بر اساس ارتفاع و قطر گیاهچه، تعداد برگ، تعداد و طول شاخه فرعی، تعداد و قطر گل، وزن تر و خشک گل و تعداد روز تا گلدهی اندازه‌گیری شدند. نتایج نشان دادند که بیشترین ارتفاع گیاه (5/47 سانتی متر)، طول شاخه (50/21 سانتی متر)، قطر گل (25/5 سانتی متر)، وزن خشک گل (60/3 گرم) و وزن تر گل (8/0 گرم) در تیمار عدم غنچه‌گیری به همراه 6 درصد نیتروژن بدست آمد. بیشترین تعداد برگ (91)، تعداد شاخه (10) و تعداد گل (7) با غنچه‌گیری همراه با تیمار 6 درصد نیتروژن بدست آمد. کیفیت گیاهچه‌ها با محلول‌پاشی اسید جیبرلیک نسبت به ایندول استیک اسید افزایش چشمگیری داشت و با افزایش غلظت، کیفیت گیاهچه‌ها نیز افزایش یافت، به‌طوری‌که بیشترین ارتفاع گیاه (25/34 سانتی متر)، طول شاخه (23 سانتی متر)، تعداد برگ (42)، تعداد شاخه (14)، قطر گل (3 سانتی متر)، وزن خشک گل (65/0 گرم)، وزن تر گل (13/3 گرم)، تعداد گل (6) و کمترین تعداد روز تا گلدهی (31 روز) در محلول پاشی با اسید جیبرلیک در غلظت 300 میلی گرم بر لیتر ایجاد گردید.

کلیدواژه‌ها

عنوان مقاله [English]

Effect of Pinching, Spraying of Nitrogen and Plant Growth Regulators on Vegetative and Reproductive Characteristics of African Marigold

نویسنده [English]

  • Mahboobeh Zamanipour

Faculty of Technical and Engineering, Velayat University, Iranshahr, Iran

چکیده [English]

Introduction: African marigold is one of the most popular annual flowers in almost of countries. In the most ornamental plants, the flowering and yield depends on the flowering branches that can be increased with pinching. Nitrogen spraying is beneficial on the growth, production and quality improvement of marigold flowers. Among plant growth regulators, auxin and gibberellin play a crucial role in regulating the development processes of African marigold.
Material and Methods: This study was carried out in the research greenhouse of Velayat University of Iranshahr in two separate experiments in December 2017. The beds were prepared after mixing the soil with FYM (Farm Yard Manure) and the seeds of African marigold var. "African Double Orange" were sown on the bed at a distance of 10 cm between the row and 2 to 3 cm within the row. Transplanting of plantlets were performed in the 3 to 4 leaves stages in distances of 45 cm×35 cm. Treatments of the first experiment were contains of two stages of pinching (no pinching and pinching in 20 days after planting) and nitrogen spraying in four stages (0%, 2%, 4% and 6%). A factorial experiment was laid out in a complete randomized block design with three replications where each replication was comprised of six plantlets. Treatments of the second experiment consisted of three levels of indole acetic acid (50, 100 and 150 mgL-1) and three levels of gibberellic acid (100, 200 and 300 mgL-1) and distilled water as control. The first stage of auxin and gibberellin spraying, 20 days after planting and the second stage of spraying, was performed 50 days after planting.
On the harvest time (when the last flower harvested), measurement factors were contains of vegetative parameters (plant height and diameter, branch number, leaf number and branch length) and reproductive parameters (flower number, flower diameter, flower fresh weight and flower dry weight). Days taken to flowering were counted from transplanting till the date of flower bud opening.
Result and Discussion: Analysis of variance showed that pinching and nitrogen spraying had significant effects on plant height and diameter, branch number, leaf number and branch length per plant (P< 0.01). The highest plant height (47.5 cm), plant diameter (2.5 cm) and branch length per plant (21.5 cm) obtained in no pinching with 6% N treatment. This result showed that spraying of nitrogen could increase apical dominance and growth of longitudinal growth of plant. The maximum leaf number (91) and branch number (10) obtained in pinching 20 days after harvesting with 6% N treatment. When the apical dominance is removed, the lowering of IAA (Indol acetic acid) concentration increased the new branches. Increasing in new branches and positive effect of nitrogen spraying created new leaves. Analysis of variance showed that pinching and nitrogen spraying were not effective on flower diameter but had significant effects on flower number, flower fresh weight and flower dry weight. The highest flower number (7) were created in pinching supplemented with 6% N treatment. The highest flower fresh weight (3.60 g) and flower dry weight (0.8 g) were obtained in no pinching and 6% N treatment. Sing et al. (2017) reported that no pinching increased availability of more food material and better allocation of energy pertaining to less number of flowers. Therefore, this action increased the fresh and dry weight of flower. Analysis of variance showed that pinching and nitrogen spraying had significant effects on the number of days to bud flower initiation. The highest number of days to flowering (75 day) were obtained in pinching supplemented with 6% N treatment. Pinching of apical bud prevents from cell division in the lateral meristem. Nitrogen spraying also increased vegetative growth of plant and therefore, resulted in delaying the initiation of flower bud. The quality of seedlings significantly increased with gibberellic acid spraying compared to indole acetic acid. As the concentration increased, seedling quality increased, so that the highest plant height (34.25 cm), the length of each branch (23 cm), Leaf number (42), the number of branches (14), flower diameter (3 cm), dry weight of flower (0.65 g), fresh weight of flower (3.13 g), flower number (6) and the minimum number of days to flowering (31 days) were sprayed with gibberellic acid at a concentration of 300 mgL-1. Increasing the number of flowers by application of gibberellic acid treatments resulted from an increasing in plant height and the number of leaves per plant. Increasing the number of leaves increased the production and accumulation of photosynthetic assimilates, and these assimilates were directed to the flowers and resulted in the production of more flowers.
Conclusion: Pinching and Spraying of nitrogen had significant effects on the vegetative and reproductive traits of African marigold. Pinching reduced the apical dominance and induced more lateral branches that ultimately increased the flower number of marigold., Nitrogen spraying was also effective on the growth and quality improvement of marigold flowers and the highest number of flower and fresh and dry weight  of flowers induced with application of 6% N. In addition, the application of spraying of gibberellic acid had a direct correlation with height, the number of branches and the diameter of flowers and inversed relationship with the number of days to flowering. The concentration of 300 mgL-1 gibberellic acid had the greatest effect on the growth and reproductive characteristics of African marigold. Since, the African marigold is widely used in the garden and park landscapes, the application of 6% nitrogen or 300 mgL-1 of gibberellic acid is recommended to improve the reproductive characteristics of the flower.

کلیدواژه‌ها [English]

  • IAA
  • GA3
  • Plantlet quality
  • Urea
1- Badge S., Panchbhai D.M., and Gajbhiye R.P. 2015. Nutrient content, uptake and yield in African marigold (Tagetes erecta Linn) as influenced by pinching and foliar application of gibberellic acid. Indian Journal of Agricural Research 49(6): 534-538.
2- Bora R.K., and Sarma C.M. 2006. Effect of gibberellic acid and cycocel on growth, yield and protein content of pea. Asian Journal of Plant Sciences 5: 324-330.
3- Dabas H.K., Mitra L., and Dabas. S. 2001. Effect of different concentrations of GA3 MH and NAA on primary branches of marigold (Tagetes erecta L.). Journal of Indian Agriculture 45(3-4): 265-267.
4- Dalal S.R., Nandre D.R., Bharad S.G., Utgikar S., and Shinde R.D. 2006. Effect of pinching on carnation cv. Yellow Solar under polyhouse condition. International Journal of Agricultural Science 2(2): 356-357.
5- Dhaduk B.K., Kumara S., Singh A., and Desai J.R. 2007. Response of gibberellic acid on growth and flowering attributes in anthurium (Anthurium andreanum Lind.). Journal of Ornamental Horticulture 10(3): 187-189.
6- Dorajeerao A.V.D., and Mokashi A.N. 2012. Growth analysis as influenced by pinching time in garland chrysanthemum (Chrysanthemum coronarium L.). The Global Journal of Biochemistry and Biotechnology 1(2): 242-247.
7- Gou J., Strauss S.H., Tsai C.J., Fang K., Chen Y., Jiang X., and Busov. V.B. 2010 Gibberellins regulate lateral root formation in Populus through interactions with Auxin and other hormones. The Plant Cell 22: 623-639.
8- Hussain K., Hussain M., Majeed A., Nawaz K., Nisar M.F., and Afghan. S. 2010. Morphological response of scurf pea (Psoralea corylifolia L.) to indole acetic acid (IAA) and nitrogen (N). World Applied Sciences Journal 8: 1220-1225.
9- Khudus S., Prasad V.M., and Jogdand S.M. 2017. Effect of Plant Growth Regulators on Growth and Flower Yield of Calendula (Calendula officinalis L.) cv. Bon Bon. Chemical Science Review Letter 6(22): 1290-1294.
10- Koriesh E.M., Dahab A.M.A., and Ali. E.W.M. 1989. Physiological studies on Chrysanthemum morifolium Ramat. Effect of cycocel, gibberellic acid and nucleic acids on vegetative growth and some chemical components. Assiut Journal of Agricultural Science 20 (1): 27-41.
11- Kumar P., Raghava, S.P.S., Mishra R.L., and Singh. K.P. 2003. Effect of GA3 on growth and yield of China aster. Journal of Ornamental Horticulture, 6(2): 110-112.
12- Kumar R., Mohan R., and Gaur. G.S. 2010. Effect of GA3 and Ethrel on growth and flowering of African marigold cv. Pusa Narangi Gainda. Indian Journal of Horticulture 67: 362-366.
13- Kumar A., Kumar J., Mohan B.J.P., Singh J., Rajbeer P., and Ram. N. 2011. Effect of plant growth regulators on growth, flowering and yield of African marigold (Tagetes erecta L.) cv. Pusa Narangi Gainda. The Asian Journal of Horticulture.
14- Kumar V., Kumar V., Umrao V., and Singh. M. 2012. Effect of GA3 and IAA on growth and flowering of carnation. HortFlora Research Spectrum 1(1): 69-72.
15- Kumar H., Kumar J., Dev P., Ram N., and Kaviraj J. 2016. Effect of Nitrogen and GA3 on growth and flowering behavior of African marigold (Tagetes erecta L.) cv. Pusa Narangi Gainda. International Journal of Agricultural Invention 1(1): 84 – 87.
16- Maharnor S.I., Chopde N., Thakre S., and Raut, P.D. 2011. Effect of nitrogen and pinching on growth and yield of African marigold. Asian Journal of Horticulture: 6(1): 43-45.
17- Meena Y., Sirohi H.S., Tomar S.B., and Kumar S. 2015. Effect of planting time, spacing and pinching on growth and seed yield of African marigold cv. Pusa Narangi Gainda. Indian Journal of Agricultural Science, 85(6): 797-801.
18- Parhi R., Mohanti A., and Harichandan S. 2016. Performance of various characters in African marigold due to different in pinching levels and planting dates. Annals of Agri-Bio Research 21(1): 44-48.
19- Phengphachanh B., Naphrom D., Bundithya W., and Potapohn. N. 2012. Effects of Day-length and Gibberellic Acid (GA3) on Flowering and Endogenous Hormone Levels in Rhynchostylis gigantea (Lindl.) Ridl. Journal of Agricultural Science 4(4): 217-222.
20- Prakash S., Anitha P., Giridharan M.P., Rajgopalan A., and Rao S.V.G. 2016. Impact of seasons and pinching on growth and flowering in African marigold. Journal of Tropical Agriculture 54(1): 50-54.
21- Pushkar N.C., and Singh A. K. 2012. Effect of pinching and growth retardants on flowering and yield of African marigold (Tagetes erecta L.) var. Pusa Narangi Gainda. International Journal of Horticulture 2:1-4.
22- Rathore I., Mishra A., Moond S.K., and Bhatnagar P. 2011. Studies on effect of pinching and plant bio regulators on growth and flowering of marigold (Tagetes erecta L.). Progressive Horticulture 43(1): 52-55.
23- Sable P.B., Ransingh U.R., and Waskar D.P. 2015. Effect of Foliar Application of Plant Growth Regulators on Growth and Flower Quality of Gladiolus Cv. ‘H.B.Pitt’. Journal of Horticulture 2: 141.
24- Sajid M., Amin, N., Ahmad H., and Khan. K. 2016. Effect of gibberellic acid on enhancing flowering time in Chrysanthemum morifolium. Pakistan Journal of Botany 48(2): 477-483.
25- Sasikumar K., Baskaran V., and Abirami K. 2015. Effect of pinching and growth retardants on growth and flowering in African marigold cv. Pusa Narangi Gainda. Journal of Horticultural Science 10(1): 109-111.
26- Schmidt C., Belle A.B., Nardi C., Toledo A.K. 2003. The gibberellic acid) GA3) in the cut chrysanthemum (Dedranthema grandiflora Tzevelev.) viking: planting summer/autumn. Revista Ciência Rural 33(2): 1451-1455.
27- Sehrawat S.K., Dahiya D.S., Singh S., and Rana, G.S. 2003. Effect of nitrogen and pinching on growth, flowering and yield of marigold (Tagetes erecta L.) Cv. African Giant Double Orange. Haryana Journal of Horticultural Science 32(1, 2): 59-61.
28- Sharifuzzaman S.M., Ara K.A., Rahman M.H., Kabir K., and Talukdar M.B. 2011. Effect of GA3, CCC and MH on vegetative growth, flower yield and quality of chrysanthemum. International Journal of Experimental Agriculture 2(1): 17-20.
29- Singh K. 2003. Effect of growth regulators and shoot tip pinching on calendula. Journal of Ornamental Horticulture 6(2): 134-136.
30- Singh A.K. 2003b. Effect of growth regulators on growth and flowering in calendula (Calendula officinalis). Indian Perfumer 47(3): 275-278.
31- Singh V., Singh A.k., and Sisodia A. 2017. Growth and flowering of marigold as influenced by pinching and spraying of nitrogen. International Journal of Current Microbiology and Applied Sciences 6(7): 2283- 2287.
32- Swaroop K., Singh K.P., and Raju D.V.S. 2007. Vegetative growth, flowering and seed characters of African marigold (Tagetes erecta L.) as in fluenced by different growth substances during mild off seasons. Journal of Ornamental Horticulture 10(4): 268-270.
33- Vwioko E.D., and Longe M.U. 2009. Auxin and gibberellin effects on growth and fruit size in Lagenaria siceraria (Molina standley). Bioscience Research Communications 21: 263-271.
CAPTCHA Image