بررسی اثر محلولپاشی سولفات آهن و روی بر کاهش عارضه دانه سفیدی انار رقم ’شیشه کپ‘

نوع مقاله : مقالات پژوهشی

نویسندگان

1 مرکز تحقیقات کشاورزی و منابع طبیعی خراسان رضوی- بخش تحقیقات خاک و آب

2 مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی خراسان رضوی- بخش تحقیقات خاک و آب

چکیده

انار از محصولات مهم باغبانی است که در نواحی نیمه گرمسیری و حواشی کویر ایران کشت می‌شود. به منظور بررسی اثر محلولپاشی سولفات آهن و سولفات روی  بر کاهش عارضه دانه سفیدی رنگ دانه انار رقم ’شیشه کپ‘ آزمایشی به صورت فاکتوریل در قالب طرح بلوک کامل تصادفی در سه تکرار اجرا گردید. تیمارهای طرح شامل: عامل اول محلولپاشی سولفات آهن (صفر، 3، 6  درهزار) و عامل دوم  محلولپاشی سولفات روی (صفر، 3، 6  درهزار) بود. نتایج نشان داد که  محلول پاشی، غلظت عناصر را به طور معنی داری (در سطح 1 درصد) در برگ انار افزایش داد. بیشترین غلظت هر دو عنصر در برگ از سطوح محلول‌پاشی شش در هزار به دست آمد. اثر متقابل تیمارهای آهن و روی بر غلظت آهن در برگ انار نیز در سطح  1 درصد معنی دار بود و بیشترین غلظت آهن در برگ از تیمار توام محلول پاشی سولفات روی و سولفات آهن در غلظت 6 در هزار (7/257 میلی گرم بر کیلوگرم) بدست آمد. اثر خالص محلولپاشی سولفات آهن بر غلظت آهن در آب انار معنی‌دار نبود، اما اثر خالص محلول‌پاشی با سولفات روی باعث افزایش غلظت روی در آب انار ( 78/0 میلی گرم بر کیلوگرم ) شد. رنگ دانه انار در تیمارهای  شش درهزار سولفات روی تنها و تیمار توام سه در هزار سولفات روی بعلاوه سه در هزار سولفات آهن قرمزتر بود. لذا محلولپاشی سولفات روی و سولفات آهن با غلظت سه در هزار برای کاهش عارضه سفیدی دانه توصیه می‌شود.

کلیدواژه‌ها


عنوان مقاله [English]

The Effect of Iron and Zinc Sulfate Foliar Application on the Reduction of Seed Whitening of Shisheh-Cap Cultivar for Pomegranate Fruit

نویسندگان [English]

  • Hamidreza zabihi 1
  • Saeed Rezaeian 2
1 Soil and Water Research Department, Khorasan Razavi Agricultural and Natural Resource Research and Education Center
2 Soil and Water Research Department, Khorasan Razavi Agricultural and Natural Resource Research and Education Center
چکیده [English]

Introduction: Pomegranate is one of the most important horticultural products cultivated in tropical and subtropical regions of Iran. It plays a major role in the economic situation of the peoples of these areas. In recent years, due to the good quality of Iranian pomegranate, this product is considered to be of great interest to many different countries of the world. There are about 2,100 hectares of pomegranate in the Ferdows region, which is the dominant and major part of Ferdows pomegranate, and is called Shish Kap variety. Zinc and iron are two of the essential elements for the growth of all plants and over a century, the necessity of iron and zinc for plant nutrition have been identified. White seed disorders were reported in Ferdows region in 2001 for the first time. The results of pomegranate juice analysis of ferdows pomegranate samples showed the iron and zinc deficiency, compared to the normal pomegranate in that year. Based on this, considering the general condition of soils in the proposed area, the effect of iron and zinc on the removal of seed whitening of pomegranate was investigated.
Materials and Methods: In order to investigate the effect of spraying different concentrations of iron and zinc sulfate on the reduction of seed whitening, a factorial experiment based on a randomized complete block design with three replications was conducted in the pomegranate field of Ferdows region. The first factor included: spraying three concentrations of iron sulfate (0, 0.3 and 0. 6 %) and the second factor included the concentration of zinc sulfate (0, 0.3 and 0. 6 %). The distance gap between the trees was (2.5 * 3) meters and the garden age was about 12 years old. The soil and water were sampled from the garden. Each experimental plot was consisted of three trees, in which leaves and fruits were sampled for analysis from the middle tree. Samples were taken from the leaves before spraying. Spraying with the desired concentrations was carried out twice. Leaf and fruit samples were sent to the soil and water Laboratory. Each of the samples due to the peculiar color of the pomegranate juice was also sent to the laboratory for analysis. Pomegranate juice samples were then assigned to the quality control system of the seed and seedlings research department. Finally the brix and pH of the samples were determined.
Results and Discussion: The amount of nutrients in soil, and the mount of zinc and iron in the leaves were below the critical value. The deficiency of other elements in the soil and leaves were quite evident. The results showed that the concentration of iron and zinc elements increased significantly in pomegranate leaves (α = 1% level). Qinglong and Brown (1995) showed the same results. Spraying of Fe and Zn increased the concentration of these elements in the leaves, without any negative effects on the tree yield. The mean concentration of zinc and iron were lower in control treatments, which was more common in white seeds. The interaction effect of iron and zinc treatments on iron concentration in pomegranate leaves was significant (α = 1% level), and the highest iron concentration in leaf was obtained from zinc and iron sulfate solutions at the concentration level of 6,000.Pomegranate samples were analyzed in soil and water laboratory, and nutrient concentrations of the pomegranate juice were determined. The results showed that the pure effect of iron sulfate spraying on the concentration of pomegranate juice was not significant, but the pure effect of zinc sulfate solution increased zinc concentration of the pomegranate juice. The pure effect of zinc sulfate treatment, and the interaction effect of iron and zinc sulfate spraying treatments on pH of pomegranate juice were significant (α = 5% level). The pomegranate juice quality was evaluated in terms of color in a panel method. The results showed that all treatments increased the redness of pomegranate juice color. The best treatment in this study, was spraying at 0.6% zinc sulfate alone.
Conclusion: By spraying 0.6% zinc and iron sulfates, spray treatments increased the concentrations of iron and zinc in the leaves. However, due to the specific behavior of iron in the plant, the high pH of irrigation water and soil and the presence of carbonate and bicarbonate in irrigation water, the effect of iron absorbed in the leaves were not evident in the fruit. Spraying with iron and zinc sulfate improved pomegranate seed color. According to the results of the project implementation, and due to the high soil pH and organic matter deficiency, spraying with 0.6% zinc and iron sulfates is recommended.

کلیدواژه‌ها [English]

  • Key Words: Whitening of seed color
  • Zinc
  • Iron
  • Nutrition
- Avnish K.P.2007. Effect of N, K, Zn and B on growth, flowering and yield of pomegranate. Thesis for Master of Science in horticulture. Want singh parmar-university of Horticulture and Forestry. India.
2- Ata Hoseini A. 2001. Effect of several plant growth regulators on fruit quality and quantity characteristics and set percentage of flowers of pomegranates for shisheh cap CV in Ferdows. Master of Science Thesis. University of Shiraz. Shiraz. Iran.
3- Chundawat B., and Ranjitsingh S. 1980. Effect of growth regulators on phalsa (Grewia asiatica L.) 11. Chemical composition. Indian Journal of Horticulture. 37:255-261.
4- Davarpanah S., Tehranifar, A. and G. H. Davary nejad, J. Abadia, R. Khorasani, 2016. Effects of foliar applications of zinc and boron nano-fertilizers on pomegranate (Punica granatum CV. Ardestani) fruit yield and quality. Scientia Horticulturae. V of 210, 10, peygs: 57-64.
5- Dixit C.K., Gmdagni, R. and P.C. Jindal. 1978. Effect of foliar application of zinc and iron on chlorosis and yield of kinnow (a mandarin hybrid). Progress in Horticulture, 10 (1):13-19
6- Fawole O. A, and Opara U.L. 2013. Developmental changes in matwity indices of pomegranate fruit. A descriptive review. Scienta Horticulture. 159:154-161.
7- Fekri M., Malakouti M.J., and Kalbasi M. 1999. Effects of foliar application on the leaves nutrients concentration, fruit set, yield and quality of pistachio. Soil and water Journal. Vol12. No 2.
8- Hassani M., Zamani. Z, Savaghebi.G. and Fatahi R. 2014. Effects of zinc and manganese as foliar spray on Pomegranate yield, Fruit quality and minerals. Journal of Soil Science and Plant Nutrition. 7-12, N. 3. P: 471-480.
9- Khorsandi F. F. Yazdin A. and vazifeshenas M.R. 2009. Foliar Zinc fertilization improves are ketable fruit yield and quality attributes of pomegranate. International Journal of Agriculture and Biology. 11:766-770.
10-Lucena J.J and Apolaza. L.H. 2017. Iron nutrition in plants: An overview. Plant and Soil.418:1-4.
11- Malakouti M. J., Nafisi B., and Motashehzadeh B. 2001. National efforts for production of fertilizers as a step toward self-sufficiency and sustainable agriculture. Agriculture educational publishing Co.
12-Mendozaa F, Dejmekb P., and Aguileraa J. 2006. Calibrated color measurements of agricultural foods using image analysis. Journal of postharvest and biology and Technolgy, 41(3): 285-295.
13- Qinglong Z., and Brown P.H. 1995. Foliar spray at spring flush enhances zinc status of pistachio and walnut trees. Horticultural Science. 30 (4): 879-886.
14- Rasouli M.H., and Malakouti M.J. 2000. Investigating the using methods of zinc sulphate in prevention of zinc deficiency, mineral nutrients concentration and apple quality in salmas region (part2). Soil and water science journal. Vol 12. No 8.
15- Tallaei A. 1999. Physiology of fruit trees in temperate region. Translated.Tehran U.V. Publishing Co. 1st Edition.
16- Zaouay F., P. Mena., C. Garcia-viguera and M. Mars. 2012. Anti oxidant activity and Physico-chemical properties of Tunisian grown pomegranate (Punicer. Granatum L.) Cultivars. Industerial Crops and products. 40:81-80
17-Yu H., and Macaregor J.F. 2003. Digital imaging for online monitoring and control of industrial snack food processes. Journal of industrial and engineering chemistry, 64(13): 303b-3044.