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اثر محلولپاشی روی بر عملکرد، کیفیت دانه و بنیۀ بذور دو رقم سویا تحت تنش کمآبی | ||
| به زراعی کشاورزی | ||
| مقاله 1، دوره 16، شماره 2، شهریور 1393، صفحه 215-229 اصل مقاله (784.74 K) | ||
| نوع مقاله: مقاله پژوهشی | ||
| شناسه دیجیتال (DOI): 10.22059/jci.2014.53037 | ||
| نویسندگان | ||
| سمیه کرمی1؛ سید علی محمد مدرس ثانوی* 2؛ فائزه قناتی3؛ مهرداد مرادی قهدریجانی4 | ||
| 1کارشناس ارشد، گروه زراعت، دانشکدۀ کشاورزی دانشگاه تربیت مدرس، تهران. | ||
| 2استاد، گروه زراعت، دانشکدۀ کشاورزی، دانشگاه تربیت مدرس، تهران | ||
| 3دانشیار، گروه علوم گیاهی، دانشکدۀ علوم زیستی، دانشگاه تربیت مدرس، تهران | ||
| 4کارشناس ارشد، گروه کشاورزی، دانشگاه پیام نور واحد کرج، کرج | ||
| چکیده | ||
| بهمنظور بررسی آثار تنش کمبود آب و محلولپاشی روی بر عملکرد، کیفیت دانه، بنیۀ بذور و محتوای عنصر روی اندامهای مختلف ارقام سویا، آزمایشی بهصورت اسپلیت پلات فاکتوریل در قالب طرح بلوکهای کامل تصادفی با سه تکرار انجام گرفت. عامل اصلی شامل تنش کمآبی در سه سطح (بدون تنش، تنش در مرحلۀ رشد رویشی و تنش در مرحلۀ رشد زایشی)، و عامل فرعی از ترکیب دو رقم L17 و کلارک 63 و سه سطح محلولپاشی در سه سطح (بدون محلولپاشی، محلولپاشی آب مقطر و محلولپاشی سولفات روی) بهدست آمد. نتایج نشان داد که صفات بررسیشده، تحت تأثیر تیمارهای آزمایشی قرار گرفتند. تنش کمآبی در هر دو مرحلۀ رویشی و زایشی سبب کاهش عملکرد دانه، مقدار عنصر روی اندامهای مختلف گیاه، درصد پروتئین و روغن دانه و شاخص قدرت گیاهچۀ سویا شد، اما درصد بذور سخت را در مراحل رویشی و زایشی بهترتیب 189 و 472 درصد افزایش داد. رقم کلارک 63 مقاومت بیشتری تحت تنش کمآبی داشت. بیشترین کاهش عملکرد دانه در وضعیت تنش در مرحلۀ رشد زایشی مشاهده شد. محلولپاشی روی بهترتیب عملکرد دانه، محتوای عنصر روی دانه، مقدار پروتئین دانه و شاخص قدرت گیاهچه را 34، 26، 5 و 38 درصد افزایش داد، اما درصد روغن دانه و بذور سخت را بهترتیب 4 و 58 درصد کاهش داد. محلولپاشی عنصر روی، رقم L17 را بیشتر از کلارک 63 تحت تأثیر قرار داد و عملکرد آن را فزونی بخشید. | ||
| کلیدواژهها | ||
| پروتئین دانه؛ روغن دانه؛ سویا؛ شاخص قدرت گیاهچه؛ کمبود آب | ||
| عنوان مقاله [English] | ||
| Effect of foliar zinc application on yield, seed quality and seed vigor of two soybean cultivars under water deficit | ||
| نویسندگان [English] | ||
| somayeh karami1؛ Seyed Ali Mohammad Modarres-Sanavy2؛ Faezeh Ghanati3؛ MEHRDAD Moradi4 | ||
| 1M.Sc., Department of Agronomy, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran | ||
| 2Professor, Department of Agronomy, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran | ||
| 3Associate Professor, Department of Plant Science, Faculty of Biological Sciences, Tarbiat Modares University, Tehran, Iran | ||
| 4M.Sc., Department of Agriculture, Payame Nour University, Karaj, Iran | ||
| چکیده [English] | ||
| In order to study the effects of water deficit stress and zinc foliar application on yield, seed quality, seed vigor and zinc content of different organs of soybean cultivars, an experiment was conducted in randomized complete block design arrangement as a split factorial with three replications. Main factor was three levels of drought stress (non stress, water stress in vegetative growth stage (S1) and water stress in flowering stage (S2)) and subordinate factor was combination of foliar zinc application and cultivar. Foliar zinc application in three levels (non foliar application, water foliar application and zinc sulfate (5000 ppm)) foliar application and two cultivars (‘L17’ and ‘Clarck 63’) were used in this experiment. Results showed that traits were affected by treatments. Water deficit stress in both vegetative and reproductive stages caused to decrease the yield, zinc content of organs, seed protein and oil percentage and seed vigor, but hard seed percentage were increased to 189 and 472 in S1 and S2, respectively. ‘Clark 63’ was desirable under water deficit stress. The highest yield reduction was observed for stress treatment at the reproductive growth stage. Zinc sulfate foliar application increased the yield, zinc content of seed, seed protein percentage and seedling vigor 34, 26, five and 38 percent, respectively, but decreased seed oil percentage and hard seed percentage four and 58, respectively. Zinc foliar application was more effective in yield increment of ‘L17’ than ‘Clarck 63’. | ||
| کلیدواژهها [English] | ||
| seed oil, Seed protein percentage, Seedling vigour, soybean, Water deficit | ||
| مراجع | ||
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1 . سرمدنیا غ (١٣٧٢) اهمیت تنشهای محیطی در زراعت .مقالات کلیدی اولین کنگرة زراعت و اصلاح نباتات ایران. کرج. 15-18 شهریور. 157-172. 2 . Abdul-Baki AA and Anderson JD (1973) Vigor determination in soybean by multiple criteria. Crop Science. 13: 630-633.
3 . Baybordi A (2006) Zinc in soils and crop nutrition. Parivar Press. First Edition. P. 179.
4 . Benjamin J (2007) Effects of water stress on corn production. USDA Agricultural Research Service, Akron. Pp: 3-5.
5 . Boyer JS, Johnson RR and Saupe SG (1980) Afternoon water deficits and grain yields in old and new soybean cultivars. Agronomy. 72: 981-985.
6 . Chaoui A, Ghorbal MH and El Ferjani E (1997) Effects of Cadmium-zinc interactions on hydroponically grown bean (Phaseolus vulgaris L.). Plant Science. 126: 21-28.
7 . Devlin RM and Withan FH (1983) Plant physiology. 4th Ed. Wadsworth Publishing Company. A division of wadsworth. Inc. Belmont, California.
8 . Edje OT and Burris JS (1970) Seedling vigour in soybeans. Proceedings of the Association of Official Seed Analysts. 60: 149-157.
9 . Foroud N, Mundel HH, Saindon G and Entz T (1993) Effect of level and timing of moisture stress on soybean yield, protein, and oil responses. Field Crops Research. 31: 195-209.
10 . Gadallah NAA (2000) Effects of indol -3-acetic acid and zinc on the growth, osmotic potential and soluble carbon and nitrogen components of soybean plants growing under water deficit. Arid Environments. 44: 451-567.
11 . Grewal HS and Williams R (2000) Zinc nutrition affects alfalfa response to water stress and excessive moisture. Plant Nutrition. 23: 942-962.
12 . Havlin JL, Beaton JD, Tisdale SL and Nelson WL (1999) Soil Fertility and Fertilizers. Prentice Hall, New Jersey. 6th Edition. 499 pp.
13 . Haslett BS, Reid RJ and Rengel Z (2001) Zinc mobility in wheat: Uptake and distribution of zinc applied to leaves or roots. Annals of Botany. 87: 379-386.
14 . Hemantaranjan A (1996) Physiology an biochemical significance of zinc in plants. (In) Advancement in Micronutrient Research, pp 151-178. Hemanteranjan, A. Scientific Publishers, Joudhpur, Rajasthan, India.
15 . Howell RW and Carter JL (1958) Physiological factors affecting composition of soybeans. II. Response of oil and other constituents of soybeans to temperature under controlled conditions. Agronomy. 50: 64-667.
16 . Lauer J (2003) What happens within the corn plant when drought occurs? Corn Agronomist. 10(22): 153-155.
17 . Mekki BB, EL-Kholy MA and Mohamed EM (1999) Yield, oil and fatty acids contents as affected by water deficit and potassium fertilization in two sunflower cultivars. Agronomy. 21: 67-85.
18 . Mohan CVK and Rao GR (1989) Influence of foliar application of calcium on growth performance, chlorophyll and protein contents in groundnut under water stress. Narendra Deva. Agricultural Research. 4: 7-11.
19 . Novozamsky I, Van Eck R, Van Schouwenburg JCh and Walinga I (1974) Total nitrogen determination in plant material by means of the indophenol blue method. Netherlands Journal Of Agricultural Science. 22: 3-5.
20 . Paulsen J (1991) Relationship among maize quality factors. Cereal Chemistry. 68(6): 602-605.
21 . Rengel Z and Graham RD (1995) Importance of seed Zn contents for growth on Zn-deficient soil. I. Vegetative growth. Plant and Soil Sciences. 173: 259-266.
22 . Shaw RH and Laing DR (1966) Moisture stress and plant response. In: W. H. Pierre, D. Kirkham, J. Pesek and R. Shaw (Editors), plant ENVIRONMENT and Efficient Water Use. American Society of Agronomy, Soil Science Society of America, Madison. Wis., pp. 73-94.
23 . Smith D (1975) Forage managemenr in the north. 3rded. Kendall HuntPubl. Co., Dubuque, Iowa. 237 pp.
24 . Thalooth AT, Tawfik MM and Magda Mohamed H (2006) A comparatre study on the effect of Foliar Application of Zinc, Potassium and Magnesium on Growth, yield and some chemical constituents of Mungbean plants Grown under water stress condition. Agriculture Sciences. 2(1): 37-46.
25 . Vieira RD, Tekrony DM and Egli DB (1992) Effect of drought and defoliation stress in the field in the on soybean seed germination and vigour. Crop Science. 32: 471-475.
26 . Welch RM (1999) Importance of seed mineral nutrient reserves in crop growth and development. Food Products Press. Pp. 205-226.
27 . Welch RM (2001) Impact of mineral nutrients in plants on human nutrition on a worldwide scale. Plant Nutrition-Food Security and Dordrecht, Netherlands. Pp. 284-258.
28 . www.agri-jahad.ir/Portal/Home/Default.aspx?CategoryID=95a8e7d0-e5f0-4f2d-a241-792106c74dcc. | ||
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