اثر پیش تیمار بذر با هیومیک اسید و روی بر برخی صفات مورفوفیزیولوژیک گیاهچه ذرت (.Zea Mays L) تحت شرایط شور

هدف از انجام این پژوهش بررسی تاثیر پیش‌تیمار بذر ذرت با هیومیک اسید و عنصر روی بر برخی صفات مورفوفیزیولوژیک گیاهچه ذرت تحت تنش‌شوری خاک بود. بدین منظور آزمایشی به صورت کرت‌های خردشده در قالب بلوک‌های کامل تصادفی با سه تکرار در گلخانه اجرا شد. تیمارهای آزمایش شامل شوری خاک (خاک غیرشور و شور به‌ترتیب با هدایت الکتریکی 2.2 و 8 دسی‌‌زیمنس ‌بر ‌متر) به عنوان فاکتور اصلی و پیش‌تیمار بذر در 4 سطح (شامل محلول‌های 250 میلی‌گرم برلیتر هیومیک اسید [ha]، 4 میلی‌مولار سولفات روی [zn]، محلول 250 میلی‌گرم بر‌لیتر هیومیک اسید+4 میلی‌مولار سولفات روی [ha+zn] و عدم پیش‌تیمار بذر به عنوان شاهد [co]) به عنوان فاکتور فرعی بودند. بعد از عمل آغشته‌سازی بذرها با تیمارهای مورد‌نظر، بذور در خاک‌ها کشت شدند و پس از گذشت شش هفته، کلیه گیاهچه‌ها به‌صورت تخریبی برداشت و برخی صفات مورفوفیزیولوژیک آنها اندازه‌گیری شد. نتایج نشان داد که شوری باعث کاهش معنی‌دار طول و وزن خشک اندام‌هوایی و ریشه، ‌سطح‌برگ، کلروفیل a، b و افزایش مقدار آنزیم‌های کاتالاز و سوپراکسیددیسموتاز و مقدار پرولین در گیاهچه‌ذرت شد اما پیش‌تیمار بذور با هیومیک اسید و روی باعث افزایش معنی‌دار این صفات شد. در بین تیمارهای مورد بررسی، تیمار ha+zn بیشترین تاثیر را در بهبود شاخص‌های رشد گیاهچه ذرت در هر دو خاک شور و غیر‌شور داشت. بیشترین میزان فعالیت آنزیم‌های کاتالاز و سوپراکسیددیسموتاز و نیز مقدار پرولین در شرایط تنش‌شوری و استفاده از تیمار [ha+zn] نسبت به سایر تیمارها مشاهده شد و همچنین تاثیر پیش‌تیمار بذور با هیومیک اسید نیز بیشتر از تاثیر پیش‌تیمار بذور با استفاده از سولفات روی بود.

Effect of seed priming by humic acid and zinc on some morpho-physiological traits of maize (Zea mays L.) seedlings under saline conditions

IntroductionSoil salinity is one of the most serious abiotic stress factors limiting crop productivity. Salinity disrupts plant morphophysiological processes because it causes an increase in reactive oxygen species (ROS). One of the relatively new methods to increase the plant yield and reduce oxidative stress under salinity stress is seed pretreatment or priming. Recently, compounds containing zinc as well as humic substances have been widely used to improve the quality and quantity of agricultural products. This study investigates the potential of seed priming by humic acid and zinc as the methods to overcome on limitations of seedling growth affected by soil salinity stress. Materials and methodsAn experiment was conducted as split plot using a randomized complete block design with three replications at 2019 in the research greenhouse of the Faculty of Agriculture, Shahid Chamran University of Ahvaz, Iran. Experimental treatments were included soil salinity (at two levels included nonsaline and saline soils with an electrical conductivity of 2.2 and 8 dS m1, respectively) as the main factor and seedpretreatment (at 4 levels included 250 mg l1 solution of humic acid [HA], 4 mM zinc sulfate [Zn], 250 mg l1 humic acid + 4 mM zinc sulfate [HA+Zn] and nonprimed seed as control [Co]) as subfactor. The maize seeds were disinfected and then pretreatment was carried out in such a way that the seeds were exposed to the desired treatments (HA, Zn, HA + Zn and Co) for 24 hours in dark room at 15 ˚C. After the soaking of the seeds with the solutions, 10 maize seeds were sown in both saline and nonsaline soils and cultivation was done in plastic pots and after reaching the 34 leaf stage, the density in each pot was reduced to 4 plants. In the sixth week at the start time of corn silk (stop the root growth), all the plants were harvested and some vegetative, physiological and biochemical traits were measured and analyzed.  Results and discussionThe analysis variance of salinity and seed pretreatment effects on the some morphophysiological traits of corn seedlings showed that salinity stress has significantly reduced the length of shoot and dry weight of the shoot and root, amount of chlorophylls a and b and the values of leaf area and increased the activities content of catalase and superoxide dismutase enzymes, as well as the amount of proline compared to seedlings grown in nonsaline soil so that the amount of length of shoot, dry weight shoot and root, leaf area, chlorophyll a and b were reduced 42.6, 38.9, 55.9, 33.9, 51.7 and 48.1%, respectively due to salinity, and the activities of catalase and superoxide dismutase enzymes were increased from 0.037 and 19.66 to 0.14, 30.54 U.mg1 protein, respectively and proline value was increased from 0.356 to 1.39 mg g1 FW. However, the priming of corn seeds significantly improved the morphophysiological traits of seedlings in both saline and nonsaline soils, so that the amount of dry root weight, which was significantly reduced due to salinity (55.9%), increased 38.1, 33.1 and 71.1% affected by priming with HA, Zn and HA+Zn treatments (compared to unprimed seeds in saline soil), respectively. It was also observed an incensement of 49.7, 44.1 and 68.6% for shoot length, 23.4, 5 and 51% for dry weight of shoot, 33.37, 29.21, and 46.4% for leaf area, 87.16, 60.36, and 101% for chlorophyll a, 45.89, 20.54 and 64.83% for chlorophyll b due to HA, Zn and HA+Zn treatments, respectively, in saline soils. Also, priming increased the amounts of antioxidant enzymes as well as proline in both saline and nonsaline soils, significantly.