بررسی اثر محلول‏ پاشی آهن، روی و منگنز بر صفات مرفولوژیک و زراعی گندم نان (رقم چمران) تحت رژیم های مختلف آبیاری

به ‏منظور بررسی اثر محلول‏ پاشی عناصر آهن، روی و منگنز بر صفات مرفولوژیک و زراعی گندم نان (رقم چمران) تحت رژیم آبیاری، آزمایشی به‏ صورت کرت‏ های خرد شده با چهار تکرار در سال زراعی 1396-1395 در شهرستان رامهرمز اجرا گردید. عوامل آزمایشی شامل رژیم آبیاری در دو سطح آبیاری کامل (عدم تنش آبی) و قطع آبیاری از آغاز مرحله پنجه ‏زنی تا رسیدگی فیزیولوژیک (تنش آبی) به ‏عنوان عامل اصلی و محلول ‏پاشی عناصر ریزمغذی در شش سطح عدم محلول‏ پاشی (شاهد)، محلول‏ پاشی با آب، آهن، روی، منگنز و آهن + روی + منگنز (هر کدام سه لیتر در هکتار) در سه مرتبه و در مراحل‏ پنجه ‏زنی، ساقه رفتن و گرده ‏افشانی به ‏عنوان عامل فرعی بودند. نتایج نشان داد، تنش آبی صفات طول پدانکل (26.62 درصد)، طول سنبله (12.87 درصد)، ارتفاع بوته (22.91 درصد)، تعداد پنجه در متر مربع (29.21 درصد)، تعداد سنبله در متر مربع (26.85 درصد)، تعداد دانه در سنبله (13.43 درصد)، وزن هزار دانه (17.37 درصد) و عملکرد دانه (46.10 درصد) را به ‏طور معنی ‏داری (p <0.01) کاهش داد. بااین‌وجود، کاربرد مجزا و تلفیقی آهن، روی و منگنز صفات اندازه‏ گیری شده را به ‏طور متوسط 15.20، 7.72، 7.32، 25.18، 23.24، 8.84، 8.76 و 32.63 درصد تحت تنش آبی به‏ ترتیب افزایش دادند. در این میان، کاربرد محلول‏ پاشی روی بیشترین اثر را در کاهش آسیب ناشی از تنش آبی بر صفات مورداندازه‌گیری نشان داد. به‌طورکلی، استفاده از عناصر ریزمغذی به ‏ویژه روی به ‏صورت محلول ‏پاشی می‏تواند اثرات زیان‏بار ناشی از تنش آبی را کاهش و موجب بهبود صفات مورفولوژیک و زراعی گندم نان در منطقه رامهرمز شود.

Study the effect of iron, zinc and manganese foliar application on morphological and agronomic traits of bread wheat (Chamran cultivar) under different irrigation regimes

Introduction Wheat (Triticum aestivum L.) is considered as the major cereal crop in the world in respect of the cultivated area and total production. Drought is a polygenic stress and is considered as one of the most important factors limiting crop yields around the world. Most of the Iranian soils, have a high pH and calcareous nature, and micronutrients solubility in these soils is low. Micronutrient deficiency is widespread in many Asian countries due to the calcareous nature of soils, high pH, low organic matter, salt stress, continuous drought, high bicarbonate content in irrigation water, and imbalanced application of NPK fertilizers. Micronutrients plays a critical role in increasing plant resistance to environmental stresses. Foliar nutrition is an option when nutrient deficiencies cannot be corrected by applications of nutrients to the soil. Foliar spraying of microelements is very helpful when the roots can not provide necessary nutrients. Iron as a micronutrient, is critical for chlorophyll formation and photosynthesis and is important in the enzyme systems and respiration of plants. Zinc is a ubiquitous micronutrient. It is required as a structural and functional component of many enzymes and proteins, and increases the yield and yield components of wheat. Manganese as a micronutrient, is necessary in photosynthesis, nitrogen metabolism and to form other compounds required for plant metabolism. Materials and methods To study the effect of iron, zinc and manganese foliar application on morphological and agronomic traits of bread wheat (Chamran cultivar) under irrigation regime, an experiment was conducted as splitplot with four replications in Ramhormoz city in the crop year 20162017. The experimental factors were included irrigation regime in two levels of complete irrigation (nonwater stress) and irrigation cut from the beginning of tillering stage to the physiological ripening (water stress) as the main factor, and micronutrients foliar application in six levels of nonfoliar application (control), foliar application by water, iron, zinc, manganese and iron + zinc + manganese (each 3 lit.h1) in three times and at tillering, stemming and pollination stages as the sub factor. Solutions for foliar application were prepared by using Iron chelate (6%), Zinc chelate (7.5%) and Manganese chelate (7%). The measured traits included Peduncle length, spike length, plant height, number of tillers per m2, number of spikes per m2, number of grain per spike, 1000seed weight and grain yield. At maturity, the inner two row of each plot unit were harvested to estimate grain yield, and sup sample of 1 m2 was obtained for determining Peduncle length, spike length, plant height, number of tillers per m2, number of spikes per m2, number of grain per spike, 1000seed weight. Analysis of variance was performed using general linear model (GLM) procedure of statistical analysis system (SAS version: 9.3). The means were analyzed using the least significant difference (LSD) method at P=0.05 (LSD 0.05). Results and discussion Results showed that the water stress decreased significantly (p < 0.01) traits of peduncle length (26.62%), spike length (12.87%), plant height (22.91%), number of tillers per m2 (29.21%), number of spikes per m2 (26.85%), number of grain per spike (13.43%), 1000seed weight (17.37%) and grain yield (46.10%). However, the separate and combined application of iron, zinc and manganese increased the measured traits on average 15.20, 7.72, 7.32, 25.18, 23.24, 8.84, 8.76 and 32.63 percent under water stress, respectively. Meanwhile, zinc application showed the greatest effect in reducing the damage caused by water stress on measured traits. Conclusions In general, the use of micronutrients, especially zinc, as foliar application, can reduce the harmful effects caused by water stress and improve the morphological and agronomic traits of bread wheat in Ramhormoz region.