@article { author = {Keshavarz, P. and Forouhar, M. and Dadivar, M.}, title = {Investigation of Zn Use Efficiency and Zn Fertilization Efficiency in Some Genotypes of Wheat}, journal = {Water and Soil}, volume = {29}, number = {6}, pages = {1711-1720}, year = {2016}, publisher = {Ferdowsi University of Mashhad}, issn = {2008-4757}, eissn = {2423-396X}, doi = {10.22067/jsw.v29i6.45579}, abstract = {Introduction: World cereal demand is growing at the present in accordance with the global expansion of human populations.Bread wheat is the most widely grown cereal grain with 65% (6.5 million hectares) of the total crop cultivated area in Iran. Deficiency of micronutrients in cereal cropping is one of the major worldwide problems. Zinc (Zn) is an essential micronutrient for plants. It plays a key role as a structural constituent or regulatory co-factor of a wide range of different enzymes and proteins in many important biochemical pathways. Nearly half of the world’s cereal-growing areas are affected by soil zinc deficiency, particularly in calcareous soils of arid and semiarid regions. High pH levels and bicarbonate anion concentration in these soils are the major factors resulting in low availability of Zn. About 40% of the soils, used for wheat production in Iran are Zn-deficient, which results in a decrease in growth and wheat grain yield under field conditions. Although application of zinc fertilizers is a common practice to correct Zn deficiency, growing varieties with high Zn efficiency has been reported to be a more sustainable approach. There is significant genetic variation both within and between plant species in their ability to maintain significant growth and yield under Zn deficiency conditions. Plant response to Zn deficiency and Zn fertilization are two distinct concepts. Knowing about these variations, can be very essential and useful for making correct fertilizer recommendation. Materials and Methods: In order to investigate Zn efficiency in various wheat genotypes, a factorial experiment as a randomized complete block design was carried out with three replications in agricultural research center of Khorasan razavi (Torough Station), during 2009-2011. Treatments consisted of two levels of Zn fertilizer (0 and 40 kg/h as ZnSO4) and six genotyps of wheat including: three cultivars and one line of bread wheat (Alvand, Falat, Toos, and C75-5 respectively), two species of wheat known as Thriticosecale and Durum. The plot size was 9*3.6 (32.4 m2). Soil fertility status showed 0.05% nitrogen, 7.2 mgkg-1 phosphorus, 180 mgkg-1 potassium and 0.52 mgkg-1 DTPA extractable zinc. At defined phonological stage (SG6 based on Fix’s Index) Zn concentration in shrub was measured. Also grain yield and Zn uptake by grain were determined at the end of ripening stage. Zinc use efficiency, agronomic efficiency and apparent recovery efficiency were calculated according to “Graham, et al.”, “Craswell and Godwin” and “Raun and Johnson” respectively. Zinc use efficiency can be defined as the ratio of grain yield or shoot dry matter yield produced under Zn deficiency to that produced under Zn fertilization. Results and Discussion: Grain yield is the most integrative trait of a particular genotype. The results showed that Zn application increased significantly grain yield by 12.61% in comparison with control. This result is supported by Ziayeian and Malakouti (1999). Who reported that Zn application significantly increased the wheat yield (17%). In our research the highest grain yield increase due to Zn application was found in durum wheat (23.5%), and the lowest grain yield increase, were found in Toos cultivar (1.3% yield increase). Cakmak and et al (1997) also obtained more yield with the application of zinc in durum wheat. Application of Zn increased Zn concentration and uptake in grain, 8.6% and 21.5% respectively. Also, application of Zn significantly increased Zn concentration in shoot (36.5%) over the control. Similarly, Moshiri et al (2010) reported increase of Zn concentration in shoot with application of Zn fertilizer. Zn use efficiency in bread wheat genotype, Durum and Thriticosecale wheat was ranked as: Durum < C75-5 < Alvand < Falat < Triticale ~ Toos. The findings of Khoshgoftarmanesh et al (2004) showed that, Durum wheat is Zn inefficient genotype. According to our research results, Toos and Falat cultivars and Thriticosecale have higher efficiency than Alvand and C75-5 cultivars and Durum wheat. The results also suggest that to obtain higher yield in Durum wheat, soil and foliar application of Zn is more necessary in comparison with other genotypes especially Toos and Thriticosecale. Conclusion: wheat genotypes were different in their response to Zn deficiency and Zn supply. Thriticosecale and Toos were the most Zn efficient genotypes, whereas Durum and C75-5 were the most responding to Zn supply. So, without considering these differences, accurate fertilizer recommendation cannot be achieved. For organic farming and low input agriculture systems in regions similar to this experiment location (Torough Station), Thriticosecale and Toos could be suggested. However, for improvement of wheat grain yield and achieve desired quality in calcareous soil, most of the time, it is necessary to use the Zinc fertilizers.}, keywords = {Durum,Thriticosecale,wheat,Zinc Efficient Genotype,Zinc Use Efficiency}, title_fa = {بررسی کارایی مصرف روی در برخی ژنوتیپ های گندم و مقایسه کودپذیری آنها}, abstract_fa = {اگرچه از دیدگاه کشاورزی پایدار و طبیعت محور، گیاهان عنصر کارآ از اهمیت ویژه ای برخوردارند، ولی در تصمیم گیری های کلان برای تولید محصولات زراعی و باغی با در نظر گرفتن ملاحظات اجتماعی، اقتصادی و زیست محیطی ممکن است در شرایطی، ارقام عنصر کارا و در شرایطی، ارقام کودپذیر مورد توجه واقع شده و برای کشت و کار انتخاب شوند. به منظور مقایسه برخی ژنوتیپ های گندم از لحاظ کارایی مصرف روی (Zn) و کودپذیری آن ها، آزمایشی به صورت فاکتوریل، در قالب طرح بلوک های کامل تصادفی با سه تکرار در ایستگاه تحقیقات کشاورزی و منابع طبیعی خراسان رضوی (طرق) طی سال های زراعی 90-1388 انجام گردید. فاکتور های آزمایش شامل 6 ژنوتیپ گندم (گونه های گندم تریتیکاله و دوروم (رقم بلیخ – 2) و ارقام الوند، فلات و طوس و لاین C75-5)) و دو مقدار مصرف سولفات روی خشک ( صفر و 40 کیلوگرم در هکتار) بود. بر اساس نتایج تجزیه مرکب دو ساله داده ها، مصرف روی به طور میانگین موجب افزایش معنی‌دار عملکرد دانه به میزان 61/12 درصد در ژنوتیپ های گندم، نسبت به شاهد گردید. در بین ارقام، بیشترین و کمترین کارایی زراعی سولفات روی به ترتیب در گندم دوروم (93/92) و رقم طوس (97/5) مشاهده گردید. اثر مصرف روی بر غلظت و جذب روی در دانه گندم معنی دار (در سطح احتمال 5%) شد. مصرف روی، غلظت و جذب روی را در دانه به ترتیب 6/8 و 5/21 درصد نسبت به شاهد افزایش داد. کارایی مــصرف روی (روی کارآیی) در گــونه‌ها و ارقام مختــلف گندم بـــصورت طوس ~ تریتیــکاله < فــلات < الــوند < C75-5 < دوروم، بدست آمد.}, keywords_fa = {ارقام گندم,تریتیکاله,دوروم,روی کارآ}, url = {https://jsw.um.ac.ir/article_38283.html}, eprint = {https://jsw.um.ac.ir/article_38283_d731be3e08ad57a1a752177e4700ebe2.pdf} }