Abstract
Intensive cultivation and introduction of input‐responsive high‐yielding varieties with application of major nutrients in rice–wheat rotation of Indo‐Gangetic plains (IGPs) lead to multiple nutrient deficiencies. A survey of Indian soils has shown that 40% are deficient in available zinc (Zn), 33% in sulfur (S), and 33% in boron (B). Studies have indicated that application of these nutrients with major nutrients can improve the crop productivity. Keeping the importance of aromatic rice in view, coated‐urea materials and their effects on rice yields, nitrogen (N), and Zn content in different parts and input economics are evaluated. Three field trials are conducted on aromatic rice to test boron‐coated urea (BCU), sulfur‐coated urea (SCU), and zinc‐coated urea (ZnCU) in 2013 and 2014. Results indicate that the highest yields are obtained with 0.5% BCU, 5.0% SCU, and 2.5% ZnCU as zinc sulfate heptahydrate. These treatments increase grain yield by 13%, 25%, and 17.9% over prilled urea (PU). Moreover, 0.5% BCU, 5% SCU, and 2.5% ZnCU register the highest N, S, and Zn contents in bran, husk, grain, and straw. Coated‐urea materials also improve use efficiencies and harvest index of N and Zn over PU. The findings of this study suggest that 0.5% boron, 5.0% sulfur, or 2.5% zinc‐coated urea show improvement in returns and benefit–cost ratio in aromatic rice of western IGPs.
Highlights
Introduction samples were deficient in availableZn, and the severity was least in Himachal Pradesh (1.4%) and highest in Tamil NaduRice (Oryza sativa L.) is the most important food crop (65.5%).[4]
Application of sulfur-coated urea (SCU) produced significantly higher leaf area index (LAI) over prilled urea (PU) and absolute control, and the highest LAI was recorded at 5.0% level (15.7 kg S ha−1)
Application of 0.5% boron-coated urea (BCU) produced longest panicle being at par with BCU materials but significantly longer than PU and absolute control
Summary
Introduction samples were deficient in availableZn, and the severity was least in Himachal Pradesh (1.4%) and highest in Tamil NaduRice (Oryza sativa L.) is the most important food crop (65.5%).[4]. The severity was least in Himachal Pradesh (1.4%) and highest in Tamil Nadu. Rice (Oryza sativa L.) is the most important food crop (65.5%).[4] Cereals cultivated on Zn-deficient soils have low in Asia and in the entire world as it feeds almost half of Zn content and bioavailability. Zn inadequacy accounts for about 4% of global morbidity and mortality. C. Ghasal ICAR–Indian Institute of Farming Systems Research Modipuram, Meerut 250110, India. L. Jat among children under five years of age.[5] Application of Zn fertilizers in rice crop significantly improves the grain yield and grain Zn concentration.[1,5] In India, zinc sulfate and zinc oxide are two most commonly available Zn fertilizers
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