Super-Optimal NPK Along with Foliar Iron Application Influences Bioavailability of Iron and Zinc of Wheat

详细信息    查看全文

• 作者：Rajiv Rakshit ; A. K. Patra…
• 关键词：Ferti ; fortification ; Foliar iron ; Mineral fertilizers ; Molar ratio ; Wheat grains
• 刊名：Proceedings of the National Academy of Sciences, India Section B: Biological Sciences
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：86
• 期：1
• 页码：159-164
• 全文大小：377 KB
• 参考文献：1.USDA (2013) Production, supply and distribution. www.​fas.​usda.​gov/​psdonline
  2.FAO (2012) The state of food insecurity in the world 2012. Food and Agriculture Organization of the United Nations, Rome
  3.Murphy KM, Reeves PG, Jones SS (2008) Relationship between yield and mineral nutrient concentrations in historical and modern spring wheat cultivars. Euphytica 163:381–390CrossRef
  4.Gibson RS, Bailey KB, Gibbs M, Ferguson EL (2010) A review of phytate, iron, zinc, and calcium concentrations in plant-based complementary foods used in low-income countries and implications for bioavailability. Food Nutr Bull 31:134–146CrossRef
  5.Aciksoz SB, Yazici A, Ozturk L, Cakmak I (2011) Biofortification of wheat with iron through soil and foliar application of nitrogen and iron fertilizers. Plant Soil 349:215–225CrossRef
  6.Kutman UB, Yildiz B, Ozturk L, Cakmak I (2010) Biofortification of durum wheat with zinc through soil and foliar application of nitrogen. Cereal Chem 87:1–9CrossRef
  7.Kutman UB, Yildiz B, Cakmak I (2011) Improved nitrogen status enhances zinc and iron concentrations both in whole grain and the endosperm fraction of wheat. J Cereal Sci 53:118–125CrossRef
  8.Lindsay WL, Norvell WA (1978) Development of a DTPA soil test for zinc, iron, manganese and copper. Soil Sci Soc Am J 42:421–428CrossRef
  9.Piper CS (1967) Soil and Plant analysis. Asia Publishing House, Bombay
  10.Jackson ML (1973) Soil chemical analysis. Prentice hall of India Pvt Ltd, New Delhi
  11.Gomez KA, Gomez AA (1984) Statistical procedures for agricultural research. John Wiley and Sons, New York
  12.Bameri M, Abdolshahi R, Mohammadi-Nejad G, Yousefi K, Tabatabaie SM (2012) Effect of different microelement treatment on wheat (Triticum aestivum) growth and yield. Intl Res J Appl Basic Sci 3:219–223
  13.Babaeian M, Tavassoli A, Ghanbari A, Esmaeilian Y, Fahimifard M (2011) Effects of foliar micronutrient application on osmotic adjustments, grain yield and yield components in sunflower (Alstar cultivar) under water stress at three stages. Afr J Agric Res 6:1204–1208
  14.Liu X, Ju X, Zhang F, Pan J, Christie P (2003) Nitrogen dynamics and budgets in a winter wheat–maize cropping system in the North China Plain. Field Crop Res 83:111–124CrossRef
  15.Zhang YQ, Shi RL, Karim MR, Zhang FS, Zou CQ (2010) Iron and zinc concentrations in grain and flour of winter wheat as affected by foliar application. J Agr Food Chem 58:12268–12274CrossRef
  16.Cakmak I, Pfeiffer WH, McClafferty B (2010) Biofortification of durum wheat with zinc and iron. Cereal Chem 87:10–20CrossRef
  17.Alcaraz CF, Martínez-Sánchez F, Sevilla F, Hellln E (1986) Influence of ferredoxin levels on nitrate reductase activity in iron deficient lemon leaves. J Plant Nutr 9:1405–1413CrossRef
  18.Curie C, Cassin G, Couch D, Divol F, Higuchi K, Jean ML, Misson J, Schikora A, Czernic P, Mari S (2009) Metal movement within the plant: contribution of nicotianamine and yellow stripe 1-like transporters. Ann Bot-Lond 103:1–11CrossRef
  19.Pahlavan-Rad M, Pessarakli M (2009) Response of wheat plants to zinc, iron, and manganese applications and uptake and concentration of zinc, iron, and manganese in wheat grains. Commun Soil Sci Plan 40:1322–1332CrossRef
  20.Borg S, Brinch-Penderson H, Tauris B, Holm PB (2009) Iron transport, deposition and bioavailability in the wheat and barley grain. Plant Soil 325:15–24CrossRef
  21.Tauris B, Borg S, Cregerson PL, Holm PB (2009) A roadmap for zinc trafficking in the developing barley grain based on laser capture dissection and gene expression profiling. J Exp Bot 60:1333–1347PubMedCentral CrossRef PubMed
  22.Ryan MH, McInerney JK, Record IR, Angus JF (2008) Zinc bioavailability in wheat grain in relation to phosphorus fertiliser, crop sequence and mycorrhizal fungi. J Sci Food Agric 88:1208–1216CrossRef
  23.Zhang YQ, Deng Y, Chen RY, Cui ZL, Chen XP, Yost R, Zhang FS, Zou CQ (2012) The reduction in zinc concentration of wheat grain upon increased phosphorus-fertilization and its mitigation by foliar zinc application. Plant Soil 361:143–152CrossRef
  24.Prattley CA, Stanley DW, van de Voort FR (1982) Protein-phytate interactions in soybeans. II. Mechanism of protein-phytate binding as affected by calcium. J Food Biochem 6:255–271CrossRef
  25.Zhu YG, Smith SE, Smith FA (2001) Zinc (Zn)-phosphorus (P) interactions in two cultivars of spring wheat (Triticum aestivum L.) differing in P uptake efficiency. Ann Bot-Lond 88:941–945CrossRef
  26.Verma TS, Minhas RS (1987) Zinc and phosphorus interaction in a wheat-maize cropping system. Nutr Cycl Agroecosyst 13:77–86
  27.Bohn L, Meyer AS, Rasmussen SK (2008) Phytate: impact on environment and human nutrition. A challenge for molecular breeding. J Zhejiang Univ Sci 9:165–191CrossRef
  28.Tang J, Zou C, He Z, Shi R, Ortiz-Monasterio I, Qu Y, Zhang Y (2008) Mineral element distributions in milling fractions of Chinese wheats. J Cereal Sci 48:821–828CrossRef
  29.Egli I, Davidsson L, Zeder C, Walczyk T, Hurrell R (2004) Dephytinization of a complementary food based on wheat and soy increases zinc, but not copper, apparent absorption in adults. J Nutr 134:1077–1080PubMed
  
• 作者单位：Rajiv Rakshit (1) (4)
  A. K. Patra (1)
  T. J. Purakayastha (1)
  R. D. Singh (1)
  H. Pathak (2)
  Shiva Dhar (3)
  
  1. Division of Soil Science and Agricultural Chemistry, Indian Agricultural Research Institute (IARI), New Delhi, 110012, India
  4. Department of Soil Science and Agricultural Chemistry, Bihar Agricultural University, Bhagalpur, Bihar, India
  2. CESCRA, Indian Agricultural Research Institute (IARI), New Delhi, 110012, India
  3. Division of Agronomy, Indian Agricultural Research Institute (IARI), New Delhi, 110012, India
  
• 刊物主题：Life Sciences, general; Behavioural Sciences; Plant Biochemistry; Nucleic Acid Chemistry;
• 出版者：Springer India
• ISSN：2250-1746

文摘

Deficiency of wheat grain iron (Fe) and zinc (Zn) is common nutritional problem in the developing countries and thus increasing their concentrations is a major challenge. Field experiments were conducted to investigate the effect of different levels of fertilizer nitrogen, phosphorus, potassium (100–200 % NPK) and foliar Fe application (3 % FeSO₄.7H₂O at 40, 60, and 75 days after sowing) on improving Fe and Zn concentrations in grain and molar ratio of phosphorus/iron (P/Fe) and phosphorus/zinc (P/Zn). Data obtained during the two year (2010–2011 and 2011–2012) field experiment reveals that foliar Fe spray along with fertilizer NPK significantly increased the grain Fe concentration by 6–15 %; whereas a sharp decrease in the grain Zn concentration under super optimal fertilization is attributed to the depressive effect of excessive phosphorus in the treatments. Molar ratio of P/Fe in wheat grains signifies the increased bioavailability of Fe in wheat grains but P/Zn increase under super-optimal NPK application calls for P management to correct the reduced level of Zn in wheat grains.