Agrawal, S. C., Jolly, M. S., & Sinha, A. M. (1980). Foliar constituents of secondary food plants of tasar silk Antheraea mylitta. The Indian Forester,106, 847–851.
Alam, S., Kamei, S., & Kawai, S. (2001). Effect of iron deficiency on the chemical composition of the xylem sap of barley. Soil Science and Plant Nutrition,47, 643–649.
Anonymous. (2007). Global childhood malnutrition. Lancet,367, 1459.
Borrill, P., Connorton, J., Balk, J., Miller, A. J., Sanders, D., & Uauy, C. (2014). Biofortification of wheat grain with iron and zinc: Integrating novel genomic resources and knowledge from model crops. Frontiers in Plant Science,5, 53.
Cakmak, I. (2000). Possible roles of zinc in protecting plant cells from damage by reactive oxygen species. New Phytologist,146(2), 185–205.
Cakmak, I. (2002). Plant nutrition research: Priorities to meet human needs for food in sustainable ways. Plant and Soil,247(1), 3–24.
Cakmak, I. (2008). Enrichment of cereal grains with zinc: Agronomic or genetic biofortification? Plant and Soil,302, 1–17.
Cakmak, I., Pfeiffer, W. H., & McClafferty, B. (2010). Biofortification of durum wheat with zinc and iron. Cereal Chemistry,87(1), 10–20.
De-Valença, A. W., Bake, A., Brouwer, I. D., & Giller, K. E. (2017). Agronomic biofortification of crops to fight hidden hunger in sub-Saharan Africa. Global Food Security,12, 8–14.
Government of Pakistan (GOP). (2017). Agriculture sector. Pakistan Economic Survey 2015–2016 (pp. 21–23). Government of Pakistan, Islamabad: Ministry of Finance.
Government of Pakistan (GOP). (2018). Agriculture sector. Pakistan Economic Survey 2016–2017 (pp. 13–14). Islamabad: Ministry of Finance Government of Pakistan.
Graham, R. D., & Welch, R. M. (1996). Breeding for staple food crops with high micronutrient density (Vol. 3). Washington, D.C.: International Food Policy Research Institute.
Habib, M. (2009). Effect of foliar application of Zn and Fe on wheat yield and quality. African Journal of Biotechnology,8(24), 6795–6798.
Hasina, G., Said, A., Saeed, B., Mohammad, F., & Ahmad, I. (2011). Effect of foliar application of nitrogen, potassium and zinc on wheat growth. Journal of Agricultural Science,6, 56–58.
Hassan, N., Irshad, S., Saddiq, M. S., Bashir, S., Khan, S., Wahid, M. A., et al. (2019). Potential of zinc seed treatment in improving stand establishment, phenology, yield and biofortification of wheat. Journal of Plant Nutrition,42(14), 1676–1692.
Imtiaz, M., Alloway, B. J., Shah, K. H., Siddiqui, S. H., Memon, M. Y., Aslam, M., et al. (2003). Zinc nutrition of wheat: II: Interaction of zinc with other trace elements. Asian Journal of Plant Science,2, 156–160.
Imtiaz, M., Rashid, A., Khan, P., Memon, M. Y., & Aslam, M. (2010). The role of micronutrients in crop production and human health. Pakistan Journal of Botany,42(4), 2565–2578.
Jackson, M. T. (2009) Revitalizing the rice wheat cropping systems of the Indo-Gangetic Plains: Adaptation and adoption of resource conserving technologies in India, Bangladesh, and Nepal. Final Report No. DPPC2007–100. International Rice Research Institute, Los Baños, Philippines.
Jawaldeh, A. A., Pena-Rosas, J. P., McColl, K., Johnson, Q., Elmadfa, I., & Nasreddine, L. (2019). Wheat flour fortification in the Eastern Mediterranean Region. Cairo: WHO Regional Office for the Eastern Mediterranean. Licence: CC BY-NC-SA 3.0 IGO.
Johnson, S. E., Lauren, J. G., Welch, R. M., & Duxbury, J. M. (2005). A comparison of the effects of micronutrient seed priming and soil fertilization on the mineral nutrition of chickpea (Cicer arietinum), lentil (Lens culinaris), rice (Oryza sativa) and wheat (Triticum aestivum) in Nepal. Experimental Agriculture,41, 427–448.
Kenzhebayeva, S., Abekova, A., Atabayeva, S., Yernazarova, G., Omirbekova, N., Zhang, G., et al. (2019). Mutant lines of spring wheat with increased iron, zinc, and micronutrients in grains and enhanced bioavailability for human health. Biomedical Research and Science,2019, 1–10.
Khan, S., Mirza, K. J., Anwar, F., & Abdin, M. Z. (2010). Development of RAPD markers for authentication of Piper nigrum L. Environment & We An International Journal of Science & Technology,5, 53–62.
Li, M., Wang, S., Tian, X., Li, S., Chen, Y., Jia, Z., et al. (2016). Zinc and iron concentrations in grain milling fractions through combined foliar applications of Zn and macronutrients. Field Crops Research,187, 135–141.
Marschener, H. (1995). Boron. In H. Marschner (Ed.), Mineral nutrition of higher plants (2nd ed., pp. 379–396). San Diego: Academic Press.
Memon, M. N., Jamro, G. M., Memon, N. N., Memon, K. S., & Akhtar, M. S. (2012). Micronutrient availability assessment of tomato grown in Taluk Badin, Sindh. Pakistan Journal of Botany,44, 649–654.
Narimani, H., Rahimi, M. M., Ahmadikhah, A., & Vaezi, B. (2010). Study on the effects of foliar spray of micronutrient on yield and yield components of durum wheat. Archives of Applied Science Research,2(6), 168–176.
Ngozi, U. F. (2013). The role of biofortification in the reduction of micronutrient food insecurity in developing countries. African Journal of Biotechnology,12(37), 5559–5566.
Niyigaba, E., Twizerimana, A., Mugenzi, I., Ngnadong, W. A., Ye, Y. P., Wu, B. M., et al. (2019). Winter wheat grain quality, zinc and iron concentration affected by a combined foliar spray of zinc and iron fertilizers. Agronomy,9(5), 250.
Ozturk, L., Yazici, M. A., Yucel, C., Torun, A., Cekic, C., Bagci, A., et al. (2006). Concentration and localization of zinc during seed development and germination in wheat. Physiologia Plantarum,128, 144–152.
Pahlavan-Rad, M. R., & 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. Communications in Soil Science and Plant Analysis,40(7–8), 1322–1332.
Pandey, N., Pathak, G. C., & Sharma, C. P. (2006). Zinc is critically required for pollen function and fertilisation in lentil. Journal of Trace Elements in Medicine and Biology,20(2), 89–96.
Rashid, A. (1986). Mapping zinc fertility of soils using indicator plants and soils analysis. PhD Dissertation, University of Hawaii, HI, USA.
Rehman, A., Farooq, M., Ozturk, L., Asif, M., & Siddique, K. H. M. (2018). Zinc nutrition in wheat-based cropping systems. Plant and Soil,422, 283–315.
Rietra, R. P., Heinen, M., Dimkpa, C. O., & Bindraban, P. S. (2017). Effects of nutrient antagonism and synergism on yield and fertilizer use efficiency. Communications in Soil Science and Plant Analysis,48, 1895–1920.
Sharma, R., Agarwal, A., & Kumar, S. (2008). Effect of micronutrients on protein content and productivity of wheat (Triticum aestivum L***). VEGETOS: An International Journal of Plant Research,21(1), 51–53.
Soetan, K. O., Olaiya, C. O., & Oyewole, O. E. (2010). The importance of mineral elements for humans, domestic animals and plants-A review. African Journal of Food Science,4(5), 200–222.
Soleimani, R. (2006). The effects of integrated application of micronutrient on wheat in low organic carbon conditions of alkaline soils of western Iran. 18th World Congress of Soil Science, Philadelphia, Pennsylvania, USA.
Steel, R. G. D., Torrie, J. H., & Dicky, D. A. (1997). Principles and procedures of statistics: A biological approach (3rd ed., pp. 352–358). New York: Mcgraw Hill Inc. Book Co.
Stein, A. J. (2010). Global impacts of human mineral malnutrition. Plant and Soil,335, 133–154.
Sultana, S., Naser, H. M., Shil, N. C., Akhter, S., & Begum, R. A. (2016). Effect of foliar application of zinc on yield of wheat grown by avoiding irrigation at different growth stages. Bangladesh Journal of Agricultural Research,41(2), 323–334.
Wang, S., Li, M., Tian, X., Li, J., Li, H., Ni, Y., et al. (2015). Foliar zinc, nitrogen, and phosphorus application effects on micronutrient concentrations in winter wheat. Agronomy Journal,107, 61–70.
Xu, Y., An, D., Liu, D., Zhang, A., Xu, H., & Li, B. (2012). Molecular mapping of QTLs for grain zinc, iron and protein concentration of wheat across two environments. Field Crops Research,138, 57–62.
Zeidan, M. S., Manal, F., & Hamouda, H. A. (2010). Effect of foliar fertilization of Fe, Mn and Zn on wheat yield and quality in low sandy soils fertility. World Journal of Agricultural Research,6, 696–699.
Zhao, A., Tian, X., Cao, Y., Lu, X., & Liu, T. (2014). Comparison of soil and foliar zinc application for enhancing grain zinc content of wheat when grown on potentially zinc-deficient calcareous soils. Journal of the Science of Food and Agriculture,94, 2016–2022.
Zuchi, S., Cesco, S., & Astolfi, S. (2012). High supply improves Fe accumulation in durum wheat plants grown under Fe limitation. Environmental and Experimental Botany,77, 25–32.
Zuchi, S., Watanabe, M., Hubberten, H. M., Bromke, M., Osorio, S., Fernie, A. R., et al. (2015). The interplay between sulfur and iron nutrition in tomato. Plant Physiology,169, 2624–2639.