A REVIEW ON EXPLORING THE SIGNIFICANCE OF MICRONUTRIENTS IN CROP PRODUCTION

Authors

  • Aayushi Panchal phd scholar
  • Bharat B Maitreya

DOI:

https://doi.org/10.56588/iabcd.v2i2.183

Keywords:

micronutrients, importance, agricultural, crop, soil

Abstract

The essential plant nutrients for growth and development include Zinc, Iron, Boron, Molybdenum, Manganese, Copper, and Chlorine. For an agricultural product to be successfully developed proper crop nutrition is crucial. One of the most significant variables that promote crop production and development is the linked supply of micronutrients with macronutrients in sufficient levels and optimum proportions. Even though they are frequently needed in very low amounts, micronutrients are necessary for plant development. To produce a maximum number of high-quality products, vegetable production must employ micronutrients effectively. The current study has given a significant of micronutrients in crops. Zinc, Boron, Copper, Chloride, Iron, Manganese, and Molybdenum are significant micronutrients. Although Mo is particularly specific to nitrate reductase, other micronutrients are engaged in a variety of photosynthetic processes. Other micronutrients like Zn, Cu, Fe, and Mn are also connected to a variety of enzymatic activities.

References

Adnan, M., Abbas, B., Asif, M., Hayyat, M. S., Raza, A., Khan, B. A., Hassan, H., Khan, M. A. B., Toor, M. D., & Khalid, M. (2020). Role of micronutrient bio-fortification in agriculture: A review. International Journal of Environmental Sciences & Natural Resources, 24(4), 209–213.

Agarwal, B., Sharma, H. G., & Ashutosh, P. (2004). Nutrient uptake affected by irrigation method and micronutrient applications in tomato hybrid Avinash-2. Veg. Sci, 31(1), 78–82.

Ali, F., Ali, A., Gul, H., Sharif, M., Sadiq, A., Ahmed, A., Ullah, A., Mahar, Dr. A., & Kalhoro, S. (2015). Effect of Boron Soil Application on Nutrient Efficiency in Tobacco Leaf. American Journal of Plant Sciences, 06, 1391–1400. https://doi.org/10.4236/ajps.2015.69139

Alloway, B. J. (Ed.). (2013). Heavy Metals in Soils: Trace Metals and Metalloids in Soils and their Bioavailability (Vol. 22). Springer Netherlands. https://doi.org/10.1007/978-94-007-4470-7

Arnon, D. I. (1937). Ammonium and nitrate nitrogen nutrition of barley at different seasons about hydrogen-ion concentration, manganese, copper, and oxygen supply. Soil Science, 44(2), 91–122.

Aske, V., Jain, P., Lal, N., & Shiurkar, G. (2017). Effect of Micronutrients on Yield, Quality, and Storability of Onion cv. Bhima Super. Trends in Biosciences, 10, 1354–1358.

Bolaños, L., Lukaszewski, K., Bonilla, I., & Blevins, D. (2004). Why boron? Plant Physiology and Biochemistry, 42(11), 907–912. https://doi.org/10.1016/j.plaphy.2004.11.002

Bortels, H. (1930). Molybdän als Katalysator bei der biologischen Stickstoffbindung. Archiv Für Mikrobiologie, 1, 333–342.

Brennan, R. F. (1992). The role of manganese and nitrogen nutrition in the susceptibility of wheat plants to take-all in Western Australia. Fertilizer Research, 31, 35–41.

El-Magid, A. A. A., Knany, R. E., & El-Fotoh, H. G. A. (2000). Effect of foliar application of some micronutrients on wheat yield and quality. Annals of Agricultural Science (Cairo), 1(Special), 301–313.

Engvild, K. C. (1986). Chlorine-containing natural compounds in higher plants. Phytochemistry, 25(4), 781–791.

Fifield FW, Haines PJ (2000) Environmental analytical Chemictry. Wiley- Balckwell, Hoboken

Gallego, S., LB, P., RA, B., CE, A., Iannone, F., Rosales, E., Zawoznik, M., Groppa, M., & Benavides, M. P. (2012). Unravelling cadmium toxicity and tolerance in plants: Insight into regulatory mechanisms.

Graham, R. D., & Webb, M. J. (1991). Micronutrients and disease resistance and tolerance in plants. Micronutrients in Agriculture, 4, 329–370.

Gupta, U. C. (1980). Boron Nutrition Of Crops. In Advances in Agronomy (Vol. 31, pp. 273–307). Elsevier. https://doi.org/10.1016/S0065-2113(08)60142-X

Hamlin, R. L. (2016). Molybdenum. In Handbook of plant nutrition (pp. 391–410). CRC Press.

Havlin, J. L., Tisdale, S. L., Nelson, W. L., & Beaton, J. D. (2016). Soil fertility and fertilizers. Pearson Education India.

Heckman, J. R. (2016). Chlorine. In Handbook of plant nutrition (pp. 295–308). CRC Press.

Heckman, J. R., Clarke, B. B., & Murphy, J. A. (2003). Optimizing manganese fertilization for the suppression of take-all patch disease on creeping bentgrass. Crop Science, 43(4), 1395–1398.

Horst, W. J. (1992). Mortvedt, JJ, FR Cox, LM Shuman, RM Welch (Eds.): Micronutrients in Agriculture-Second Edition. Soil Science Society of America, 1991; 760 Seiten, US $46.20. ISBN 0-89118-797-9. Wiley Online Library.

Huber, D. M., & Graham, R. D. (1999). The role of nutrition in crop resistance. Mineral Nutrition of Crops: Fundamental Mechanisms and Implications, 18(12), 169.

Husain, S. A., Mohammad, S., & Rao, B. V. R. (1989). RESPONSE OF CHILLI (CAPSICUM-ANNUUM) TO MICRONUTRIENTS. In Indian Journal of Agronomy (Vol. 34, Issue 1, pp. 117–118). INDIAN SOC AGRONOMY INDIAN AGR RES INST DIV AGRONOMY, NEW DELHI 110012, INDIA.

Imran, M., Sun, X., Hussain, S., Rana, M. S., Saleem, M. H., Riaz, M., Tang, X., Khan, I., & Hu, C. (2021). Molybdenum supply increases root system growth of winter wheat by enhancing nitric oxide accumulation and expression of NRT genes. Plant and Soil, 459, 235–248.

Kabata-Pendias, A. (2010). Trace Elements in Soils and Plants (4th ed.). CRC Press. https://doi.org/10.1201/b10158

Karthick, R., Rajalingam, G., Praneetha, S., Sujatha, K., & Arumugam, T. (2018). Effect of micronutrients on growth, flowering and yield of bitter gourd (Momordica charantia) cv. Co 1. International Journal of Chemical Studies.

Kochian, L. V. (1991). Mechanisms of micronutrient uptake and translocation in plants. Reprints - U.S. Department of Agriculture, Agricultural Research Service (USA).

Komosa, A., & Górniak, T. (2012). The effect of chloride on nutrient contents in fruits of greenhouse tomato (Lycopersicon esculentum Mill.) grown in rockwool. Acta Scientiarum Polonorum Hortorum Cultus, 11(5), 43–53.

Kumar, S., Kumar, D., Sekhon, K., & Choudhary, O. (2018). Influence of Levels and Methods of Boron Application on the Yield and Uptake of Boron by Cotton in a Calcareous Soil of Punjab. Communications in Soil Science and Plant Analysis, 49, 1–17. https://doi.org/10.1080/00103624.2018.1431268

Liu, H., Hu, C., Hu, X., Nie, Z., Sun, X., Tan, Q., & Hu, H. (2010). Interaction of molybdenum and phosphorus supply on uptake and translocation of phosphorus and molybdenum by Brassica napus. Journal of Plant Nutrition, 33(12), 1751–1760.

Liu, L., Xiao, W., Li, L., Li, D.-M., Gao, D.-S., Zhu, C., & Fu, X.-L. (2017). Effect of exogenously applied molybdenum on its absorption and nitrate metabolism in strawberry seedlings. Plant Physiology and Biochemistry, 115, 200–211. https://doi.org/10.1016/j.plaphy.2017.03.015

Marschner, H. (1995a). Mineral nutrition of higher plants. 2nd (eds) Academic Press. New York, 15–22.

Maurya, P. K., Yadav, L., Patel, P., & Thakur, G. (n.d.). Effect of micronutrient application on quality and shelf-life of kharif onion (Allium cepa L.). International Journal of Chemical Studies 2018.

Mousavi, Sayed Roholla et al. “A General Overview On Manganese (Mn) Importance For Crops Production.” Australian journal of basic and applied sciences 5 (2011): 1799-1803.

Nagajyoti, P. C., Lee, K. D., & Sreekanth, T. V. M. (2010). Heavy metals, occurrence and toxicity for plants: A review. Environmental Chemistry Letters, 8(3), 199–216. https://doi.org/10.1007/s10311-010-0297-8

Niharika, K., & Sheeba, S. (2022). Chemistry of Boron in Soil and Management in Different Crops. International Journal of Plant & Soil Science, 34(22), 374–386.

Noulas, C., Tziouvalekas, M., & Karyotis, T. (2018). Zinc in soils, water and food crops. Journal of Trace Elements in Medicine and Biology, 49, 252–260. https://doi.org/10.1016/j.jtemb.2018.02.009

Pankaj, P., Kujur, P. K., & Saravanan, S. (2018). Effect of different micronutrient on plant quality of broccoli (Brassica oleracea var. Italica) CV green magic. Journal of Pharmacognosy and Phytochemistry, 7(1S), 2825–2828.

PARK, W. P., & LEE, D. S. (1995). Effect of chlorine treatment on cut water cress and onion. Journal of Food Quality, 18(5), 415–424.

Persson, J., Fink, P., Goto, A., Hood, J. M., Jonas, J., & Kato, S. (2010). To be or not to be what you eat: Regulation of stoichiometric homeostasis among autotrophs and heterotrophs. Oikos, 119(5), 741–751.

Qin, S., Hu, C., Tan, Q., & Sun, X. (2017). Effect of molybdenum levels on photosynthetic characteristics, yield and seed quality of two oilseed rape (Brassica napus L.) cultivars. Soil Science and Plant Nutrition, 63(2), 137–144.

Quartacci, M. F., Pinzino, C., Sgherri, C. L. M., Dalla Vecchia, F., & Navari-Izzo, F. (2000). Growth in excess copper induces changes in the lipid composition and fluidity of PSII-enriched membranes in wheat. Physiologia Plantarum, 108(1), 87–93. https://doi.org/10.1034/j.1399-3054.2000.108001087.x

Rahman, M. H., Halder, B. C., & Khan, M. A. (2011). Effects of zinc and manganese on growth and yield of potato. Journal of Bangladsh Society of Agriculture Science and Technology, 1(2), 17–22.

Rana, M. S., Hu, C. X., Shaaban, M., Imran, M., Afzal, J., Moussa, M. G., Elyamine, A. M., Bhantana, P., Saleem, M. H., & Syaifudin, M. (2020). Soil phosphorus transformation characteristics in response to molybdenum supply in leguminous crops. Journal of Environmental Management, 268, 110610.

Rana, M. S., Sun, X., Imran, M., Ali, S., Shaaban, M., Moussa, M. G., Khan, Z., Afzal, J., Binyamin, R., & Bhantana, P. (2020). Molybdenum-induced effects on leaf ultra-structure and rhizosphere phosphorus transformation in Triticum aestivum L. Plant Physiology and Biochemistry, 153, 20–29.

Sabatino, L., D’Anna, F., Iapichino, G., Moncada, A., D’Anna, E., & De Pasquale, C. (2019). Interactive effects of genotype and molybdenum supply on yield and overall fruit quality of tomato. Frontiers in Plant Science, 9, 1922.

Savithri, P., Biju, J., & Poongothai, S. (2003). Effect of copper fungicide sprays on the status of micronutrient in soils of hot semi-arid region of India. Tamil Nadu Agricultural University, Coimbatore, 641(003).

Serasinghe, P. (2013). The effect of manganese on the growth of tomato cells in suspension culture. Journal of the National Science Foundation of Sri Lanka, 24(4).

Sharma, U., & Kumar, P. (2016). Micronutrient Research in India: Extent of deficiency, crop responses and future challenges. International Journal of Advanced Research, 4, 1402–1406. https://doi.org/10.21474/IJAR01/234

Shen, Z. G., Liang, Y. C., & Shen, K. (1993). Effect of boron on the nitrate reductase activity in oilseed rape plants. Journal of Plant Nutrition (USA).

Silspour, M. (2007). The study of Fe and Zn effects on quantitative and qualitative parameters of winter wheat and determination of critical levels of theseelements in Varamin plain soils.

Simoglou, K. B., & Dordas, C. (2006). Effect of foliar applied boron, manganese and zinc on tan spot in winter durum wheat. Crop Protection, 25(7), 657–663.

Trehan, S. P., & Grewal, J. S. (1995). Response to zinc, copper and iron and their critical levels for potato. Journal of the Indian Society of Soil Science, 43(1), 89–91.

Tripathi, D., Singh, S., Singh, S., Mishra, S., Chauhan, D., & Dubey, N. (2015). Micronutrients and their diverse role in agricultural crops: Advances and future prospective. Acta Physiologiae Plantarum, 37, 1–14. https://doi.org/10.1007/s11738-015-1870-3

Wang, R., Shafi, M., Ma, J., Zhong, B., Guo, J., Hu, X., Xu, W., Yang, Y., Ruan, Z., Wang, Y., Ye, Z., & Liu, D. (2018). Effect of amendments on contaminated soil of multiple heavy metals and accumulation of heavy metals in plants. Environmental Science and Pollution Research International, 25(28), 28695–28704. https://doi.org/10.1007/s11356-018-2918-x

Wisal, M., Iqbal, M., & Shah, S. M. (1990). Effect of mode of application of Zn and Fe on the yield of wheat (CV. 81). Sarhad J. Agric, 6(6), 615–618.

Xu, G., Magen, H., Tarchitzky, J., & Kafkafi, U. (1999). Advances in chloride nutrition of plants. Advances in Agronomy, 68, 97–150.

Yadav, L. M., Singh, Y. P., Kumar, J., Prasad, S. S., & Mishra, A. K. (2018). Response of zinc and boron application on yield, yield parameters and storage quality of garlic (Allium sativum L.) var. G-282. Journal of Pharmacognosy and Phytochemistry, 7(1), 1768–1770.

Yu, Q., Wilcox, K., Pierre, K. L., Knapp, A. K., Han, X., & Smith, M. D. (2015). Stoichiometric homeostasis predicts plant species dominance, temporal stability, and responses to global change. Ecology, 96(9), 2328–2335.

Zhou, J., Sun, X., Chen, C., & Chen, J. (2023). The Effect of Molybdenum Fertilizer on the Growth of Grass–Legume Mixtures Related to Symbiotic Rhizobium. Agronomy, 13(2), 495.

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Published

08.12.2023

How to Cite

Panchal, A., & Maitreya, B. (2023). A REVIEW ON EXPLORING THE SIGNIFICANCE OF MICRONUTRIENTS IN CROP PRODUCTION. International Association of Biologicals and Computational Digest, 2(2), 51–58. https://doi.org/10.56588/iabcd.v2i2.183

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