Millets as a Sustainable Crop for Nutritional Security: Addressing Malnutrition Challenges

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Year : 2024 | Volume : | : | Page : –
By
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Nidhi Taram,

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Aradhana Tirkey,

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O.P. Suryawanshi,

  1. Student, Department of Processing and Food Engineering, Swami Vivekanand College of Agricultural Engineering and Technology & Research Station Faculty of Agricultural Engineering, IGKV Raipur, Chattisgarh, India
  2. Student, Department of Processing and Food Engineering, Swami Vivekanand College of Agricultural Engineering and Technology & Research Station Faculty of Agricultural Engineering, IGKV Raipur, Chattisgarh, India
  3. Scientist C, Department of Processing and Food Engineering, Swami Vivekanand College of Agricultural Engineering and Technology & Research Station Faculty of Agricultural Engineering, IGKV Raipur, Chattisgarh, India

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Millets are cereal crops belonging to the Poaceae family, which is the scientific name for the grass family. They are classified into two main groups: major millets which include Sorghum, Pearl, Finger millet, and minor millets such as Little, Foxtail, Proso, Barnyard, and Kodo millet. India is the chief producer of millets, with an annual production of more than 17 million tonnes. This accounts for 80% of Asia’s millet production and 20% of the global supply. Chhattisgarh is one of the states in India where minor millets like kodo millets, finger millets, little millets are produced. These millets have several health benefits due to their nutrient content, including essential amino acids, antioxidants, dietary fiber, fatty acids like linolenic, oleic, and palmitic acid. Millets contain excellent nutritional value including macronutrients like protein (7-13%), carbohydrates (60-70%), fat (1.5-5%), fiber (2-7%). Little millet contains moisture (13.1%), protein (7.7%), carbohydrate (83.3%), fiber (11.5%), ash (2.7%), and fat (1.5%). Kodo millet contains moisture (11.92%), protein (11.52%), fat (2.89%), crude fiber (1.85%), ash (1.22%), and carbohydrate (70.60%). Finger millet contains carbohydrates (65-70%), fiber (2.5-3.5%), fat (1-1.5%), ash (2.5-3%), protein (5-8%), and moisture (11.75%). Sorghum millet contains moisture (11.9%), protein (10.4%), fat (1.9%), carbohydrate (72.6%), fiber (14.3%), ash (1.6%). Barnyard millet contains crude protein (11.3-17.2%), fat (3.6-3.8%), ash (4.7-5.0%), crude fiber (5.41-6.87%), carbohydrate (68.8%), moisture (8.7%). Foxtail millet contains moisture (9.35%), ash (3.10%), protein (10.29%), fat (3.06%), fibre (4.25%), carbohydrate (69.95%). Pearl millet contains moisture (8.5%), crude protein (13.6%), crude fat (7.8%), crude fiber (2.8%), ash (2.1%), and carbohydrate (63.2%). Proso millet contains moisture (8.04%), crude protein (13.09%), fat (3.35%), crude fibre (2.37%), carbohydrate (77.33%), ash (1.53%). Millet processing and value addition can offer wide range of nutritious products to defeat the global issue malnutrition.

Keywords: Millets, Malnutrition, Nutrients, Macronutrients, Fiber

How to cite this article:
Nidhi Taram, Aradhana Tirkey, O.P. Suryawanshi. Millets as a Sustainable Crop for Nutritional Security: Addressing Malnutrition Challenges. International Journal of Nutritions. 2024; ():-.
How to cite this URL:
Nidhi Taram, Aradhana Tirkey, O.P. Suryawanshi. Millets as a Sustainable Crop for Nutritional Security: Addressing Malnutrition Challenges. International Journal of Nutritions. 2024; ():-. Available from: https://journals.stmjournals.com/ijn/article=2024/view=0

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References
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  1. Abedin MJ, Abdullah ATM, Satter MA, Farzana T. Physical, functional, nutritional and antioxidant properties of foxtail millet in Bangladesh. Heliyon. 2022;8(10).
  2. Abioye VF, Babarinde GO, Ogunlakin GO, Adejuyitan JA, Olatunde SJ, Abioye AO. Varietal and processing influence on nutritional and phytochemical properties of finger millet: A review. Heliyon. 2022;8(12).
  3. Abubakar A, Bala S, Audu EA, Mohammad S, Gero M, Lande L. Characterization and the anti-nutritional composition of unprocessed finger millet (Eleusine coracana). Int J Food Nutr Safety. 2015; 6:11-724.
  4. Antony U, Sripriya G, Chandra TS. The effect of fermentation on the primary nutrients in foxtail millet (Setaria italica). Food Chem. 1996;56(4):381-4.
  5. Anuradha N, Priya PK, Patro TSSK, Rani YS, Triveni U. Association studies in little millet (Panicum sumatrense L.) for yield and other important traits. Int J Curr Microbiol Appl Sci. 2020;11:1465-72.
  6. Badau MH, Nkama I, Jideani IA. Phytic acid content and hydrochloric acid extractability of minerals in pearl millet as affected by germination time and cultivar. Food Chem. 2005; 92(3):425-35.
  7. Baltensperger DD. Progress with proso, pearl and other millets. Trends New Crops New Uses. 2002; 100-3.
  8. Bhatt D, Rasane P, Singh J, Kaur S, Fairos M, Kaur J, et al. Nutritional advantages of barnyard millet and opportunities for its processing as value-added foods. J Food Sci Technol. 2023;60(11):2748-60.
  9. Biradar VM, Kumargouda V, Suresha KB, Mohithkumar GV, Shobha D. Physical, functional properties and nutritional composition of Kodo millet and red rice. 2023.
  10. Bunkar DS, Goyal SK, Meena KK, Kamalvanshi V. Nutritional, functional role of kodo millet and its processing: A review. Int J Curr Microbiol Appl Sci. 2021;10(1):1972-85.
  11. Chandel G, Meena RK, Dubey M, Kumar M. Nutritional properties of minor millets: neglected cereals with potentials to combat malnutrition. Curr Sci. 2014; 107(7).
  12. Das S, Khound R, Santra M, Santra DK. Beyond bird feed: Proso millet for human health and environment. Agriculture. 2019;9(3):64.
  13. Devi PB, Vijayabharathi R, Sathyabama S, Malleshi NG, Priyadarisini VB. Health benefits of finger millet (Eleusine coracana L.) polyphenols and dietary fiber: a review. J Food Sci Technol. 2014; 51:1021-40.
  14. Dida MM, Devos KM. Finger millet. In: Cereals and millets. Berlin, Heidelberg: Springer Berlin Heidelberg; 2006. p. 333-43.
  15. Elangovan M, Singode A, Venkatesh K, Amasiddha B, Karthik AS, Pandey S, et al. Agro-morphological Characterization of Proso millet Germplasm for Utilization. Int J Plant Soil Sci. 2023; 35(16):381-92.
  16. Ganapathy KN. Improvement in finger millet: status and future prospects. In: Millets and sorghum: Biology and genetic improvement. 2017. p. 87-111.
  17. Gowda NN, Siliveru K, Prasad PV, Bhatt Y, Netravati BP, Gurikar C. Modern processing of Indian millets: A perspective on changes in nutritional properties. Foods. 2022;11(4):499.
  18. Gowri MU, Shivakumar KM. Millet scenario in India. Econ Aff. 2020;65(3):363-70.
  19. Hariprasanna K, Patil JV. Sorghum: origin, classification, biology, and improvement. In: Sorghum molecular breeding. 2015. p. 3-20.
  20. Indirani K. Review on nutritional profiles and health benefits of little millets–India. Int J Res Eng Sci. 2021; 9(11):7-11.
  21. Kalaisekar A, Padmaja PG, Bhagwat VR, Patil JV. Insect pests of millets: systematics, bionomics, and management. Academic Press; 2016.
  22. Kalsi R, Bhasin JK. Nutritional exploration of foxtail millet (Setaria italica) in addressing food security and its utilization trends in food system. eFood. 2023;4(5):e111.
  23. Karkannavar SJ, Shigihalli S, Nayak G, Bharati P. Physico-chemical and nutritional composition of proso millet varieties. Pharma Innov J. 2021;10(1):136-40.
  24. Kaur B, Singh A, Suri S, Usman M, Dutta D. Minor millets: a review on nutritional composition, starch extraction/modification, product formulation, and health benefits. J Sci Food Agric. 2023;103(10):4742-54.
  25. Kaur H, Sharma S. An overview of Barnyard millet (Echinochloa frumentacea). J Pharmacogn Phytochem. 2020;9(4):819-22.
  26. Khalid W, Ali A, Arshad MS, Afzal F, Akram R, Siddeeg A, et al. Nutrients and bioactive compounds of Sorghum bicolor L. used to prepare functional foods: a review on the efficacy against different chronic disorders. Int J Food Prop. 2022;25(1):1045-62.
  27. Krishna Kumari S, Thayumanavan B. Characterization of starches of proso, foxtail, barnyard, kodo, and little millets. Plant Foods Hum Nutr. 1998;53:47-56.
  28. Krishnan R, Meera MS. Pearl millet minerals: effect of processing on bio accessibility. J Food Sci Technol. 2018;55:3362-72.
  29. Kumar A, Chawla HS, Jeena AS. Morphological characterization of finger millet germplasm collected from Uttrakhand Hills for qualitative traits. Int J Curr Microbiol Appl Sci. 2019;8(9):2105-9
  30. Kumari R, Singh K, Jha SK, Singh R, Sarkar SK, Bhatia N. Nutritional composition and popping characteristics of some selected varieties of pearl millet (Pennisetum glaucum). Indian J Agric Sci. 2018;88(8):1222–6.
  31. Kumbar S, Devi U, Navneetha R. Development of Value Added Multi Millets Namkeens. Int J Multidiscip Res. 2023;5(6):2582–2160.
  32. Legwaila GM, Mathowa T, Makopola P, Mpofu C, Mojeremane W. The growth and development of two pearl millet landraces as affected by intra-row spacing. Int J Curr Microbiol Appl Sci. 2014;3(9):505–15.
  33. Liang S, Yang G, Ma Y. Chemical characteristics and fatty acid profile of foxtail millet bran oil. J Am Oil Chem Soc. 2010;87(1):63–7.
  34. Lydia Pramitha J, Ganesan J, Francis N, Rajasekharan R, Thinakaran J. Revitalization of small millets for nutritional and food security by advanced genetics and genomics approaches. Front Genet. 2023;13:1007552.
  35. McGinnis MJ, Painter JE. Sorghum: History, use, and health benefits. Nutr Today. 2020; 55(1):38–44.
  36. Mohamed HI, Fawzi EM, Basit A, Lone R, Sofy MR. Sorghum: nutritional factors, bioactive compounds, pharmaceutical and application in food systems: a review. Phyton. 2022; 91(7):1303.
  37. Mohapatra D, Patel AS, Kar A, Deshpande SS, Tripathi MK. Effect of different processing conditions on proximate composition, anti-oxidants, anti-nutrients, and amino acid profile of grain sorghum. Food Chem. 2019; 271:129–35.
  38. Narayan J, John D, Ramadas N. Malnutrition in India: status and government initiatives. J Public Health Policy. 2019; 40:126–41.
  39. Narciso JO, Nyström L. The genetic diversity and nutritional quality of proso millet (Panicum miliaceum) and its Philippine ecotype, the ancient grain “kabog millet”: a review. J Agric Food Res. 2023;11:100499.
  40. Narnaware S. A comparative study of making bread from millet flour. Indian Sci J Res Eng Manage. 2024; 8(3):2582–3930.
  41. Neeharika B, Suneetha WJ, Kumari BA, Tejashree M. Organoleptic properties of ready to reconstitute little millet smoothie with fruit juices. Int J Environ Clim Chang. 2020;78–82.
  42. Nithiyanantham S, Kalaiselvi P, Mahomoodally MF, Zengin G, Abirami A, Srinivasan G. Nutritional and functional roles of millets-A review. J Food Biochem. 2019;43(7):e12859.
  43. Panda D, Muni P, Panda A, Lenka KC, Parida PK. Nutritional and nutraceutical richness of neglected little millet genotypes from Eastern Ghats of India: implications for breeding and food value. Planta. 2024; 259(2):37.
  44. Patil KB, Chimmad BV, Itagi S. Glycemic index and quality evaluation of little millet (Panicum miliare) flakes with enhanced shelf life. J Food Sci Technol. 2015;52:6078–82.
  45. Patil P, Singh SP, Patel P. Functional properties and health benefits of finger millet (Eleusine coracana L.): A review. J Phytopharmacol. 2023; 12(3):196–202.
  46. Patil S, Kauthale V, Aagale S, Pawar M, Nalawade A. Evaluation of finger millet [Eleusine coracana (L.) Gaertn.] accessions using agro-morphological characters. Indian J Agric Res. 2019; 53(5):624–7.
  47. Patni D, Agrawal M. Wonder millet–pearl millet, nutrient composition, and potential health benefits-a review. Int J Innov Res Rev. 2017;5(1):6–14.
  48. Pattanashetti SK, Upadhyaya HD, Dwivedi SL, Vetriventhan M, Reddy KN. Pearl millet. In: Genetic and genomic resources for grain cereals improvement. Academic Press; 2016. p. 253–89.
  49. Singh RP, Qidwai S, Singh O, Reddy BR, Saharan S, Kataria SK, Tiwari H, Naresh RK, Kumar L. Millets for food and nutritional security in the context of climate resilient agriculture: A Review. International Journal of Plant & Soil Science. 2022 Oct 31:939-53.
  50. Somani RB, Taylor JR. Sorghum: a potential source of raw material for agro-industries. Alternative uses of sorghum and pearl millet in Asia. 2003 Jul 1; 146.
  51. Rao PP, Basavaraj G, Ahmed W, Bhagavatula S. An analysis of availability and utilization of sorghum grain in India. SAT eJournal. 2010;8:563.
  52. Ravindran G. Seed protein of millets: amino acid composition, proteinase inhibitors and in-vitro protein digestibility. Food Chem. 1992;44(1):13-17.
  53. Rawat JM, Pandey S, Debbarma P, Rawat B. Preparation of alcoholic beverages by tribal communities in the Indian Himalayan region: A review on traditional and ethnic consideration. Front Sustain Food Syst. 2021;5:672411.
  54. Rawat L, Gaikwad MB, Kukreti A. Insect fauna associated with small millets in mid-hills of Uttarakhand. J Entomol Zool Stud. 2021;9(1):1494-502.
  55. Reddy OSK. Smart millet and human health. Green Universe Environ Serv Soc. 2017.
  56. Renganathan VG, Vanniarajan C, Karthikeyan A, Ramalingam J. Barnyard millet for food and nutritional security: Current status and future research direction. Front Genet. 2020;11:497319.
  57. Sabuz AA, Rana MR, Ahmed T, Molla MM, Islam N, Khan HH, et al. Health-promoting potential of millet: A review. Separations. 2023;10(2):80.
  58. Saleh AS, Zhang Q, Chen J, Shen Q. Millet grains: nutritional quality, processing, and potential health benefits. Compr Rev Food Sci Food Saf. 2013;12(3):281-95.
  59. Satankar M, Kumar U, Patil AK, Kautkar S. Pearl millet: A fundamental review on underutilized source of nutrition. Multilogic Sci. 2020;10:1081-4.
  60. Saurav S, Chandran V. Millet-based business opportunities in India: From grains to gains. Millets Glance. 2023;73-88.
  61. Senthilnathan S, Anitha T, Arun K, Mathiyazhini M. Prospects, problems and opportunities of millet processing industry in India. Sensitizing Millet Farming Consumpt Nutr Secur. 2023;31.
  62. Sharma N, Niranjan K. Foxtail millet: Properties, processing, health benefits, and uses. Food Rev Int. 2018;34(4):329-63.
  63. Shobana S, Krishnaswamy K, Sudha V, Malleshi NG, Anjana RM, Palaniappan L, et al. Finger millet (Ragi, Eleusine coracana L.): a review of its nutritional properties, processing, and plausible health benefits. Adv Food Nutr Res. 2013;69:1-39.
  64. Singh KP, Mishra HN, Saha S. Moisture-dependent properties of barnyard millet grain and kernel. J Food Eng. 2010;96(4):598-606.
  65. Singh RK, Prasad M. Foxtail millet: a climate-resilient crop species with potential to ensure food and agriculture security amidst global climate change. Int J Plant Environ. 2020;6(3):165-9.
  66. Singh S, Yadav YP, Yadav HP, Vart D, Yadav N. Morphological characterization of pearl millet hybrids [Pennisetum glaucum (L.) R. Br.] and their parents. Afr J Agric Res. 2016;11(5):371-8.
  67. Sood S, Khulbe RK, Gupta AK, Agrawal PK, Upadhyaya HD, Bhatt JC. Barnyard millet–a potential food and feed crop of future. Plant Breed. 2015;134(2):135-47.
  68. Srivastava A, Saini N, Mathias A, Arya A, Jain S, Yachha SK. Prevalence and predictive factors of undernutrition and low bone mineral density in children with chronic pancreatitis. Pancreatology. 2021;21(1):74-80.
  69. Swamy KRM. Origin, distribution, taxonomy, botanical description, genetics and cytogenetics, genetic diversity, and breeding of kodo millet (Paspalum scrobiculatum L.). Int J Curr Res. 2023;15(9):25898-921.
  70. Tanwar R, Panghal A, Chaudhary G, Kumari A, Chhikara N. Nutritional, phytochemical, and functional potential of sorghum: A review. Food Chem Adv. 2023; 100501.
  71. Vagdevi A, Trupthi S, Pandey M, Reddy NB, Singh M. Nutritional qualities, processing, and health benefits of finger millet (Eleusine coracana L.). Pharma Innov J. 2023;12(1):1291-7.
  72. Harshitha H, Jayaram D. Consumers preference for value-added products of finger millet (Eleusine coracana). Indian J Econ Dev. 2019;7(9):1-4.
  73. Verma S, Srivastava S, Tiwari N. Comparative study on nutritional and sensory quality of barnyard and foxtail millet food products with traditional rice products. J Food Sci Technol. 2015;52(8):5147-55.
  74. Xiong Y, Zhang P, Warner RD, Fang Z. Sorghum grain: From genotype, nutrition, and phenolic profile to its health benefits and food applications. Compr Rev Food Sci Food Saf. 2019;18(6):2025-46.
  75. Yadav T, Karthik KVD. Millets, processing, and its value addition. Int J Agric Sci. 2024;20(1):334-8.
  76. Yang T, Ma S, Liu J, Sun B, Wang X. Influences of four processing methods on main nutritional components of foxtail millet: A review. Grain Oil Sci Technol. 2022;5(3):156-65.
  77. Yousaf L, Hou D, Liaqat H, Shen Q. Millet: A review of its nutritional and functional changes during processing. Food Res Int. 2021; 142:110-97.
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Received 23/10/2024
Accepted 26/11/2024
Published 30/11/2024
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