Assessment of Performance in Cereal Fodder Crops with Relation to Seeding Rates and Cutting Stages
Akash Paul
Department of Agronomy, Central Agricultural University, Imphal-795004, Manipur, India.
Hridesh Harsha Sarma *
Department of Agronomy, Assam Agricultural University, Jorhat-785013, Assam, India.
Anasuya Boruah
Department of Agronomy, Punjab Agricultural University, Ludhiana-141004, Assam, India.
Sonam Lhamu
Department of Agronomy, Central Agricultural University, Imphal-795004, Manipur, India.
Olympica Das
Department of Plant Breeding and Genetics, Assam Agricultural University, Jorhat-785013, Assam, India.
Nilabh Talukdar
Department of Agronomy, Assam Agricultural University, Jorhat-785013, Assam, India.
*Author to whom correspondence should be addressed.
Abstract
Cereal fodder crops serve as indispensable sources of nutrition for livestock, contributing significantly to the efficiency and sustainability of animal production systems worldwide. Maximizing the productivity and quality of these crops requires careful management, with seed rates and cutting stages playing pivotal roles in determining crop performance. Seeding rates play a critical role in crop establishment and growth, with both low and high rates affecting plant competition and ultimately yield. Cutting stages, on the other hand, are pivotal in determining the quality and nutrient composition of the forage. Optimal cutting stages vary depending on the intended use, such as hay, silage, or grazing and can significantly influence digestibility and overall nutritional value. The assessment of cereal fodder crops is therefore pivotal for optimizing agricultural productivity and ensuring sustainable livestock feed production. Understanding the intricate relationship between seeding rates, cutting stages and crop performance is essential for sustainable agriculture and livestock production systems, contributing to improved resource efficiency and economic viability.
Keywords: Cereal fodder crops, cutting stages, livestock feed, productivity, quality, seed rates
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References
Delgado CL, Rosegrant MW, Steinfeld H, Ehui SK, Courbois C. Livestock to 2020: The next food revolution (Vol. 61). Intl Food Policy Res Inst; 1999.
Reddy BVS, Reddy PS, Bidinger F, Blümmel M. Crop management factors influencing yield and quality of crop residues. Field Crops Research. 2003;84(1-2):57-77.
Nelson CJ, Moser LE. Plant factors affecting forage quality. Forage quality, evaluation, and utilization. 1994;115-154.
Mahdi SS, Badrul Hasan BH, Bhat RA, Aziz MA, Lal Singh LS, Faisul-ur-Rasool FUR, Shibana Bashir SB. Effect of nitrogen, zinc and seed rate on growth dynamics and yield of fodder maize (Zea mays L.) under temperate conditions; 2011.
Wu L, Deng Z, Cao L, Meng L. Effect of plant density on yield and quality of perilla sprouts. Scientific Reports. 2020;10(1):9937.
Prajapati B, Tiwari S, Kewalanand. Production potential of fodder based intercropping systems. International Journal of Chemical Studies. 2017;5:834-838.
Khan SH, Khan AG, Mohammad Sarwar MS, Atiya Azim AA. Effect of maturity on production efficiency, nutritive value and in situ nutrients digestibility of three cereal fodders; 2007.
Laghari GM, Oad FC, Tunio S, Chachar Q, Ghandahi A, et al. Growth and yield attributes of wheat at different seed rates. Sarhad J. Agric. 2011;27 (2):177–183.
Whaley JM, Sparkes DL, Foulkes MJ, Spink JH, Semere T, et al. The physiological response of winter wheat to reductions in plant density. Ann. Appl. Biol. 2000;137 (2):165–177.83.
Parrish DJ, Fike JH. The biology and agronomy of switchgrass for biofuels. BPTS. 2005;24(5-6):423-459.
Ghamkhar K, Irie K, Hagedorn M, Hsiao J, Fourie J, Gebbie S, Barrett B. Real-time, non-destructive and in-field foliage yield and growth rate measurement in perennial ryegrass (Lolium perenne L.). Plant Methods. 2019;15:1-12.
Grev AM, Wells MS, Samac DA, Martinson KL, Sheaffer CC. Forage accumulation and nutritive value of reduced lignin and reference alfalfa cultivars. Agronomy Journal. 2017;109(6):2749-2761.
Duan C, Yu C, Shim P, Huangqing D, Zhang X, Dai E. Assessing trade-offs among productive, economic, and environmental indicators of forage systems in southern Tibetan crop-livestock integration. Science of the Total Environment. 2023;876:162641.
Salama HSA, Zeid MMK. Hay quality evaluation of summer grass and legume forage monocultures and mixtures grown under irrigated conditions. Australian Journal of Crop Science. 2016;10:1543-1550.
Karayilanli E, Ayhan V. Investigation of feed value of alfalfa (Medicago sativa L.) harvested at different maturity stages. Legume Research. 2016;39:237-247.
Zhang K, Zhai C, Li Y, Li Y, Qu H, Shen Y. Effect of nitrogen application and cutting frequency on the yield and forage quality of alfalfa in seasonal cultivation. Agriculture. 2023;13(5):1063.
Li T, Peng L, Wang H, Zhang Y, Wang Y, Cheng Y, Hou F. Multi-cutting improves forage yield and nutritional value and maintains the soil nutrient balance in a rainfed agroecosystem. Frontiers in Plant science. 2022;13:825117.
Whiteman PC. Tropical pasture science. Oxford University Press. New York. 1980;242.
Ma SC, Wang TC, Guan XK, Zhang X. Effect of sowing time and seeding rate on yield components and water use efficiency of winter wheat by regulating the growth redundancy and physiological traits of root and shoot. Field Crops Research. 2018;221:166-174.
Piltz JW, Morris SG, Weston LA. Winter forage crop harvest time impacts regeneration of the annual weeds barley grass, annual ryegrass and wild radish. Agronomy. 2021;11(9):1700.
Chikowo R, Zingore S, Snapp S, Johnston A. Farm typologies, soil fertility variability and nutrient management in smallholder farming in Sub-Saharan Africa. Nutrient cycling in agroecosystems. 2014;100:1-18.
Zhang J, Yin B, Xie Y, Li J, Yang Z, Zhang G. Legume-cereal intercropping improves forage yield, quality and degradability. PLoS One. 2015;10(12):e0144813.
Hindoriya PS, Meena RK, Rakesh K, Singh M, Ram H, Meena VK, Ginwal D, Dutta S. Productivity, and profitability of cereal-legume forages vis-a-vis their effect on soil nutrient status in Indo-Gangetic Plains. Legume Research. 2019;42:812-817.
Ginwal DS, Kumar RAKESH, Ram HARDEV, Meena RK, Kumar U. Quality characteristics and nutrient yields of maize and legume forages under changing intercropping row ratios. Indian J. Anim. Sci. 2019;89(3):281-286.