YSH-134 A SWEET STALK SORGHUM HYBRID WITH HIGH POTENTIAL FOR SILAGE PRODUCTION IN PLAINS OF PUNJAB

Authors

  • HM JAVED Rice Research Institute Kala Shah Kaku, Pakistan
  • M SAEED Maize and Millets Research Institute Yusafwala Sahiwal, Pakistan
  • IU HAQ College of Agriculture University of Sargodha, Pakistan
  • GY SHAIKH National Nematological Research Centre, University of Karachi, Pakistan
  • S SADDAM Department of Plant Pathology, Lasbela University of Agriculture Water and Marine Sciences, Uthal, Balochistan, Pakistan
  • M AWAIS Department of Plant Breeding and Genetics, University of Agriculture Faisalabad, Pakistan
  • N IQBAL Soil Salinity Research Institute, Pindi Bhattian, Pakistan
  • M ASLAM Pesticide Quality Control Laboratory Multan, Pakistan
  • W ZULIFQAR Department of Plant Breeding and Genetics, University of Agriculture Faisalabad, Pakistan
  • Z ASIF Fodder Research Sub-Station, AARI, Faisalabad, Pakistan
  • G MURTAZA Maize and Millets Research Institute Yusafwala Sahiwal, Pakistan

DOI:

https://doi.org/10.54112/bcsrj.v2024i1.853

Keywords:

Sorghum, Hybrid, Higher yields, Green Fodder, Vegetative Parts, Heterosis

Abstract

Ever-increasing population and the impact of high heat, a combination of both diminishing factors place agricultural productivity at risk. Food security is current alarming issue and ringing the bells on the door of stakeholders including breeders to devise appropriate strategies for future needs. The development of hybrids in crops is the only tool to enhance productivity by 2-3 times folds than current potential. The livestock industry is also increasing steeply to meet dairy-related needs and requires high fodder-yielding hybrids to fulfill its functional tasks. The constitution of new and dual-purpose high-yielding sorghum hybrids is a core need to boost production potential in fodder crops. Sorghum provides highly nutritious grain and green parts and requires a limited input supply when compared to other crops.  A great improvement potential is present in sorghum crops in terms of hybrid development. Here, this work was performed for the development of a new sorghum hybrid through the ABR system. YSH-134 is a cross combination between CMS-10A and YSS-98 with a higher grain (5000 kg/ha) and fodder (45000 kg/ha) yield potential. This hybrid was tested against the previously released sorghum hybrid Fakhar-e-Punjab. It's the second of its lot and has yield superiority over check hybrid. YSH-134 maintained 3% and 15% yield enhancement at station trials during 2018 and 2020 over check hybrid. Under National Uniform Yield Testing, it showed more prominent and higher yield benefits (19% and 34% during 2019 and 2020, respectively) against its competitor. ANOVA and after ANOVA analysis showed its 14% grain yield increase and 26% fodder production than Fakhar-e-Punjab. This high productivity is owing to the exploitation of heterosis effects lying under this unique cross combination. High-yielding YSH-134 has a highly sweet and juicy stem (15% brix value) with green and broad which can be used as green fodder for the cattle and dairy industry. This work will pave the way to meet future targets through utilizing heterosis breeding and hybrid seed technology. This may help the researcher in designing breeding programs for the development of hybrids for higher yields in green fodder.

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References

Adebo, O. A. (2020). African sorghum-based fermented foods: past, current and future prospects. Nutrients 12, 1111.

Anderson, W. W. (1971). Genetic equilibrium and population growth under density-regulated selection. The American Naturalist 105, 489-498.

Beckman, J., & Countryman, A. M. (2021). The importance of agriculture in the economy: impacts from COVID‐19. American journal of agricultural economics 103, 1595-1611.

Dong, C. F., Ding, C. L., Xu, N. X., Cheng, Y. H., Shen, Y. X., & Gu, H. R. (2013). Double-purpose rice (Oryza sativa L.) variety selection and their morphological traits. Field Crops Research 149, 276-282.

Dubey, M., Singh, V. P., Pandey, R., & Chaubey, A. (2017). Economic analysis of feeding management and milk production at the university dairy farm. Int. J. Curr. Microbiol. App. Sci 6, 480-486.

Erdaw, M. M. (2023). Contribution, prospects and trends of livestock production in sub-Saharan Africa: a review. International Journal of Agricultural Sustainability 21, 2247776.

Fischer, R., & Edmeades, G. O. (2010). Breeding and cereal yield progress. Crop science 50, S-85-S-98.

Florell, V. (1929). Bulked-population method of handling cereal hybrids. Journal of the American Society of Agronomy 21.

Garcia, S. N., Osburn, B. I., & Cullor, J. S. (2019). A one health perspective on dairy production and dairy food safety. One Health 7, 100086.

Gregory, P. (1984). Water availability and crop growth in arid regions. Outlook on agriculture 13, 208-215.

Grout, L., Baker, M. G., French, N., & Hales, S. (2020). A review of potential public health impacts associated with the global dairy sector. GeoHealth 4, e2019GH000213.

Hasan, M. K., Desiere, S., D’Haese, M., & Kumar, L. (2018). Impact of climate-smart agriculture adoption on the food security of coastal farmers in Bangladesh. Food Security 10, 1073-1088.

Jabbar, A., Basit, A., Niazi, I. A. K., Khan, A. A., Nadeem, M. A., Khan, B. A., Hussain, A., Ahmad, G., Farooq, N., & Waraich, I. A. (2022). Sarsabz: A High Fodder Yielding Alfalfa Variety With Better Nutritional Value And Suitable For Hay Making. Plant Cell Biotechnology And Molecular Biology 23, 31-38.

Ligon, E., & Sadoulet, E. (2018). Estimating the relative benefits of agricultural growth on the distribution of expenditures. World Development 109, 417-428.

Martínez-Villaluenga, C., Peñas, E., & Hernández-Ledesma, B. (2020). Pseudocereal grains: Nutritional value, health benefits and current applications for the development of gluten-free foods. Food and Chemical Toxicology 137, 111178.

Ndaru, P., Huda, A., Prasetyo, R., Shofiatun, U., Nuningtyas, Y., & Ndaru, R. (2020). Providing high quality forages with hydroponic fodder system. IOP Conference Series: Earth and Environmental Science,

Ostmeyer, T. J., Bahuguna, R. N., Kirkham, M., Bean, S., & Jagadish, S. K. (2022). Enhancing sorghum yield through efficient use of nitrogen–challenges and opportunities. Frontiers in Plant Science 13, 845443.

Piepho, H., & Edmondson, R. (2018). A tutorial on the statistical analysis of factorial experiments with qualitative and quantitative treatment factor levels. Journal of Agronomy and Crop Science 204, 429-455.

Pray, C. E. (1990). The potential impact of liberalizing India's seed laws. Food Policy 15, 193-198.

Ross, W., Gorz, H., Haskins, F. A., Hookstra, G., Rutto, J., & Ritter, R. (1983). Combining Ability Effects for Forage Residue Traits in Grain Sorghum Hybrids 1. Crop science 23, 97-101.

Stefoska-Needham, A., Beck, E. J., Johnson, S. K., & Tapsell, L. C. (2015). Sorghum: an underutilized cereal whole grain with the potential to assist in the prevention of chronic disease. Food Reviews International 31, 401-437.

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Published

2024-04-12

How to Cite

JAVED, H., SAEED, M., HAQ, I., SHAIKH, G., SADDAM, S., AWAIS, M., IQBAL, N., ASLAM, M., ZULIFQAR, W., ASIF, Z., & MURTAZA, G. (2024). YSH-134 A SWEET STALK SORGHUM HYBRID WITH HIGH POTENTIAL FOR SILAGE PRODUCTION IN PLAINS OF PUNJAB. Biological and Clinical Sciences Research Journal, 2024(1), 853. https://doi.org/10.54112/bcsrj.v2024i1.853

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