Effectiveness of Seed Processing Machinery on Seed quality Improvement in Wheat (Triticum aestivum L.)

Authors

  • RABINDRA KUMAR GBPUAT, Pantnagar
  • BRIJENDRA KOLI

Abstract

Wheat seed quality improvement through basic processing machines was investigated and quantified. It was observed that consistent seed quality could be achieved by efficient use of processing machines viz. air screen cleaners (seed pre-cleaner and seed grader) and specific gravity separator (SGS), irrespective of initial quality of the seed lot. The product and reject of these machines were evaluated for seed quality parameters. The physical purity of wheat seed lot was upgraded from 97.62% to 99.46%, and germination was improved from 80.70% to 86.20%, which made the seed lot acceptable as per the Indian Minimum Seed Certification Standards. Other seed quality parameters viz. test weight (37.76 g to 41.88 g), germination index (19.20 to 21.24), vigour index - I (1426.78 to 1750.72) and vigour index - II (101.68 to 115.50) were also improved. Air screen machine were found effective in improving physical purity and specific gravity separator improved the germination and vigour of the wheat seed lot.

Author Biography

RABINDRA KUMAR, GBPUAT, Pantnagar

ICAR-VPKAS, Almora

References

Agrawal RL. 1993. Physical purity analysis. In: Handbook of seed testing (Ed. P. K. Agrawal), Dept. of Agriculture and Cooperation, Ministry of Agriculture, Govt. of India, New Delhi, pp: 340.

Anon. 2012. Optimum sieve size and type of screen for grading seeds of different crop varieties and hybrids including their parents. Annual Report, AICRP-NSP (CROPS), 201112, Directorate of Seed Research, MAU, 327-340.

Anonymous. 1993. International rules for seed testing. Seed Sci. Technol. (supplement), 21, 288.

Anonymous. 1999. International rules for seed testing. Seed Sci. Technol. (supplement), 27, 1-335.

Atwal SS, Sinha SN. 2002. Production of genetically pure basmati seed through maintenance breeding. J. All India Rice Exporters Assoc., 12(4), 22-24.

Bansal NK, Lohan SK. 2009. Design and development of an axial flow thresher for seed crops. J. Agic. Eng., 46(1), 1-8.

Bishaw Z, Van Gastel AJ G. 1996. Components of seed quality. In: Proc. A train – the trainers workshop, 24 April – 9 May 1993, Amman, Jordan, 289-298.

Doshi JS, Patel VB, Patel JB, Patel JA. 2013. Quantification of quality improvement in wheat seed processing. J. Agric. Eng., 50(4), 83-86.

Gomez KA, Gomez AA.1984. Statistical procedures for Agricultural Research. 2nd edn., An IRRI Book, John Wiley & Sons, New York.

Gupta PC. 1993. Seed Vigour Testing. In: Handbook of seed testing (Ed. P. K. Agrawal) Dept. of Agriculture and Cooperation, Ministry of Agriculture, Govt. of India, New Delhi, pp: 340.

Ries SK, Everson EH. 1973. Protein content and seed size relationship with seedling vigour of wheat cultivars. Agron. J., 65, 884-886.

Singh Raghuraj, Mani Indra, Rai Anil. 2010. Development of performance index for onion seed extractor. J. Agic. Eng., 47(3), 8-14.

Singh SK, Kailasanathan K. 1976. A note of the effect of seed size on yield of wheat cultivar, Kalyan Sona under late sown conditions. Seed Res., 4, 130-131.

Sinha JP, Dhaliwal JS, Sinha SN. 2009. Effect of machine parameters on threshing quality for seed crop in chick pea. J. Agic. Eng., 46(4), 11-16.

Sinha JP, Modi BS, Nagar RP, Sinha SN, Vishwakarma M. 2001. Wheat seed processing and quality improvement. Seed Res., 29(2), 171-178.

Sinha JP, Vishwakarma MK, Atwal SS, Sinha SN. 2002. Quality improvement in rice (Oryza sativa) seed through mechanical seed processing. Indian J. Agril. Sci., 72(11), 643-647.

Tunwar NS, Singh SV. 1988. Indian Minimum Seed Certification Standards. The Central Seed Certification Board, Department of Agriculture and Cooperation, Ministry of Agriculture, Government of India, New Delhi, pp: 388.

Verma SR, Singh H. 1988. Development of an axial flow vegetable seed extracting machine. J. Agric. Eng., 25(1), 98-104.

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Published

2022-04-16

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Short Note/communication