Essentiality of seed standards for cultivation of medicinal plants — a review

Authors

  • Manish Das ICAR-DMAPR, Anand, Gujarat, India
  • A P Trivedi ICAR-DMAPR, Anand, Gujarat, India

DOI:

https://doi.org/10.48165/

Keywords:

Germination, Medicinal plants, Plantago ovata, Seeds, Seed standard

Abstract

Seeds play a critical role in agriculture, serving as the primary unit of plant propagation. Seed quality parameters of a notified variety of crops have been published through gazette notification from time to time and compiled. Indian Minimum Seed Certification Standards are available for about 150 crops grown in India. However, no such seed standards have been formulated for medicinal and aromatic plants grown by farmers in India. Therefore, quality of seed made available to farmers cannot be regulated as envisaged under Seeds Act. Several attempts have been made to formulate seed standards and seed testing protocols for important medicinal crops cultivated by farmers. Those studies/attempts were made on different seed parameters of the seeds of the species at different centres, viz. IARI, New Delhi; DMAPR, Anand, Gujrat and IIHR, Bengaluru. For seed lot size and sample size, seeds indicated weights of lots which was derived from a nominal thousand seed weight for each species expected to be adequate for the majority of samples tested. Working sample for purity analysis considered was the weight of 2,500 seeds and working sample for count of other species was the weight of 25,000 seeds. For example, maximum weight of lot for Plantago ovata would be 10,000 kg for which submitted sample would be 50 g and it would be 5 g for working sample for purity analysis and 50 g for working sample for count of other species. In this study further pure seed (PSD) was defined based on ISTA (2003) and ISTA (2012), for example, in Lepidium sativum, PSD number is given as PSD 11 which states that in the seed a portion of testa is attached in which seeds and pieces of seed entirely without testa are regarded as inert matter. In P. ovata, pure seed (minimum) is 98% in both foundation and certified seed, of which 2% is inert matter. In this case total weed seed could be 10/kg, other crop seed 10/kg and germination should be 85% (minimum) with maximum moisture 10%. Likewise, seed standards and seed testing protocols of all the medicinal species taken from time to time have been standardized which would prove useful for seed quality assurance in medicinal plant sector. Further, it would be used towards notification of a variety under Seeds Act and also for the conservation of germplasm in gene/seed bank. 

Downloads

Download data is not yet available.

References

Al-Quadan F, Ibrahim A and Al-Charchafchi FMR. 2008. Effect of chlorogenic and caffeic acids on activities and isoenzymes of G6PDH and 6PGDH of Artemisia Herba Alba seeds germinated for one and three days in light and dark. Jordan Journal of Biological Sciences, 1: 85-88.

Bewley J D and Black M. 1995. Seeds: Physiology of development and germination. Seed Science Research, 5: 127-28.

Butola J S and Badola H K. 2004. Effect of presowing treatment on seed germination and seedling vigour in Angelica glauca, a threatened medicinal herb. Current Science, 87: 796-99.

Das Manish. 2016a. Effect of storage duration and temperature on seed germination of Plantago ovata L., P. indica and Lepidium sativum L (Asalio). Medicinal Plants, 8(2): 85-92.

Das Manish. 2016b. Seed physiology and germination in sweet wormwood (Artemesia annua L.). Medicinal Plants, 8(3): 244-48.

Das Manish, Zaidi P H, Pal M and Sengupta U K. 1999. Carbon dioxide enrichment effect on growth and development of some crops. Journal of Agronomy and Crop Science, 181: 221-25.

Das Manish and L. Singh. 2000. Effect of Brassinosteroids on the seed germination and seedling growth of true potato seeds (TPS). Journal of Plant Biology, 27: 303-05.

Das Manish, Zaidi P H, Pal M and Sengupta U K. (2002). Stage sensitivity of mungbean (Vigna radiata L.) to elevated level of carbon dioxide. Journal of Agronomy and Crop Science, 188: 219-24.

Das Manish, Zaidi P H, Pal M and Sengupta U K. 2003. Growth response of wheat (Triticum aestivum L.) to elevated level of carbon dioxide. Journal of Agronomy and Crop Science, 191: 312-16.

Das Manish, Sinha S K and Khanna-Chopra R. 2001. Seed germination and seedling growth responses of chickpea to soil water potential regimes. Journal of Plant Biology, 28: 251-56.

Mehta A and Raina R. 2016. Effect of hydropriming on seed germination parameters in different accessions of Withania somnifera. Medicinal Plants, 8: 18-23.

Nautiyal M C, Rawat A S, Bhadula S K and Purohit A N. 1987. Seed germination in Podophyllum hexandrum. Seed Research, 15: 206-09.

Nautiyal M C, Prakash V and Nautiyal B P. 2002. Cultivation techniques of some high altitude medicinal herbs. Annals of Forestry, 10: 62-67.

Parihar S S, Dadlani M, Das Manish and Bhanuprakash K. 2013. Seed Standards and Seed Testing Protocols for Medicinal Plants. Technical Bulletin No. TB-ICN: 117/2013, 63p.

Phartyal S S, Thapliyal R C, Koedam N and Godefroid S. 2002. Ex situ conservation of rare and valuable forest tree species through seed-gene bank. Current Science, 83: 1351- 356.

Smitha G R and Das Manish. 2016. Effect of seed moisture content, temperature and storage period on seed germination of Saraca asoca- An endangered medicinal plant. Medicinal Plants, 8(1): 60-64.

Thakur A S and Thakur P S. 2006. Effects of presowing treatment on germination and seedling vigour in Dioscorea deltoidea. Seed Research, 34: 162-67.

Thakur A, Mehta R and Thakur P S. 2004. Germination, viability and vigour of fresh and aged seeds of some endangered plant species of western Himalayas. Indian Journal of Plant Physiology, 9: 247-54.

Published

2024-02-16

How to Cite

Essentiality of seed standards for cultivation of medicinal plants — a review. (2024). Current Horticulture, 9(2), 9–16. https://doi.org/10.48165/