Journal of Research in Biology Biology Journal Journal of Biology Biology research journal biomedical journal
High adaptability of Blepharis sindica T. Anders seeds towards moisture scarcity: A possible reason for the vulnerability of this medicinal plant from the Indian Thar desert
PDF
HTML

Keywords

Thar desert
medicinal plant
vulnerable
hygroscopic hairs
moisture
seedling collapse

How to Cite

Lal, P., Mohammed, S., & Kasera, P. K. (2014). High adaptability of Blepharis sindica T. Anders seeds towards moisture scarcity: A possible reason for the vulnerability of this medicinal plant from the Indian Thar desert. Journal of Research in Biology, 4(2), 1293-1300. Retrieved from https://ojs.jresearchbiology.com/index.php/jrb/article/view/341

Abstract

The seeds of Blepharis sindica T. Anders (Acanthaceae) are the official part of the plant for its medicinal values and also as the promise of its future. Dunes of the Thar desert with high percolation capabilities are the most preferred habitat of this vulnerable medicinal plant. It produces 1337.26 seeds/plant as an average and shows high viability and germination percentage under in-vitro conditions, but efficiency of seedling establishment was observed poor at natural sites. Occurrence of seed coat layers as sheath of hygroscopic hairs is a sign of its extreme capabilities to initiate life under lesser soil moisture availabilities in desert. Seeds with 0.5 to 1.0 ml distilled water were observed most suitable for the production of maximum shoot and root lengths under controlled conditions. Maximum biomass of shoot and root modules were observed in 0.5 ml distilled water. Maximum amount of non-soluble sugar was found in intact seeds devoid of any imbibition. Seeds with 0.5 ml distilled water produced maximum amount of shoot biomass and soluble sugar, while seedlings with 1.0 ml had maximum root biomass. Seedlings treated with >1.5 ml of distilled water showed a decreasing trend in all parameters. Excessive water always found to cause seedling collapse and failure of its establishment.

PDF
HTML

References

Ahmad VU, Burki AM, Mahmood I and Smith DL. 1984. Chemical constituents of Blepharis sindica seeds. Chem. Soc. Pak., 6(4): 217-223.

Bhandari MM. 1990. Flora of the Indian Desert. MPS REPROS, Jodhpur, p. 435.

Bregman R and Graven P. 1997. Subcuticular secretion by cactus seeds improves germination by means of rapid uptake and distribution of water. Annals of Botany. 80 (4): 525-531.

Gomez KA and Gomez AA. 1984. Statistical Procedures for Agricultural Research, 2nd ed. John Wiley & Sons, New York, p. 294.

Gorai M, El Aloui W, Yang X and Neffati M. 2014. Toward understanding the ecological role of mucilage in seed germination of desert shrub Henophyton deserti: interactive effects of temperature, salinity and osmotic stress. Plant Soil 374 (1-2): 727-738.

Khare CP. 2007. Indian Medicinal Plants - An Illustrated Dictionary. Springer-Verlag, Berlin, New York, USA, p. 812.

Mathur M. 2012. Phytosterol composition in seeds of Blepharis sindica and its relation with bottom up, top down and plant metabolites factors. Medicinal plants - International Journal of Phytomedicines and Related Industries 4(3): 126-132.

Mathur M and Sundaramoorthy S. 2012. Studies on distribution patterns for an endangered semi-arid plant- Blepharis sindica. Vegetos 25(2): 66-75.

Misra R. 1968. Ecology Work Book. IBH Publishing Company, Oxford, New Delhi, p. 242.

Plummer DT. 1971. An Introduction to Practical Biochemistry. Tata McGraw Hill Publishing Co Ltd, New Delhi, p. 369.

Porter RH, Durrell M and Romm HJ. 1947. The use of 2, 3, 5-triphenyl tetrazolium chloride as a measure of seed germinability. Plant Physiol., 22(2): 149-159.

Raghav A and Kasera PK. 2012. Seed germination behaviour of Asparagus racemosus (Shatavari) under in-vivo and in-vitro conditions. Asian Journal of Plant Science & Research. 2 (4): 409-413.

Sen DN. 1982. Environment and Plant Life in Indian Desert. Geobios International, Jodhpur, p. 249.

Sen DN, Mohammed S and Kasera PK. 1988. Report on weed seed longevity in arid zone-Test of seed bank. Geobios new Reports. 7: 98-100.

Shekhawat GS. 1986. Ethnobotanical survey of desert area of Rajasthan. Ph D Thesis, University of Jodhpur, Jodhpur, India.

Singh U, Wadhwani AM and Johri BM. 1996. Dictionary of Economic Plants in India. ICAR, New Delhi, p. 288.

UNDP 2010. Rajasthan Red Listed Medicinal Plants, http://envis.frlht.org/documents/rajasthan-medicinal-plants-conservation.pdf

Copyright license for the research articles published in Journal of Research in Biology are as per the license given below

Creative Commons License
Journal of Research in Ecology is licensed under a Creative Commons Attribution 4.0 International (CC BY 4.0). (www.creativecommons.org)
Based on a work at www.jresearchbiology.com
What this License explains us?

You are free to:

Share — copy and redistribute the material in any medium or format

Adapt — remix, transform, and build upon the material

for any purpose, even commercially.

This license is acceptable for Free Cultural Works. The licensor cannot revoke these freedoms as long as you follow the license terms.

[As given in the www.creativecommons.org website]

Under the following terms:

Attribution — You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.

No additional restrictions — You may not apply legal terms or technological measures that legally restrict others from doing anything the license permits.