Effect of Hormones on Rooting Potential of <I>Hippophae salicifolia</I> (Seabuckthorn) in Agro-Climatic Zone of Dehradun, Uttarakhand

J. M. S. Chauhan; Aakirti Bhandari; M. S. Bhandari

doi:10.36808/if/2018/v144i9/132679

Effect of Hormones on Rooting Potential of Hippophae salicifolia (Seabuckthorn) in Agro-Climatic Zone of Dehradun, Uttarakhand

Authors

J. M. S. Chauhan Forest Research Institute, Dehradun, Uttarakhand
Aakirti Bhandari Forest Research Institute, Dehradun, Uttarakhand
M. S. Bhandari Forest Research Institute, Dehradun, Uttarakhand

DOI:

https://doi.org/10.36808/if/2018/v144i9/132679

Keywords:

Hormones, Rooting Potential, Hippophae salicifolia, Concentrations of IBA.

Abstract

A general survey was conducted for the collection of plant material from Himalayan Mountain of Uttarakhand. Three places were located as habitats of Hippophae salicifolia (Seabuckthorn) at Hanuman Chatti (Chamoli); Dharasu and Yamunotri Dhaam, Uttarkashi. Macro-propagation studies were conducted in Hippophae salicifolia (H. salicifolia) using stem cuttings. Cuttings were properly washed with running tap water to remove dust particles adhere to surface. One set of male and female stem cuttings were kept as control. Rest of the male and female stem cuttings were dipped in different concentrations of IBA, IAA and NAA (100, 200, 300, 500, 1000, 2000 and 3000 ppm) for 4 hours and implanted in hycotrays (root trainers) containing soilrite at FRI, Dehradun (640 msl). Data were recorded after 180 days for number of adventitious root. Male and female stem cuttings responded variably to different auxins concentrations and IBA at 2000ppm was found best for rooting in climatic conditions of FRI, Dehradun.

References

Airi S., Bhatt I.D., Bhatt A., Rawal R.S. and Dhar U. (2009). Variations in seed germination of Hippophae salicifolia with different presoaking treatments. J. Forestry Research, 20(1):27- 30.

Avdeev V.I. (1976). Propagation of Hippophae rhamnoides by softwood cuttings under mist. Kratkie Tezisy Dokl 2 â€“ I Vses. Molodykh Uchenykh po Sadovodstvu, 72 â€“ 74. Hort. Abstr, 48: 318.

Bisht R., Sharma S.K. and Yadav V.K. (2008). Effect of different pre-sowing seed treatments on germination and plant growth characteristics of Seabuckthorn (Hippophae salicifolia D. Don). The Asian J. of Horticulture, 3(1): 10-14.

Chauhan K. (2003). Technical document â€“ Estimation of Seabuckthorn (a wild plant) coverage in Ladakh region of Jammu & Kashmir, DEAL, Dehradun.

Davidson H. and Olney A. (1964). Clonal and sexual differences in the propagation of Taxus cuttings. Combined Proceeding International Plant Propagation Society, 14: 156-160.

Dhyani D. (2007). Exploration, multiplication, identification of elite population of Hippophae rhamnoides (Seabuckthorn) for sustainable rural development of higher Himalayan region of Uttaranchal, Ph.D. Thesis, H.N.B. Garhwal University, Srinagar Garhwal, Uttarakhand, India, pp. 173.

Dhyani D., Maikhuri R.K. and Dhyani S. (2012). Effect of auxin treatments on male and female cuttings of Hippophae salicifolia. African J. Biotechnology, 11(90): 15712-15718.

Garonovich I.M. (2003). Introduction of Hippophae L. in Belarus. In: Seabuckthorn- Amultipurpose Plant. In: (Singh, V. (Eds.), Botany, Harvesting and Processing Technologies I, Indus Pub. Co. New Delhi, 135-151 pp.

Gaur R.D. (1999). Flora of the district Garhwal North-west Himalaya (with ethno botanical notes). Transmedia, Srinagar Garhwal, India, 811.

Guo X.F., Fu X., Zangh D. and Ma Y. (2009). Effect of auxin treatments, cuttings' collection date and initial characteristics on Paeonia 'Yang Fei Chu Yu' cutting propagation. Sci. Hortic., 119: 177-181.

Gupta S.M. and Ahmed Z. (2010). Seabuckthorn (Hippophae salicifoliaL.) plant: as source donor of cold tolerant genes for improving high altitude agriculture during cold stress. Res. Environ. Life Sci., 3:105â€“112.

Gupta R.K. and Singh V. (2003). Studies on micro-propagation in seabuckthorn (Hippophae rhamnoides L.). In: Singh, V. (Ed.) Seabuckthorn (Hippophae L.): a multipurpose wonder plant.

Hooker J.D. (1894). The Flora of British India, Dehradun, Bishen Singh, Mahendra Pal Singh, 5: 791.

Huxley A.J., Griffiths M. and Levy M. (1992). The New Royal Horticultural Society Dictionary of Gardening. London: Macmillan Reference Limited, 33â€“34.

Kochhar V.K., Singh S.P., Katiyar R.S. and Pushpangadan P. (2005). Differential rooting and sprouting behavior of two Jatropha species and associated physiological and biochemical changes. Curr. Sci., 89(6): 936-939.

Kondrashov V.T. and Kuimov V.N. (1987). Vegetative propagation of Hippophae rhamnoides. Sadovodstvo, 6: 13 â€“ 16. (Hort. Abstr., 58: 2047).

Kniga N.M. (1989). Characteristics of rooting softwood cuttings of top and small fruit species in relation to natural photoperiod. Fiziologiya i Biokhimiya Kulturnykh Rastenii, 21:403-409.

Knyanzev A.V., Chemeris A.V. and Vakhitov V.A. (2003). Morphogenesis of Hippophae rhamnoides L. in vitro. Rast. Resurs., 39: 107-115.

Liu C.Q., Xia, X.L., Yin, W.L., Zhou, J.H. and Tang, H.R. (2007). Direct somatic embryogenesis from leaves, cotyledons and hypocotyls of Hippophae rhamnoides. Biol. Plant., 51(4): 635â€“640.

Ludwig-Muller J. (2000). Indole-3-butyric acid in plant growth and development. Plant Growth Regulators, 32: 219-230.

Lummerding L. (2001). Agri-food innovation fund project. Prairie Plant Systems, Canada.

Maikhuri R.K. and Singh A. (1994). Ames (Hippophae rhamnoides) from Garhwal Himalaya â€“ A success story. Himalayan Paryavaran Newsletter, 6: 9-10.

Mamo N., Mihretu M., Fekadu M., Tigabu M. and Teketay D. (2006). Variation in seed and germination characteristics among Juneperus procera populations in Ethiopia. Forest Ecology and Management, 225:320-327.

Mathews V. (1994).The New Plantsman (Vol 1). London: Royal Horticultural Society, 1352-4186.

Mitchell A.K. (1997). Propagation and growth of pacific Yew (Taxusbrevifolia Nutt) cuttings. Northwest Science, 71(1): 56-62.

Montpetit D. and Lalonde M. (1988). In vitro propagation and subsequent nodulation of the actinorhizal Hippophae rhamnoides L. Plant Cell Tissue Organ Culture, 15(30): 189â€“200.

Murashige T. and Skoog F.A. (1962). A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant., 15: 377â€“383.

Nandi S.K., Palni L.M.S. and Rikhari H.C. (1996). Chemical induction of adventitious root formation in Taxus baccata cuttings. Plant Growth Regul., 19: 117-122.

Nilov V.N. and Tretyakova E.A. (1993). On the replication of Seabuckthorn by explant culture. In: Proc of International Symposium (Russian), 330-332.

Rattan V. and Tomar A. (2011). Effect of different temperatures on the seed germinationof willow leaf seabuckthorn â€“Hippophae salicifolia. In: Souvenir of NationalConference on Forest biodiversity by UttarPradesh State Biodiversity Board, Lucknow, 56-61.

Rongsen L. (1992). Seabuckthorn: A multipurpose plant species for fragile mountains. Occasional Paper No. 20, ICIMOD, Kathmandu. 62pp.

Saikia M and Handique P.J. (2014). In vitro Propagation and Assessment of Genetic Fidelity of Seabuckthorn (Hippophae salicifolia D. Don) using RAPD Markers and Evaluation of their Antibacterial Efficacy: Pharmaceutically Important Medicinal Plant. World Journal of Pharmacy and Pharmaceutical Sciences, 3(9): 1542-1559.

Sankhyan H.P., Sehgal R.N. and Bhrot N.P. (2005). Standardization of pre-sowing treatments for different seabuckthorn species in cold deserts of Himachal Pradesh. Indian Forester, 131(7): 931- 938.

Sharma S.D. and Aier N.B. (1989). Seasonal rooting behavior of cuttings of plum cultivars as influenced by IBA treatments. Sci. Horti., 100:251-255.

Singh V. (2003). Geographical adaptation and distribution of Seabuckthorn (Hippophae L.) resources. In: A multipurpose wonder plant: botany, harvesting and processing technologies (Singh V. (Ed.) Seabuckthorn (Hippophae L.). Indus Publishing Company, New Delhi., 1:21â€“34.

Singh V. and Gupta R.K. (2008). Micropropagation of Seabuckthorn (Hippophae rhmanoides L.). In: Seabuckthorn (Hippophae L.) a multipurpose wonder plant (Singh, V. (Ed.). Advances in Research and Development, Daya Publishing House, Delhi,3: 3-13.

Sriskandarajah S. and Lundquist P. (2009). High frequency shoot organogenesis and somatic embryogenesis in juvenile and adult tissues of Seabuckthorn (Hippophae rhamnoides L.). Plant Cell Tissue Organ Culture, 99: 259-268.

Tomar A. and Rattan V. (2012). Source variation in fruit, seed and seedling traits of Hippophae salicifolia. Inter. J. Pharmacy and Life Sciences, 3(12): 2181-2185.

Tworkoski T. and Takeda F. (2009). Rooting response of shoot cuttings from three peach growth habits. Sci. Hortic., 115: 98-100.

Uniyal M.R. and Uniyal R.C. (2001). New source of Ayurvedic drug amlavetas (Hippophae sp.) commonly found in the Himalayan region. In: International Workshop on Seabuckthorn, New Delhi, 66p.

Yadav V.K., Sah V.K., Singh A.K. and Sharma S.K. (2006). Variations in morphological and biochemical characters of Seabuckthorn populations growing in Harsil area of Garhwal Himalaya in India. Tropical Agricultural Research and Extension, 9: 1-7.

Yang L.P., Zhang F.L., Zhao X.M. (2004). Rapid propagation of seabuckthorn (Hippophae rhamnoides L.).Global Seabuckthorn Res. Dev.,2: 12â€“16.

Yao Y. (1994). Academic Dissertation in Plant Breeding. Department of Plant Biology, University of Helsinki, Finland.

Zeng D.X., Yin W.L., Wang Y.H., Zhao X.Q. and Wang H.F. (2005). Propagation with etiolated softwood cuttings of five dwarf cultivars of Chinese tree peony. (in Chinese, with English abstract). Acta Hortic. Sin., 32: 725-728.