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Distribution, associated vegetation, conservation and utilization of Grewia tenax: an important underutilized shrub species of the Thar Desert of India

Published online by Cambridge University Press:  05 November 2018

K. Venkatesan
Affiliation:
ICAR-Central Island Agricultural Research Institute, Port Blair-744 105, Andaman and Nicobar Islands, India
Anil Patidar*
Affiliation:
ICAR-Central Arid Zone Research Institute, Regional Research Station, Jaisalmer-345 001, Rajasthan, India
Maharaj Singh
Affiliation:
ICAR-Indian Institute of Soyabean Research, Indore-452 001, Madhya Pradesh, India
Mahesh Kumar
Affiliation:
ICAR-Central Arid Zone Research Institute, Jodhpur-342 003, Rajasthan, India
R. N. Kumawat
Affiliation:
ICAR-Central Arid Zone Research Institute, Jodhpur-342 003, Rajasthan, India
Rahul Dev
Affiliation:
ICAR-Central Arid Zone Research Institute, Regional Research Station, Kukma-Bhuj-370 105, Gujarat, India
Julius Uchoi
Affiliation:
ICAR-Central Arid Zone Research Institute, Regional Research Station, Jaisalmer-345 001, Rajasthan, India
Abhishek Kumar
Affiliation:
ICAR-Central Arid Zone Research Institute, Regional Research Station, Jaisalmer-345 001, Rajasthan, India
D. S. Mertia
Affiliation:
ICAR-Central Arid Zone Research Institute, Regional Research Station, Jaisalmer-345 001, Rajasthan, India
J. P. Singh
Affiliation:
ICAR-Central Arid Zone Research Institute, Jodhpur-342 003, Rajasthan, India
*
*Corresponding author. E-mail: [email protected]

Abstract

Grewia tenax locally known as ‘Gangerun’, is an important multipurpose underutilized shrub and potentially threaten species of the Thar Desert of India. Owing to its importance, naturally available germplasm was collected and evaluated for its sustainable utilization in future. Data on individual mother plant, seed characters and soil profile were investigated. Habitat occurrence of G. tenax was found in patches with dominant association of Euphorbia caducifolia across the four districts of western Rajasthan. Individual plant on unprotected area portrayed far lower average height (0.95 m) and canopy area (1.75 m2) than protected area (2.63 m and 13.89 m2) signifying level of browsing pressure on this species in Jaisalmer. Soil samples belonging to Pali region have high organic carbon and low electrical conductivity content than Jaisalmer and Jodhpur. The statistical analysis of seed characters revealed the presence of high coefficient of variation (%) in 100-seed weight (HSW; 27.36) followed by seed length (SL; 8.06) and least in seed breadth (SB; 5.85). The range and mean values of HSW, SL, SB and length:breadth ratio (LBR) were (2.02–7.00 and 3.34 g), (4.36–6.15 and 5.36 mm), (3.73–4.68 and 4.25 mm) and (1.11–1.44 and 1.27), respectively. Significantly positive correlation was observed between SL and LBR (0.73) followed by HSW and SL (0.66). Along with these findings, its economic importance, utilization and conservation are detailed in this paper as to hasten further research on its various aspects for its successful conservation and utilization.

Type
Research Article
Copyright
Copyright © NIAB 2018 

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References

Badshah, L, Hussain, F, Dastagir, G and Burni, T (2006) Ethnobotany of fuel wood plants of Ladha, South Waziristan, Pakistan. Pakistan Journal of Plant Sciences 12: 193201.Google Scholar
Baskin, CC and Baskin, JM (1998) Seeds: Ecology, Biogeography and Evolution of Dormancy and Germination. San Diego: Academic press, p. 666.Google Scholar
Baskin, CC and Baskin, JM (2003) Overview and recommendations for future research priorities on native seed dormancy and germination of Australian plants. Australian Plant Conservation 11: 29.Google Scholar
Chopra, RN, Nayar, SL and Chopra, IC (1956) Glossary of Indian Medicinal Plants. New Delhi: CSIR, p. 128.Google Scholar
Cruden, RW (1977) Pollen-ovule ratio: a conservative indicator of breeding systems in flowering plants. Evolution 31: 3236.Google Scholar
Dev, R, Suresh kumar, M, Dayal, D and Venkatesan, K (2017) Genetic diversity among wild Grewia tenax accessions collected from Kachchh region of Gujarat, India. Indian Journal of Plant Genetic Resources 30: 286292.Google Scholar
El-Siddig, K, Gama, PBS and Inanaga, S (2005) Influence of auxins on rooting of stem cuttings of the small-leaves white cross berry (gudeim), Grewia tenax (Forssk.) Fiori. Gezira Journal of Agricultural Science 3: 1223.Google Scholar
Freedman, R (1998) Famine foods, Tiliaceae. Available at http://www.hort.purdue.edu/newcrop/faminefoods/ff_families/TILIACEAE.Google Scholar
Gebauer, J, El-siddig, K, El-Tahir, BA, Salih, AA, Ebert, G and Hammer, K (2007a) Exploiting the potential of indigenous fruit trees: Grewia tenax (Frossk.) Fiori in Sudan. Genetic Resources and Crop Evolution 54: 17011708.Google Scholar
Gebauer, J, Patzelt, A, Hammer, K and Buerkert, A (2007b) First record of Grewia tenax (Forssk.) Fiori in northern Oman, a valuable fruit producing shrub. Genetic Resources and Crop Evolution 54: 11531158.Google Scholar
Grivetti, LE and Ogle, BM (2000) Value of traditional food in meeting macro and micronutrients needs: the wild plant connection. Nutrition Research Reviews 13: 3146.Google Scholar
Hammer, O, Harper, DAT and Ryan, PD (2001a) PAST: paleontological statistics software package for education and data analysis. Palaeontologia Electronica 4: 9 http://palaeo-electronica.org/2001_1/past/issue1_01.htm.Google Scholar
Hammer, K, Heller, J and Engels, J (2001b) Monographs on underutilized and neglected crops. Genetic Resources and Crop Evolution 48: 35.Google Scholar
Hashmi, RY and Qaiser, M (1990) Biology of Grewia tenax complex (Tiliaceae) from Pakistan. Pakistan Journal of Botany 22: 179188.Google Scholar
Jackson, ML (1973) Soil Chemical Analysis. New Delhi: Prentice Hall of India Pvt. Ltd., p. 3856.Google Scholar
Kirtikar, KR and Basu, BD (1975) Indian Medicinal Plants, vol. 1. Allahabad: Basu LM and Co, p. 384.Google Scholar
Kumar, S and Parveen, F (2004) Traditional ethno-medicinal plants in the Indian Thar: their status in nature and possibilities of their cultivation and trading. Final report of DST Project 216.Google Scholar
Kumawat, RN, Misra, AK, Mounir, L, Mahajan, SS and Venkatesan, K (2017) Seed germination behaviour as influenced by physical and chemical treatments in Grewia tenax (Forssk.) Fiori. Range Management & Agroforestry 38: 134138.Google Scholar
Miller, AG and Morris, M (1988) Plants of Dhofar, the Southern Region of Oman: Traditional, Economic and Medicinal Uses. Muscat, Sultanate of Oman: Diwan of Royal Court.Google Scholar
Olsen, SR, Cole, CV, Watanabe, FS and Dean, LA (1954) Estimation of available phosphorus in soils by extraction with sodium bicarbonate. USDA Circular 939.Google Scholar
Saied, A, Gebauer, J, Sohail, M and Buerkert, A (2007) Z. spina-christi and G. tenax as promising fruit trees for afforestation in Northern Sudan, In: Tropentag conference on Utilisation of diversity in land use systems: Sustainable and organic approaches to meet human needs, 9–11th October, 2007, (Witzenhausen, Germany).Google Scholar
Saleem, NA, Mohamed, KAA and El Nour, M (2012b) Different growth characteristics of Grewia mollis, Grewia tenax and Grewia villosa under nursery and field conditions. Journal of Life Science 6: 10161024.Google Scholar
Singh, M and Kumar, S (2003) Some ecologically and economically important shrubs of Indian arid zone. Desert Environment Newsletter 7: 004.Google Scholar
Sohail, M, Saied, A, Gebauer, J and Buerkert, A (2009) Effects of seed stratification treatments on germination of Grewia tenax (Forssk.) Fiori., a Wild Fruit Species. In: Tropentag conference on Biophysical and Socio-economic Frame Conditions for the Sustainable Management of Natural Resources, 6–8th October, 2009, (Hamburg).Google Scholar
The Wealth of India (1956) Raw Materials and Industrial Products, vol. IV. New Delhi: CSIR, p. 266.Google Scholar
Venkatesan, K, Singh, M, Raja, P, Singh, D and Singh, JP (2014) Effect of browsing pressure on survival of Grewia tenax in Jaisalmer district. CAZRI News, No.4 (Jan.-Mar.) 2013–14.Google Scholar
Vogt, K (1995) A Field Worker's Guide to the Identification, Propagation and Uses of Common Trees and Shrubs of dry Land Sudan. London: SOS Sahel International, p. 167.Google Scholar
Von Maydell, HJ (1990) Trees and shrubs of the Sahel: their characteristics and uses. Deutsche Gesellschaft fur Technische Zusammenarbeit (GTZ) GmbH. Roßdorf, Germany: Typo-Druck- Roßdorf GmbH.Google Scholar
Walkley, A and Black, IA (1934) An examination of Degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Science 37: 2937.Google Scholar
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