Abstract
Historical evidences suggest that the Himalayas have some strong biogeographical links to the Alps. In view of this fact, the present study aims to understand the similarities in plant species distribution and their ethnobotanical uses in the Indian Himalayas and the Slovenian Alps. The plant species common in both the mountain systems and used by local inhabitants were compiled by extensive literature search and also by carrying out primary surveys. Ethnobotanical information was collected through personal interviews of villagers with the help of local assistants and also through direct and indirect observations made during the field surveys. A total of 59 ethnobotanical species representing 17 families common in both the Indian Himalayas and the Slovenian Alps were documented, of these 78% obtained medicinal properties and traditionally used by local people for curing diseases. Comparatively, people of the Indian Himalayas used plants for medicine in higher percentage (73%) than the people of Slovenia (42%). Of the total medicinal plants, only 7 plant species such as Acorus calamus, Capsella bursa-partoris, Hypericum perforatum, Origanum vulgare, Prunella vulgaris, Solanum nigrum and Urtica dioica had some common uses in both the Slovenian Alps and the Indian Himalayas. In the Slovenian Alps, the maximum ethnobotanical species (61%) had wide distribution range whereas maximum ethnobotanical species in the Indian Himalayas (62%) had localized distribution. Though, 27% of common ethnobotanical species belonged to different threat categories, only 2 species—Taxus baccata and Hippophae rhamnoides—are placed under similar threat category in these two different mountain areas. The study unfolds relationship in plant species distribution and their ethnobotanical uses along with offering an opportunity to provide information on uses of plant species though available but unknown to community.
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References
Anon (2008) Rules on the Classification of Medical Plants. Official Gazette of the Republic of Slovenia (Ur.l.RS), 103/2008, Ljubljana
Arya PY (2010) The Tibetan medicinal herbs growing in the European Alps. http://www.tibetanmedicine-edu.org/index.php/n-articles/medicinal-plants-in-alps. Assessed on 8 June 2011
Casazza G, Zappa E, Mariotti MG, Médail F, Minuto L (2008) Ecological and historical factors affecting distribution pattern and richness of endemic plant species: the case of the Maritime and Ligurian Alps hotspot. Divers Distrib 14:47–58
Čušin B, Babij V, Bačič T, Daskobler I, Frajman B, Jogan N, Kaligarič M, Praprotnik N, Seliškar A, Skoberne P, Surina B, Škornik S, Vreš B (2004) Natura 2000V Sloveniji Rastline. Založba ZRC, Ljubljana
Eisenreich W, Handel A, Zimmer UE (2005) Rastline in živali okrog nas. Založba Modrijan, Ljubljana
European Union (2001) Directive 2001/83/EC of the European Parliament and of the Council of 6 November 2001 on the community code relating to medicinal products for human use. http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32001L0083:EN:NOT. Assessed on 3 June 2011
European Union (2004) Directive 2004/24/EC of the European Parliament and of the Council of 31 March 2004 amending, as regards traditional herbal medicinal products, directive 2001/83/EC on the community code relating to medicinal products for human use. http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32004L0024:EN:NOT. Assessed on 3 June 2011
Gairola S, Shariff NM, Bhatt A, Kala CP (2010) Influence of climate change on production of secondary chemicals in high altitude medicinal plants: issues needs immediate attention. J Med Plants Res 4(18):1825–1829
Godet Jean-Denis (2002) Alpske Rastline. Didakta, Radovljica
Grabherr G (2009) Biodiversity in the high ranges of the Alps: ethnobotanical and climate change perspectives. Glob Environ Change 19(2):167–172
Guisan A, Zimmermann NE (2000) Predictive habitat distribution models in ecology. Ecol Model 135(2–3):147–186
Guisan A, Theurillat JP, Kienast F (1998) Predicting the potential distribution of plant species in an alpine environment. J Veg Sci 9:65–74
Jochum GM, Mudge KW, Richard BT (2007) Elevated temperatures increase leaf senescence and root secondary metabolite concentrations in the understory herb Panax quinquefolius (Araliaceae). Am J Bot 94(5):819–826
Jogan N (ed) (2001) Gradivo za Atlas flore Slovenije. Materials for the Atlas of flora of Slovenia. CKFF, Miklavž na Dravskem polju
Kadereit JW, Licht W, Uhink CH (2008) Asian relationships of the flora of the European Alps. Plant Ecol Divers 1(2):171–179
Kala CP (2002) Medicinal plants of Indian trans-Himalaya: focus on Tibetan use of medicinal resources. Bishen Singh Mahendra Pal Singh, Dehradun, p 200
Kala CP (2005a) Indigenous uses, population density, and conservation of threatened medicinal plants in protected areas of the Indian Himalayas. Conserv Biol 19(2):368–378
Kala CP (2005b) Health traditions of Buddhist community and role of Amchis in trans-Himalayan region of India. Curr Sci 89(8):1331–1338
Kala CP (2009) Medicinal plants conservation and enterprise development. Med Plants 1(2):79–95
Kala CP (2011) Conservation and utilization of biodiversity in high altitude cold desert of India. In: Saxena KG, Liang L, Xue X (eds) Global change. Bishen Singh Mahendra Pal Singh, Dehradun, pp 43–49
Kala CP, Mathur VB (2002) Patterns of plant species distribution in the trans-Himalayan region of Ladakh. India J Veg Sci 13(6):751–754
Mattauer M (1986) Intracontinental subduction, crust–mantle décollement and crustal-stacking wedge in the Himalayas and other collision belts. Geol Soc Lond Spec Publ 19:37–50
Oerlemans J (2005) Extracting a climate signal from 169 glacier records. Science 308:675–677
Pidwirny M (2006) Mountain building. Fundamentals of physical geography, 2nd edn. http://www.physicalgeography.net/fundamentals/10k.html. Accessed on 26 April 2011
Polunin O, Stainton A (1984) Flowers of the Himalaya. Oxford Press, New Delhi, India
Skoberne P (2007) Narava na dlani. Zavarovane Rastline Slovenije. Mladinska Knjiga, Ljubljana. Martinčič A. (Eds) 1999. Mala flora Slovenije, 3. izdaja. Tehniška založba Slovenija, Ljubljana, p 845
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The authors thank the Indian Institute of Forest Management, India and the University of Ljubljana, Slovenia for providing support.
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Kala, C.P., Ratajc, P. High altitude biodiversity of the Alps and the Himalayas: ethnobotany, plant distribution and conservation perspective. Biodivers Conserv 21, 1115–1126 (2012). https://doi.org/10.1007/s10531-012-0246-x
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DOI: https://doi.org/10.1007/s10531-012-0246-x