Abstract
This study aimed to investigate the diversity and distribution pattern of tree in different altitudes in a protected area of Churdhar Wildlife Sanctuary (CWS), situated in Himachal Pradesh, Western Himalaya, India. CWS is one of the famous sanctuaries and rich in biodiversity. The tree species analysis was done with the stratified sampling technique by performing a random sampling using the quadrats method. The study area was divided into four different altitudes: (i) Chhogtali (CT; 1900–2200 masl), (ii) Churas (CH; 1900–2200 masl), (iii) Nohra 1 (NH1; 2800–3200 masl), and (iv) Nohra 2 (NH2; 2800–3200 masl). Among the studied sites, results revealed that tree species richness decreases with an increase in altitude. Quercus leucotrichophora was dominant in CT and CH sites, whereas Q. semecarpifolia was dominant in NH1 and Abies spectabilis in NH2 sites. Picea smithiana reported to be dominant species in the studied sites. Compared to CT and CH sites, the dominance-diversity (d-d) curve showed a decrease in species richness on HN1 and NH2 at higher altitudes, whereas tree total basal cover (TBC) increases with altitude. The maximum similarity was between CT and CH sites and reduced between CT and NH2 sites with higher altitudes. Almost all tree species exhibited contagious distribution patterns which are common in natural forests; however, a few species showed random distribution, and no species were found distributed regularly. This study provides fruitful information to the policy-makers, environmentalists, and foresters to understand species diversity and distribution with species composition and structure with altitude. Thus, conservation and sustainable management strategies of the forest could be design in better ways to conserve diversity on a regional and/or global scale.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anonymous. (n.d.). Revised working plan for the forests of Rajgarh Forest Division, Himachal Pradesh, vol. 1, 387, pp. 2005–2006.
Bai, F., Sang, W., & Axmacher, J. C. (2011). Forest vegetation responses to climate and environmental change: A case study from Changbai Mountain, NE China. Forest Ecology and Management, 262(11), 2052–2060.
Bharali, S., Paul, A., Khan, M. L., & Singha, L. B. (2011). Species diversity and community structure of a temperate mixed Rhododendron forest along an altitudinal gradient in West Siang District of Arunachal Pradesh, India. Nature and Science, 9(12), 125–140.
Bhat, J. A., Kumar, M., Negi, A. K., Todaria, N. P., Malik, Z. A., Pala, N. A., Kumar, A., & Shukla, G. (2020). Species diversity of woody vegetation along altitudinal gradient of the Western Himalayas. Global Ecology and Conservation, 24, e01302.
Borchsenius, F., Nielsen, P. K., & Lawesson, J. E. (2004). Vegetation structure and diversity of an ancient temperate deciduous forest in SW Denmark. Plant Ecology, 175(1), 121–135.
Chauhan, M., Kumar, M., & Kumar, A. (2020). Impact of carbon stocks of Anogeissus latifolia on climate change and socio-economic development: A case study of Garhwal Himalaya, India. Water, Air, and Soil Pollution, 231(8). https://doi.org/10.1007/s11270-020-04803-8.
Choudhary, R. K., & Joongku, L. (2012). A floristic reconnaissance of Churdhar wildlife sanctuary of Himachal Pradesh, India. Manthan, International Journal, 13, 2–1.
Curtis, J. T., & Mcintosh, R. P. (1950). The interrelations of certain analytic and synthetic phytosociological characters. Ecology, 31(3), 434–455.
Dar, J. A., & Sundarapandian, S. (2016). Patterns of plant diversity in seven temperate forest types of Western Himalaya, India. Journal of Asia-Pacific Biodiversity, 9(3), 280–292.
Dar, J. A., Subashree, K., Raha, D., et al. (2019). Tree diversity, biomass and carbon storage in sacred groves of Central India. Environmental Science and Pollution Research, 26, 37212–37227.
Devi, L. S., & Yadava, P. S. (2006). Floristic diversity assessment and vegetation analysis of tropical semievergreen forest of Manipur, north east India. Tropical Ecology, 47(1), 89–98.
Dhaulkhandi, M., Dobhal, A., Bhatt, S., & Kumar, M. (2008). Community structure and regeneration potential of natural forest site in Gangotri, India. Journal of Basic and Applied Sciences, 4(1), 49–52.
Gairola, S., Rawal, R. S., & Todaria, N. P. (2008). Forest vegetation patterns along an altitudinal gradient in sub-alpine zone of west Himalaya, India. African Journal of Plant Science, 2(6), 042–048.
Gairola, S., Sharma, C. M., Rana, C. S., Ghildiyal, S. K., & Suyal, S. (2010). Phytodiversity (Angiosperms and Gymnosperms) in Mandal-Chopta forest of Garhwal Himalaya, Uttarakhand, India. Nature and Science, 8(1), 1–17.
Gairola, S., Sharma, C. M., Ghildiyal, S. K., & Suyal, S. (2011). Tree species composition and diversity along an altitudinal gradient in moist tropical montane valley slopes of the Garhwal Himalaya, India. Forest Science and Technology, 7(3), 91–102.
Gairola, S., Sharma, C. M., Suyal, S., & Ghildiyal, S. K. (2011). Composition and diversity of five major forest types in moist temperate climate of the western Himalayas. Forestry Studies in China, 13(2), 139–153.
Gaur, R. D. (1999). Flora of the District Garhwal Northwest Himalaya: with ethnobotanical notes. Trans Media.
Gauthier, S., Grandpre, L. D., & Bergeron, Y. (2000). Differences in forest composition in two boreal forest eco- regions of Quebec. Journal of Vegetation Science, 11, 781–790.
Gilbert, G. S., Howard, E., Ayala-Orozco, B., Bonilla-Moheno, M., Cummings, J., Langridge, S., & Swope, S. (2010). Beyond the tropics: forest structure in a temperate forest mapped plot. Journal of Vegetation Science, 21(2), 388–405.
Gracia, M., Montané, F., Piqué, J., & Retana, J. (2007). Overstory structure and topographic gradients determining diversity and abundance of understory shrub species in temperate forests in central Pyrenees (NE Spain). Forest Ecology and Management, 242(2-3), 391–397.
Helm, A., Zobel, M., Moles, A. T., Szava-Kovats, R., & Pärtel, M. (2015). Characteristic and derived diversity: implementing the species pool concept to quantify conservation condition of habitats. Diversity and Distributions, 21(6), 711–721.
Jones, C. G., Lawton, J. H., & Shachak, M. (1997). Positive and negative effects of organisms as physical ecosystem engineers: positive interactions in communities. Ecology, 78(7), 1946–1957.
Khali, M., & Bhatt, V. P. (2014). Community structure of montane forest along the altitudinal gradient in Garhwal Himalaya, India. The Journal of Ecology and The Natural Environment, 6(6), 205–214.
Khan, M. Y. A., & Chakrapani, G. J. (2016). Particle size characteristics of Ramganga catchment area of Ganga River. In N. Raju (Ed.), Geostatistical and Geospatial Approaches for the Characterization of Natural Resources in the Environment. Springer. https://doi.org/10.1007/978-3-319-18663-4_47.
Khan, S. M., Harper, D. M., Page, S., & Ahmad, H. (2011). Species and community diversity of vascular flora along environmental gradient in Naran Valley: A multivariate approach through indicator species analysis. Pakistan Journal of Botany, 43(5), 2337–2346.
Khan, M. Y. A., Tian, F., Hasan, F., & Chakrapani, G. J. (2019). Artificial neural network simulation for prediction of suspended sediment concentration in the River Ramganga, Ganges Basin, India. International Journal of Sediment Research, 34(2), 95–107.
Khan, N., Jhariya, M. K., Yadav, D. K., et al. (2020). Structure, diversity and ecological function of shrub species in an urban setup of Sarguja, Chhattisgarh, India. Environmental Science and Pollution Research, 27, 5418–5432. https://doi.org/10.1007/s11356-019-07172-w.
Kharakwal, G., Mehrotra, P., Rawat, Y. S., & Pangtey, Y. P. S. (2005). Phytodiversity and growth form in relation to altitudinal gradient in the Central Himalayan (Kumaun) region of India. Current Science, 89(5), 873–878.
Kumar, A., & Kumar, M. (2020). Estimation of carbon stock in the hydroelectric catchment of India and its implementation to Climate Change. Journal of Sustainable Forestry, 39(6). https://doi.org/10.1080/10549811.2020.1794907.
Kumar, A., & Sharma, M. P. (2017). Estimation of greenhouse gas emissions from Koteshwar hydropower reservoir, India. Environmental Monitoring and Assessment, 189(5), 240–251.
Kumar, A., Mishra, S., & Kumar, A. (2017a). Environmental quantification of soil elements in the catchment of hydroelectric reservoirs in India. Human and Ecological Risk Assessment, 23(05), 1202–1218.
Kumar, A., Sharma, M. P., & Taxak, A. K. (2017b). Effect of vegetation communities and altitudes on the soil organic carbon stock in Kotli Bhel-1A catchment, India. Clean-Soil, Air, Water, 45(8). https://doi.org/10.1002/clen.201600650.
Kumar, A., Sharma, M. P., & Yang, T. (2018). Estimation of carbon stock for greenhouse gas emissions from hydropower reservoirs. Stochastic Environmental Research and Risk Assessment, 32(10), 3183–3319.
Kumar, M., Rawat, S., Nagar, B., Kumar, A., Pala, N. A., Bhat, J. A., Bussmann, R. W., Cabral-Pinto, M., & Kunwar, R. (2021). Implementation of the use of ethnomedicinal plants for curing diseases in the Indian Himalayas and its role in sustainability of livelihoods and socioeconomic development. International Journal of Environmental Research and Public Health, 18, 1509. https://doi.org/10.3390/ijerph18041509.
Kunwar, R. M., & Sharma, S. P. (2004). Quantitative analysis of tree species in two community forests of Dolpa district, mid-west Nepal. Himalayan Journal of Sciences, 2(3), 23–28.
Kusumlata, & Bisht, N. S. (1991). Quantitative analysis and regeneration potential of moist temperate forest in Garhwal Himalaya. Indian Journal of Forestry, 14(2), 98–106.
Malhi, Y., Roberts, J. T., Betts, R. A., Killeen, T. J., Li, W., & Nobre, C. A. (2008). Climate change, deforestation, and the fate of the Amazon. Science, 319(5860), 169–172.
Malik, Z. (2014). Phytosociological Behaviour, Anthropogenic disturbances and regeneration status along an altitudinal gradient in Kedarnath Wildlife Sanctuary (KWLS) and its adjoining areas. Ph.D Thesis, HNB Garhwal University, Srinagar Garhwal, Uttarakhand.
Manabe, T., Nishimura, N., Miura, M., & Yamamoto, S. (2000). Population structure and spatial patterns for trees in a temperate old-growth evergreen broad-leaved forest in Japan. Plant Ecology, 151(2), 181–197.
Mani, M. S. (1978). Ecology and phytogeography of high altitude plants of the Northwest Himalaya. Biol Plant, 22, 209. https://doi.org/10.1007/BF02892741.
Mishra, R. (1968). Ecology Workbook (p. 244). Oxford and IBH Publ. Co.
Mishra, A., Sharma, C. M., Sharma, S. D., & Baduni, N. P. (2000). Effect of aspect on the structure of vegetation community of moist Bhabar and Tarai Shorea robusta forest in Central Himalaya. Indian Forester, 126(6), 634–642.
Nautiyal, S., & Kaechele, H. (2007). Conserving the Himalayan forests: Approaches and implications of different conservation regimes. Biodiversity and Conservation, 16(13), 3737–3754.
Pande, P. K., Negi, J. D. S., & Sharma, S. C. (2001). Plant species diversity and vegetation analysis in moist temperate Himalayan forest. Indian Journal of Forestry, 24(4), 456–470.
Pande, P. K., Negi, J. D. S., & Sharma, S. C. (2002). Plant species diversity, composition, gradient analysis and regeneration behaviour of some tree species in a moist temperate western Himalayan forest ecosystem. Indian Forester, 128(8), 869–886.
Pant, S., & Samant, S. S. (2007). Assessment of plant diversity and prioritization of communities for conservation in Mornaula Reserve Forest. Applied Ecology and Environmental Research, 5(2), 123–138.
Pant, S., & Samant, S. S. (2012). Diversity and regeneration status of tree species in Khokhan Wildlife Sanctuary, north-western Himalaya. Tropical Ecology, 53(3), 317–331.
Partel, M. (2014). Community ecology of absent species: hidden and dark diversity. Journal of Vegetation Science, 25(5), 1154–1159. https://doi.org/10.1111/jvs.12169.
Phillips, E. A. (1959). Methods of vegetation study (p. 107). Henry Holt and Co. Inc..
Radha, S. P., Chandel, K., Pundir, A., Thakur, M. S., Chauhan, B., Simer, K., Dhiman, N., Shivani, Y., Thakur, S., & Kumar, S. (2019). Diversity of ethnomedicinal plants in Churdhar Wildlife Sanctuary of district Sirmour of Himachal Pradesh, India. Journal of Applied Pharmaceutical Science, 9(11), 048–053.
Rai, I. D., Adhikari, B. S., Rawat, G. S., & Kiran, B. (2012). Community structure along timberline ecotone in relation to micro-topography and disturbances in western Himalaya. Notulae Scientia Biologicae, 4(2), 41–52.
Rai, P., Vineeta, S. G., Manohar, K. A., Bhat, J. A., Kumar, A., Kumar, M., Cabral-Pinto, M., & Chakravarty, S. (2021). Carbon storage of single tree and mixed tree dominant species stands in a reserve forest—Case study of the Eastern Sub-Himalayan Region of India. Land, 10(4), 435. https://doi.org/10.3390/land10040435.
Rana, C. S., & Gairola, S. (2009). Forest community structure and composition along an elevational gradient of Parshuram Kund area in Lohit district of Arunachal Pradesh, India. Nature and Science, 1(8), 44–52.
Rana, K., Kumar, M., & Kumar, A. (2020). Assessment of annual shoot biomass and carbon storage potential of Grewia optiva: An approach to combat climate change in Garhwal Himalaya. Water, Air, and Soil Pollution, 231(450). https://doi.org/10.1007/s11270-020-04825-2.
Raturi, G. P. (2012). Forest community structure along an altitudinal gradient of district Rudraprayag of Garhwal Himalaya, India. Ecologia, 2(3), 76–84.
Rennolls, K., & Laumonier, Y. (2000). Species diversity structure analysis at two sites in the tropical rain forest of Sumatra. Journal of Tropical Ecology, 16(2), 253–270.
Shaheen, H., Ullah, Z., Khan, S. M., & Harper, D. M. (2012). Species composition and community structure of western Himalayan moist temperate forests in Kashmir. Forest Ecology and Management, 278, 138–145.
Shank, R. E., & Noorie, E. N. (1950). Microclimate vegetation in a small valley in eastern Tennessee. Ecology, 11, 531–539.
Sharma, C. M., Gairola, S., Ghildiyal, S. K., & Suyal, S. (2010). Physical properties of soils in relation to forest composition in moist temperate valley slopes of the Central Western Himalaya. Journal of Forest and Environmental Science, 26(2), 117–129.
Sharma, C. M., Khanduri, V. P., & Goshwami, S. (2001). Community composition and population structure in temperate mixed broad-leaved and coniferous forest along an altitudinal gradient in a part of Garhwal Himalaya. Journal of Hill Research, 14(1), 32–43.
Sharma, C. M., Mishra, A. K., Krishan, R., Tiwari, O. P., & Rana, Y. S. (2016). Impact of climate on structure and composition of Ridge Top forests in Garhwal Himalaya. Taiwania, 61(2), 61–69.
Sharma, C. M., Mishra, A. K., Krishan, R., Tiwari, O. P., & Rana, Y. S. (2017). Effect of altitudinal gradients on forest structure and composition on ridge tops in Garhwal Himalaya. Energy, Ecology and Environment, 2(6), 404–417.
Sharma, P., Rana, J. C., Devi, U., Randhawa, S. S., & Kumar, R. (2014). Floristic diversity and distribution pattern of plant communities along altitudinal gradient in Sangla Valley, Northwest Himalaya. The Scientific World Journal, 3(3), 10–16.
Singh, J. S. (2002). The biodiversity crisis: a multifaceted review. Current Science, 82(6), 638–647.
Singh, D. (2013). Forest structure, diversity, growing stock variation and regeneration status of different forest cover types in Dudatoli area of Garhwal Himalaya. Ph.D. Thesis, HNB Garhwal University, Srinagar Garhwal, Uttarakhand.
Singh, A., & Gupta, N. K. (2009). Assessment of floristic diversity and regeneration status of Cedrus deodara (Roxb.) Loud. stands under forest management systems in Western Himachal Himalayas: a case study of Shimla district. Indian Journal of Forestry, 32(1), 45–54.
Singh, G., & Rawat, G. S. (2012). Depletion of oak (Quercus spp.) forests in the Western Himalaya: grazing, fuelwood and fodder collection. In C. A. Okia (Ed.), Global perspectives on sustainable forest management. InTech. Available from: http://www.intechopen.com/books/global-perspectives-on-sustainable-forest-management/depletion-of-oakquercus-spp-forests-in-the-western-himalaya-grazing-fuelwood-and-fodder-collec.
Singh, S. P., Bassignana-Khadka, I., Singh, K. B., & Sharma, E. (2011). Climate change in the Hindu Kush-Himalayas: The state of current knowledge. International Centre for Integrated Mountain Development (ICIMOD) Sotwp 2016.https// stateoftheworldsplants.com/land-cover-change. Accessed 16 Jan 2019.
Srivastava, R. K., Khanduri, V. P., Sharma, C. M., & Kumar, P. (2005). Structure, diversity and regeneration potential of Oak dominant conifer mixed forest along an altitudinal gradient in Garhwal Himalaya. Indian Forester, 131(12), 1537–1553.
Subramani, S. P., Kapoor, K. S., & Goraya, G. S. (2014). Additions to the floral wealth of Sirmaur District, Himachal Pradesh from Churdhar Wildlife Sanctuary. Journal of Threatened Taxa, 6(11), 6427–6452.
Suyal, S., Sharma, C. M., Gairola, S., Ghildiyal, S. K., Rana, C. S., & Butola, D. S. (2010). Phytodiversity (angiosperms and gymnosperms) in Chaurangikhal forest of Garhwal Himalaya, Uttarakhand, India. Indian Journal of Science and Technology, 3(3), 267–275.
Swarupanandan, K., Sasidharan, N., Chacko, K. C., & Basha, S. C. (2001). Floristic and ecological studies on the Sholas of Idukki district. In K. K. N. Nair, S. K. Khanduri, & K. Balasubramaniayan (Eds.), Shola forests of Kerala: Enviornment and Biodiversity (pp. 259–286). Kerala, India.
Thakur, U., Khajuria, A. K., & Bisht, N. S. (2018). Population dynamics and regeneration status of forests along an altitudinal gradient in Churdhar wildlife sanctuary, Himachal Pradesh, India. International Journal of Basic and Applied Research, 8(11), 46–55.
Timilsina, N., Ross, M. S., & Heinen, J. T. (2007). A community analysis of sal (Shorea robusta) forests in the western Terai of Nepal. Forest Ecology and Management, 241(1-3), 223–234.
Tripathi, O. P., Pandey, H. N., & Tripathi, R. S. (2004). Distribution, community characteristics and tree population structure of subtropical pine forest of Meghalaya, northeast India. International Journal of Ecology and Environmental Sciences, 29, 207–214.
Uniyal, P., Pokhriyal, P., Dasgupta, S., Bhatt, D., & Todaria, N. P. (2010). Plant diversity in two forest types along the disturbance gradient in Dewalgarh Watershed, Garhwal Himalaya. Current Science, 938–943.
Whittaker, R. H. (1972). Evolution and measurement of species diversity. Taxon, 21, 213–215.
Yam, G., & Tripathi, O. P. (2016). Tree diversity and community characteristics in Talle Wildlife Sanctuary, Arunachal Pradesh, Eastern Himalaya, India. Journal of Asia-Pacific Biodiversity, 9(2), 160–165.
Zhang, J. T., Xu, B., & Li, M. (2013). Vegetation patterns and species diversity along elevational and disturbance gradients in the Baihua Mountain Reserve, Beijing, China. Mountain Research and Development, 33(2), 170–178.
Acknowledgements
Authors are thankful to the head of the Department of Botany, HNB Garhwal University for the support during the study.
Availability of Data and Material
Not applicable
Author information
Authors and Affiliations
Contributions
UT, NSB, and MK develop a draft of the manuscript; AK improves the manuscript by adding new contents, and further, all the authors approve the manuscript.
Corresponding authors
Ethics declarations
Ethics Approval and Consent to Participate
Not applicable
Consent for Publication
Not applicable
Competing Interests
The authors declare no competing interests.
Additional information
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Thakur, U., Bisht, N.S., Kumar, M. et al. Influence of Altitude on Diversity and Distribution Pattern of Trees in Himalayan Temperate Forests of Churdhar Wildlife Sanctuary, India. Water Air Soil Pollut 232, 205 (2021). https://doi.org/10.1007/s11270-021-05162-8
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s11270-021-05162-8