Abstract
We investigated the phytosociology, structure and dynamics of Pinus roxburghii in 40 stands in northern areas of Pakistan by using cluster analysis (Ward’s agglomerative clustering) and ordination (Nonmetric Multidimensional Scaling). Cluster analysis revealed three major groups associated with specific environmental characteristics: (1) P. roxburghii (2) Pinus-Quercus baloot and (3) Pinus-Olea ferruginea community types. NMS-ordination showed the major gradient as an amalgam of elevation (r 2 = 0.441, p <0.01) and slope (r 2 = 0.391, p <0.05) as the two topographic factors correlated with species distribution. The first ordination axis also showed positive correlation with soil variables like pH and electrical conductivity, suggesting that soil chemistry was related to topographic characteristics and probably acted as a secondary gradient. We also examined size class distributions, age structures and growth rates of the three communities in order to describe community development and dynamics. Total tree density was 14700 plants/ha, with P. roxburghii having a relative density of 82% to 100%. Density of juvenile and total density and basal area of the subordinate tree species were low. The low density of trees in the smallest diameter size-class suggested that the recruitment of small P. roxburghii plants into the adult population may be lower than the required replacement rate for the stands. Pooled size-class distributions for the species showed a multimodal pattern with some regeneration gaps. Browsing, heavy logging and other anthropogenic activities were the overriding factors responsible for the poor recruitment of P. roxburghii. We concluded from the age structure that the forests were characterized by the dominance of young trees. Growth rate analysis revealed that P. roxburghii was the fastest growing species among the conifers species in Pakistan. In view of its relatively fast growth and longevity, P. roxburghii seems to be a suitable choice for short-term cultural practices in order to enhance wood production in lesser Himalaya and Hindukush ranges of Pakistan.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ahmed M, Hussain T, Sheikh, AH, Hussain SS, Siddiqui FM. 2006. Phytosociology structure of Himalayan Forest from different climatic zones of Pakistan. Pakistan Journal of Botany, 38(2): 361–382.
Ahmed M, Khan N, Wahab M, Hamza S, Siddiqui F, Nazim K, Khan MU. 2009. Description and structure of Olea ferruginea (Royle) forest of Dir Lower District of Pakistan. Pakistan Journal of Botany, 41(6): 2683–2683.
Ahmed M, Naqvi SH. 2005. Tree-ring chronologies of Picea smithiana (Wall) Boiss, and its quantitative vegetational description from Himalayan Range of Pakistan. Pakistan Journal of Botany, 37(3): 697–707.
Ahmed M, Nazim K, Siddiqui MF, Wahab M, Khan N, Khan MU, Hussain SS. 2009. Description and structure of Deodar forests from Himalayan range of Pakistan. Pakistan Journal of Botany, 42(5): 3091–3102.
Ahmed M, Palmer J, Khan N, Wahab M, Fenwick P, Esper J, Cook E. 2011. The dendroclimatic potential of conifers from northern Pakistan. Dendrochronologia, 29(3): 212–235.
Ahmed M, Sarangzai AM. 1991. Dendrochronological approach to estimate age and growth rates of various species from Himalayan Region of Pakistan. Pakistan Journal of Botany, 23(1): 78–89.
Ahmed M, Shaukat SS, Siddiqui FM. 2011. A multivariate analysis of vegetation of Cedrus deodara forests in Hindukush and Himalayan ranges of Pakistan: evaluating the structure and dynamics. Turkish Journal of Botany, 35: 419–438.
Ahmed M, Shaukat SS. 2012. A Textbook of Vegetation Ecology. Karachi: Abrar Sons Publishers, 396 pp.
Ahmed M, Wahab M, Khan N, Saddiqui FM, Khan MU, Hussain ST. 2009. Age and growth rates of some gymnosperms of Pakistan: A dendrochronological approach. Pakistan Journal of Botany, 41(2): 849–860.
Ajaib M, Iqbal A, Khan Z. 2004. Phytosociological studies on the vegetation of Pir Chinasi Hills District Muzaffarabad Azad Jammu & Kashmir. Proceeding of the National conference Biology, 2. 227–233 pp.
Ajaib M, Khan Z. 2004. The present position of sub-tropical Pine (Chir) vegetation in the Hills of Saney Baney District Kotli (A.J & K). In: Proceeding of the National conference Biology, 2. 173–179 pp.
Ali K. 2011. The conservation issues of medicinal plants of the Swat valley, with special reference to the tree flora. PhD dissertation: School of Biological Sciences University of Reading UK. pp 1–468.
Allen RB, Pet RK. 1990. Gradient analysis of forests of the Sangre de Cristo Range Colorado. Canadian Journal of Botany, 6: 193–201.
Ashraf I. 1995. Phytosociological studies of Pir Chinasi Hills District Muzaffarabad. M.Sc. Thesis, University of Azad Jammu & Kashmir Muzaffarabad.
Badshah L, Hussain F, Akhtar N. 2010. Vegetation of subtropical forest of Tabai, South Waziristan, Pakistan. Frontier of Agriculture in. China, 4(2): 232–236.
Baker, Kinkpatrick. 1994. Phyllocaldus asplenifolius: Variability in the population structure of the regeneration niche and dispersion pattern in Tasmanian forest. Australian Journal of Botany, 42: 163–190.
Bhat DM, Hegde GT, Shetti DM, Patgar SG, Hegde GN, Furtado RM, Shastri CM, Bhat PR, Ravindranath NH. 2011. Impact of disturbance on composition, structure and floristics of Tropical Moist forests in Uttara Kannada District, Western Ghats, India. Ecotropica, 17(2): 1–14.
Bhattacharyya A, LaMarche Jr VC, Hughes MK. 1992. Tree-ring chronologies from Nepal. Tree-Ring Bulletin, 52: 59–66.
Bowers NA. 1964. New method of surfacing wood specimen for study. Tree-Ring Bulletin. 26: 2–5.
Brian H. 1991. The Cambridge Encyclopedia of China, Cambridge UP. (2nd edi.)
Carter MR, Gregorich EG. 2008. Soil Sampling and Methods of Analysis. Toronto: Canadian Society of Soil Science, p. 1224.
Champion GH, Seth SK, Khattak GM. 1965. Forest types of Pakistan. Peshawar: Pakistan Forest Institute, p. 238.
Chaudhary V, Bhattacharyya A, Yadav RR. 1999. Tree-ring studies in the Eastern Himalayan region: Prospects and problems. IAWA Journal, 20: 317–324.
Condit R, Sukumar R, Hubbell SP, Foster RB. 1998. Predicting population trends from size distributions. A direct test in a tropical tree community. The American Naturalist, 152: 495–509.
Cook ER, Kairiukstis LA. 1990. Methods of dendrochronology: applications in the environmental science. Dordrecht: Kluwer, p. 394.
Cook ER, Krusic PJ, Jones PD. 2003. Dendroclimatic signals in long tree-ring chronologies from the Himalayas of Nepal. International Journal of Climatology, 23: 707–732.
Cottam G, Curtis JT. 1956. The use of distance measures in phytosociological sampling. Ecology, 37: 451–460.
Curtis JT, McIntosh RP. 1950. The interrelation of certain analytic and synthetic phytosociological characters. Ecology, 31: 434–455.
Elouard C, Pascal JP, Pelissier R, Ramesh BR, Houllier F, Durand M, Aravajy S, Moravie MA, Gimaret-Carpentier C. 1997. Monitoring the structure and dynamics of a dense moist evergreen forest in Western Ghats (Kodagu district, Karanataka, India). Tropical Ecology, 38(2): 193–214.
Enright NJ, Miller BP, Akhter R. 2005. Desert vegetation and vegetationenvironment relationships in Khirthar National Park, Sindh, Pakistan. Journal of Arid Environment, 61: 397–418.
Fowler HJ, Archer DA. 2006. Conflicting signals of climate change in the upper Indus Basin. Journal of Climate, 19(17): 4276–4293.
Fritts HC, Xiangding W. 1986. A comparison between response function analyses and other regression techniques. Tree-Ring Bulletin, 46: 31–46.
Fritts HC. 1976. Tree-Ring and Climate. New Jersey: Blackburn Press, Caldwell.
Gaur RD. 1982. Dynamics of vegetation of Garhwal Himalaya. In: Paliwal, G.S. (ed), Vegetational Wealth of Himalaya. New Delhi: Puja publishers, pp.12–22.
Ghildiyal SK, Sharma CM, Gairola S. 2009. Environmental variation in seed and seedling characteristics of Pinus roxburghii Sarg. from Uttarakhand, India. Applied Ecology and Environmental Research, 2: 121–129.
Ghildiyal SK, Sharma CM, Gairola S. 2010. Variation in morphological characters of mycorhizal seedlings of various proruences of Pinus roxburghii Sargent. New York Science Journal, 3(2): 1–8.
Greig-Smith P. 1983. Quantitative plant Ecology, 3rd ed. Oxford: Blackwell Scientific, p.359.
Gupta B, Dass B. 2007. Composition of herbage in Pinus roxburghii Sargent stands: basal area and Importance value index. Caspian Journal of Environmental Sciences, 5(2): 93–98.
Heinrich I. 2004. Dendroclimatology of Toona ciliata. Ph.D dissertation of Australian National University. pp. 1–234.
Huang JG, Zhang QB. 2007. Tree-rings and climate for the last 680 years in Wulan area of northern Qinghai-Tibetan Plateau. Climate Change, 80: 369–377.
Hussain A, Farooq MA, Ahmed M, Akbar M, Zafar MU. 2010. Phytosociology and structure of Central Karakoram National Park (CKNP) of Northern Areas of Pakistan. World Applied Science Journal, 9(12): 1443–1449.
Ives ID, Messerli J. 1989. The Himalaya Dilemma: Reconciling Development and Conservation. Rutledge, London: The United Nation University.
Keen BA. 1931. The physical properties of soil. New York: Longman Green and Company, p. 380.
Khan N, Ahmed M, Shaukat SS, Wahab W, Siddiqui FM. 2011. Structure, dynamics, diversity and regeneration potential of Monotheca buxifolia (Falc.) A.D. dominated forests District Dir, Pakistan. Frontier of Agriculture China, 5(1): 106–121.
Khan N, Ahmed M, Wahab M, Ajaib M. 2010. Phytosociology, structure and physiochemical analysis of soil in Quercus baloot Griff, Forest District Chitral Pakistan. Pakistan Journal of Botany, 42(4): 2429–2441.
Khan N, Shaukat SS, Ahmed M, Saddiqui FM. 2013. Vegetation-environment relationships in the forests of Chitral district Hindukush range of Pakistan. Journal of Forestry Research, 24(2): 205–216.
Khan N. 2012. A community analysis of Quercus baloot Griff forest District Dir Upper Pakistan. African Journal of Plant Sciences, 6(1): 21–31.
Kumar M, Rajwar GS, Sharma CM. 2004. Disturbance and dynamics in a sub-tropical forest of Garhwal Himalaya. Bulletin of the National Institute of Ecology, 14: 43–50.
Lv LX, Zhang QB. 2012. Asynchronous recruitment history of Abies spectabilis along an altitudinal gradient in the Mt. Everest region. Journal of Plant Ecology, 5(2): 147–156.
Malabadi RB, Nataraja K. 2006. Cryopreservation and plant regeneration via somatic embryogenesis using shoot apical domes of mature Pinus roxburghii Sarg. Trees. In vitro cell. Developmental Biology of Plant, 42: 152–259.
Malik NZ, Arshad M, Sarwat NM. 2007. Phytosociological attributes of different plants communities of Pir Chinasi Hills of Azad Jammu and Kashmir. International Journal of Agriculture & Biology, 9(4): 569–574.
Manfred F, Buchroithner, Gamerith H. 1986. On the geology of Trich Mir area, Central Hindukush Pakistan. Jahrbuch Geolqische Bandesanstalt, 128: 367–380.
Manfred FB, Zimmer K. 2000. Generation of a 1:00000 geological map of central Chitral (Hindukush, north Pakistan) by means of GIS-software. Mitteilungender Österreichischen Geologischen Gesellschaft, 91: 11–216.
McCune B, Grace JB. 2002. Analysis of Ecological Communities. Gleneden Beach, Oregon: MjM Software Design, p.304
McCune B, Mefford MJ. 2005. Multivariate Analysis of Ecological Data. PC. ORD Version 5.10 My-M Software, Gleneden Beach, Oregon, U.S.A.
Miehe G, Miehe S, Schlutz F. 2009. Early human impact in the forest ecotone of southern high Asia (Hindu Kush, Himalaya). Quaternary Research, 71: 255–265.
Minchin PR. 1987. An evaluation of the relative robustness of techniques for ecological ordination. Vegetatio, 69: 89–107.
Mueller-Dombois D, Ellenberg H. 1974. Aims and methods of vegetation Ecology. New York: John Wiley and sons. Inc., p. 547.
Nafeesa Z, Malik M, Arshad, Sarwat MN. 2007. Phytosociological attributes of different Plant communities of Pir Chinasi Hills of Azad Jammu and Kashmir. International Journal of Agriculture & Biology, 9(4): 565–574.
Nasir E, Ali SI. 1972. Flora of West Pakistan. Published under P. L. 480, Research project of U.S.A.D., with coordination of A.R.C. Pakistan.
Nath PC, Arunachalam A, Khan ML, Arunachalam K, Barbhuiya AR. 2005. Vegetation analysis and tree population structure of tropical wet evergreen forests in and around Namdapha National Park, Northeast India. Biodiversity and Conservation, 14: 2109–2136.
Obiri J, Lawes M, Mukolwe M. 2002. The dynamics and sustainable use of the coastal Pondoland forests of the Eastern Cape Province, South Africa. Forest Ecology and Management, 166: 131–148.
Ogden J, Ahmed M. 1989. Climate response function analysis of Kauri (Agathis australis) tree-ring chronologies in northern New Zealand. Journal of the Royal Society of New Zealand, 19: 205–221.
Ogden J, Powell JA. 1979. A quantitative description of the forest composition on an altitudinal gradient in Mount Field National Park, Tasmania and a discussion of its history and dynamics. Australian Journal of Ecology, 4: 293–325.
Ogden J. 1980. Dendrochronology and dendroecology: In introduction. New Zealand Journal of Ecology, 3: 154–156.
Ogden J. 1981. Dendrochronological studies and the determination of tree ages in the Australian tropics. Journal of Biogeography, 8: 405–420.
Ohsawa M, Shakya PR, Numata M. 1986. Distribution and succession of west Himalayan forest types in the eastern part of Nepal Himalaya. Mountain Research and Development, 6: 143–147.
Orloci L, Kenkel NC. 1985. Introduction to data analysis in ecology and systematic. Springer-Verlog. Berlin.
Pant GB, Borgaonkar HP. 1984. Growth rate of Chir pines (Pinus roxburghii) trees in Kumaon area in relationship to regional climatology. Himalayan Research and Development, 3: 1–5.
Pilcher JR. 1990. Sample preparation, cross-dating and measurement. In: Cook, E.R and L.A. Kairiukstis (eds.), Method in Dendrochronology. Dordrecht, Netherland: International Institute for Applied System Analysis, pp.40–51.
Ravindra B, Malabadi, Nataraja K. 2007. Plant regeneration via somatic embryogenesis using secondary needles of mature trees of Pinus roxburghii Sarg. International Journal of Botany, 3(1): 40–47.
Roza V. 2004. A dendroecological reconstruction of age structure and past management in old-growth pollarded parkland in northern Spain. Forest Ecology and Management, 195: 205–219.
Russell FL, Fowler NL. 1999. Rarity of Oak saplings in savannahs and woodland of eastern Edwards Plateau, Texas. Southwest Nat, 44: 31–41.
Ryniker KA, Bush JK, Auken OWV. 2006. Structure of Quercus gambelii communities in Lincoln National Forest, New Mexico, USA. Forest Ecology and Management, 233: 69–77.
Saddozai AQK. 1995. Revised Working Plan for Dir Kohistan Forests of Dir Forest Division. pp.1–136.
Sangye M. 2005. The Impact of Fire Frequency on the Regeneration of Pinus roxburghii in Eastern Bhutan. Dissertation of Master of Science in Mountain Forestry University of Natural Resources and Applied Life Sciences, (BOKU), Vienna, pp.1–77.
Schmidt B. 1993. Dendrochronological research in south Mustang. In: Ancient Nepal, edited by K.M Shrestha, T, Mishra and R. Pradhan, Journal of the Dep. of Archeology. HMG, Ministry of Education, Nepal.
Sethi HN. 2001. The Environment of Pakistan. London UK: Peak Publishing (ISBN 1-901458-490), p.182.
Shaheen H, Qureshi RA, Shinwari ZK. 2011. Structural diversity, vegetation dynamics and anthropogenic impact on lesser Himalayan sub-tropical forests of Bagh District, Kashmir. Pakistan Journal of Botany, 43(4): 1861–1866.
Shaukat SS. 1989. A technique for species weighting and its utility in data reduction and minimization of miss classification. Coenoses, 4: 163–168.
Sheikh MA, Kumar M. 2009. Nutrient status and economic analysis of soil in oak and pine forests in Garhwal Himalaya. Journal of American Science, 6(2): 117–122.
Siddiqui FM, Ahmed M, Shaukat SS, Khan N. 2010. Advance multivariate techniques to investigate vegetation-environmental complex of pine forests of moist area of Pakistan. Pakistan Journal of Botany, 42: 267–293.
Siddiqui MF, Ahmed M, Wahab M, Khan N. 2009. Phytosociology and structure of Pinus roxburghii Sargent (Chir Pine) in lesser Himalayan and Hindukush range of Pakistan. Pakistan Journal of Botany, 41(5): 2357–2369.
Singh JS. 1985. Environmental Regeneration in Himalaya: Concepts and Strategies. CHEA and Gyanodaya Prakashan, Naintital.
Singh R. 1976. Structure and net community production of the herbaceous vegetation in the sand dunes regions around Pilani, Rajasthan. Ph.D. Thesis, BITS, Pilani, Rajasthan. p. 460.
Singh SP, Singh JS. 1986. Structure and function of the central Himalayan Oak forest. Proceedings of Indian National Science Academy, 96: 159–189.
Sparks DL. 1996. Methods of soil analysis: Chemical methods, Part 3: Issue 5 of Soil Science Society of America book series. p. 1390.
Speer JH. 2010. Fundamentals of Tree Ring Research. The University of Arizona Press, USA. p. 333.
Strokes MA, Smiley TL. 1968. An introduction to tree-ring dating. Chicago: University of Chicago Press.
Timilsina N, Ross MS, Heinen JT. 2007. A community analysis of Sal (Shorea robusta) forests in the western Terai Nepal. Forest Ecology and Management, 241(1–3): 223–234.
Wahab M, Ahmed M, Khan N. 2008. Phytosociology and dynamics of some pine forests of Afghanistan. Pakistan Journal of Botany, 40(3): 1071–1079.
Wahab M. 2011. Population dynamics and dendrochronological potential of pine tree species of District Dir Pakistan. Ph.D dissertation. Department of Botany Federal Urdu University Karachi Pakistan.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Khan, N., Ali, K. & Shaukat, S. Phytosociology, structure and dynamics of Pinus roxburghii associations from Northern Pakistan. Journal of Forestry Research 25, 511–521 (2014). https://doi.org/10.1007/s11676-014-0490-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11676-014-0490-x