Changes of woody species diversity, horizontal and vertical distribution of stems across interior to outside within a primate rich habitat of Northeast India

Koushik Majumdar; Bal Krishan Choudhary; Badal Kumar Datta

doi:10.1007/s11676-016-0231-4

Journal of Forestry Research ›› 2016, Vol. 27 ›› Issue (4) : 787 -798. DOI: 10.1007/s11676-016-0231-4

Original Paper

Changes of woody species diversity, horizontal and vertical distribution of stems across interior to outside within a primate rich habitat of Northeast India

Author information +

History +

PDF

Abstract

The interior forest of protected area (PA) recover quickly in terms of greater diversity and structural complexity than peripheral and outsides, which may be due to high plant-frugivore interactions in the interior forest than the disturbed outsides. To describe the structural and functional differences in tree communities from interior to outside forests with in small PA, we quantitatively analyzed the vegetation of Trishna Wildlife Sanctuary, a rich primate habitat of Northeast India. Vegetation was sampled at ≥10 cm girth at breast height by 10 m × 500 m sized 20 line transects (10 ha) laid in the interior (N = 7), peripheral (N = 7) and outside (N = 6) zones of this sanctuary. All transects were ordinated by Principal Component Analysis based on correlation between diversity and existing disturbance indices. We found significant differences (P < 0.05) in taxonomic richness and diversity indices between the habitat. Van diagram confirmed greater unique species richness in the interior zone (64) than peripheral (28) and outside (6) zones. Overall density (ha⁻¹) did not differed across the zones, but basal area (m² ha⁻¹) was significantly (P < 0.01) high in peripheral zone. Vertical distribution of stem density was linearly declined across zones ($ r_{\text{adj}}^{2} $ > 0.70; P < 0.01) with increase in the canopy height. Horizontal distribution of adult stems showed significant inverse quadratic relationship ($ r_{\text{adj}}^{2} $ > 0.80; P < 0.001), which suggests very low density of canopy forming voluminous trees in the interior zone. Immediate protection, restoration and management of interior regions are required to preserve local plant genetic diversity and also to maintain suitable habitat for threatened wildlife.

Keywords

Threatened primate habitat / Species uniqueness / Rareness / Stems distribution / Habitat conservation

Cite this article

Download citation ▾

Koushik Majumdar, Bal Krishan Choudhary, Badal Kumar Datta. Changes of woody species diversity, horizontal and vertical distribution of stems across interior to outside within a primate rich habitat of Northeast India. Journal of Forestry Research, 2016, 27(4): 787-798 DOI:10.1007/s11676-016-0231-4

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Abugov R (1982) Species diversity and phasing of disturbance. Ecology 63(2):289–293

[2]	Banda T, Schwartz MW, Caro T. Woody vegetation structure and composition along a protection gradient in a miombo ecosystem of western Tanzania. For Ecol Manage, 2006, 230(1): 179-185.

[3]	Barve N, Kiran MC, Vanaraj G, Aravind NA, Rao D, Shaanker R, Ganeshaiah KN, Poulsen JG. Measuring and mapping threats to a wildlife sanctuary in southern India. Conserv Biol, 2005, 19(1): 122-130.

[4]	Ben ZZ, Mao YF, Jin ZX, Xiao SY, Zheng CL. Ecological functions of bamboo forest: research and application. J For Res, 2005, 16(2): 143-147.

[5]	Bhuyan P, Khan ML, Tripathi RS. Tree diversity and population structure in undisturbed and human-impacted stands of tropical wet evergreen forest in Arunachal Pradesh, Eastern Himalayas, India. Biodiv Conserv, 2003, 12(8): 1753-1773.

[6]	Boring LR, Monk CD, Swank WT (1981) Early regeneration of a clear-cut southern Appalachian forest. Ecology 62(5):1244–1253

[7]	Bruner AG, Gullison RE, Rice RE, Da Fonseca GA. Effectiveness of parks in protecting tropical biodiversity. Science, 2001, 291(5501): 125-128.

[8]	Champion SH, Seth SK. A revised survey of the forest types of India. A revised survey of the forest types of India. 1968, New Delhi: Manager of Publications

[9]	Clark CJ, Poulsen JR, Malonga R, Elkan JPW. Logging concessions can extend the conservation estate for Central African tropical forests. Conserv Biol, 2009, 23(5): 1281-1293.

[10]	Connell JH. Diversity in tropical rain forest and coral reefs. Science, 1978, 199: 1302-1310.

[11]	Cordeiro NJ, Howe HF. Forest fragmentation severs mutualism between seed dispersers and an endemic African tree. Proc Natl Acad Sci, 2003, 100(24): 14052-14056.

[12]	Cumming DHM, Fenton MB, Rautenbach IL, Taylor RD, Cumming GS, Cumming MS, Dunlop JM, Portfors CVR. Elephants, woodlands and biodiversity in southern Africa. S Afr J Sci, 1997, 93(5): 231-236.

[13]	Deb DB. The Flora of Tripura State, 2 vols. 1981, New Delhi: Today and tomorrows’ printers and publishers

[14]	Dewalt SJ, Schnitzer SA, Denslow JS. Density and diversity of lianas along a chronosequence in a central Panamanian lowland forest. J Trop Ecol, 2000, 16(1): 1-19.

[15]	Dixon AFG. Insect predator-prey dynamics: ladybird beetles and biological control. 2000, Cambridge: Cambridge University Press

[16]	Ewers RM, Didham RK. Confounding factors in the detection of species responses to habitat fragmentation. Biol Rev, 2006, 81(1): 117-142.

[17]	Givnish TJ. On the causes of gradients in tropical tree diversity. J Ecol, 1999, 87(2): 193-210.

[18]	Gratzer G, Rai PB, Glatzel G. The influence of the bamboo Yushania microphylla on regeneration of Abies densa in central Bhutan. Can J For Res, 1999, 29(10): 1518-1527.

[19]	Guilherme FA, Oliveira FAT, Appolinário V, Bearzoti E. Effects of flooding regime and woody bamboos on tree community dynamics in a section of tropical semideciduous forest in South-Eastern Brazil. Plant Ecol, 2004, 174(1): 19-36.

[20]	Gupta AK, Dasgupta S, Sankar K. Are the densities of primates in different fragments sufficient for long-term survival? A status survey of primates in Trishna Wildlife Sanctuary, Tripura, India. Folia Primatol, 2004, 75 269.

[21]	Hammer Ø, Harper DA, Ryan PD. PAST: paleontological statistics software package for education and data analysis. Paleontol Electron, 2001, 4(1): 1-9.

[22]	Henry M, Cosson JF, Pons JM. Abundance may be a misleading indicator of fragmentation-sensitivity: the case of fig-eating bats. Biol Conserv, 2007, 139(3): 462-467.

[23]	Hubbell SP, Foster RB (1983) Diversity of canopy trees in a neotropical forest and implications for conservation. Special publications series of the British Ecological Society, pp 83

[24]	Hubbell SP, Foster RB, Brien STO, Harms KE, Condit R, Wechsler B, Wright SJ, Lao SLD. Light-gap disturbances, recruitment limitation, and tree diversity in a neotropical forest. Science, 1999, 283(5401): 554-557.

[25]	Jhariya MK, Bargali SS, Swamy SL, Kittur B, Bargali K, Pawar GV. Impact of forest fire on biomass and Carbon storage pattern of Tropical Deciduous Forests in Bhoramdeo Wildlife Sanctuary, Chhattisgarh. Int J Ecol Environ Sci, 2014, 40(1): 57-74.

[26]	Kanjilal UN, Kanjilal PC, Das A, De RN, Bor NL (1934) Flora of Assam, 5 vols. Govt. Press, Shillong

[27]	Khan ML, Rai JPN, Tripathi RS. Population structure of some tree species in disturbed and protected subtropical forests of north-east India. Acta Oecol, 1987, 8(3): 247-255.

[28]	Kittur B, Swamy SL, Bargali SS, Jhariya MK. Wildland fires and moist deciduous forests of Chhattisgarh, India: divergent component assessment. J For Res, 2014, 25(4): 857-866.

[29]	Larpkern P, Moe SR, Totland O. Bamboo dominance reduces tree regeneration in a disturbed tropical forest. Oecologia, 2011, 165(1): 161-168.

[30]	Laurance WF, Barbara MC, Landry T, Sally AL, Alfonso A, Michelle EL, Campbell P, Ondzeano C. Impacts of roads and hunting on central African rainforest mammals. Conserv Biol, 2006, 20(4): 1251-1261.

[31]	Lehouck V, Spanhove T, Colson L, Adringa-Davis A, Cordeiro NJ, Lens L. Habitat disturbance reduces seed dispersal of a forest interior tree in a fragmented African cloud forest. Oikos, 2009, 118(7): 1023-1034.

[32]	Little S, Escheman RT. Nineteen-year changes in the composition of a stand of Pinus taeda in Eastern Maryland. Bull Torrey Bot Club, 1976, 103(2): 57-66.

[33]	Lonn M, Prentice HC. Gene diversity and demographic turnover in central and peripheral populations of the perennial herb Gypsophila fastigiata. Oikos, 2002, 99(3): 489-498.

[34]	Luck GW, Daily GC. Tropical countryside bird assemblages: richness, composition, and foraging differ by landscape context. Ecol Appl, 2003, 13(1): 235-247.

[35]	MacMahon JA, Schimpf DJ. Evans DD, Thames JL. Water as a factor in the biology of North American desert plains. Water in desert ecosystems. 1981, Stroudsburg: US/IBP Synthesis Series, 114 171

[36]	Majumdar K, Uma Shankar, Datta BK. Tree species diversity and stand structure along major community types in lowland primary and secondary moist deciduous forests in Tripura, Northeast India. J For Res, 2012, 23(4): 553-568.

[37]	Majumdar K, Uma Shankar, Datta BK. Trends in tree diversity and stand structure during restoration: a case study in fragmented moist deciduous forest ecosystems of Northeast India. J Ecosyst, 2014, 3: 4-16.

[38]	Marod D, Kutintara U, Yarwudhi C, Tanaka H, Nakashisuka T. Structural dynamics of a natural mixed deciduous forest in western Thailand. J Veg Sci, 1999, 10(6): 777-786.

[39]	Mueller-Dombois D, Ellenberg H. Aims and methods of vegetation ecology. 1975, New York: Wiley

[40]	Murcia C. Edge effects in fragmented forests: implications for conservation. Trends Ecol Evol, 1995, 10(2): 58-62.

[41]	Murphy PG, Lugo AE. Ecology of tropical dry forest. Annu Rev Ecol Syst, 1986, 17: 67-88.

[42]	Narukawa Y, Yamamoto S. Effects of dwarf bamboo (Sasa sp.) and forest floor microsites on conifer seedling recruitment in a subalpine forest, Japan. For Ecol Manage, 2002, 163(1): 61-70.

[43]	Nunez-Iturri G, Olsson O, Howe HF. Hunting reduces recruitment of primate-dispersed trees in Amazonian Peru. Biol Conserv, 2008, 141(6): 1536-1546.

[44]	Oliveira FAT, Ratter JA (2002) Vegetation physiognomies and woody flora of the cerrado biome. The Cerrados of Brazil. Ecology and natural history of a neotropical savanna, pp 91–120

[45]	Oostermeijer JGB, Van Eijck MW, Den Nijs JCM. Offspring fitness in relation to population size and genetic variation in the rare perennial plant species Gentiana pneumonanthe (Gentianaceae). Oecologia, 1994, 97(3): 289-296.

[46]	Pielou ECJ. The measurement of diversity in different types of biological collections. J Theor Biol, 1966, 13: 131-144.

[47]	Pielou EC (1984) The interpretation of ecological data. A primer on classification and ordination. Wiley, New York

[48]	Pimm SL, Lawton JH. Planning for biodiversity. Science, 1998, 279(5359): 2068-2069.

[49]	Ramírez MN, González EM, Williams LG. Anthropogenic disturbance and tree diversity in montane rain forests in Chiapas, Mexico. For Ecol Manage, 2001, 154(1): 311-326.

[50]	Rao P, Barik SK, Pandey HN, Tripathi RS. Community composition and tree population structure in a sub-tropical broad-leaved forest along a disturbance gradient. Vegetatio, 1990, 88(2): 151-162.

[51]	Reddy CS, Ugle P, Murthy MSR, Sudhakar S. Quantitative structure and composition of tropical forests of Mudumalai Wildlife Sanctuary, Western Ghats, India. Taiwania, 2008, 53(2): 150-156.

[52]	Sagar R, Raghubanshi AS, Singh JS. Tree species composition, dispersion and diversity along a disturbance gradient in a dry tropical forest region of India. For Ecol Manage, 2003, 186(1): 61-71.

[53]	Shaanker RU, Ganeshaiah KN, Rao MN, Aravind NA. Ecological consequences of forest use: from genes to ecosystem-a case study in the Biligiri Rangaswamy Temple Wildlife Sanctuary, South India. Conserv Soc, 2004, 2 2 347.

[54]	Shankar U. A case of high tree diversity in a sal (Shorea robusta)-dominated lowland forest of Eastern Himalaya: floristic composition, regeneration and conservation. Curr Sci, 2001, 81(7): 776-786.

[55]	Shannon CE, Wiener W. The mathematical theory of communications. 1963, Urbana: University of Illinois Press

[56]	Simberloff D. Properties of the rarefaction diversity measurement. Am Nat, 1972, 106: 414-418.

[57]	Simpson EH. Measurement of diversity. Nature, 1949, 163 4148.

[58]	Sundarapandian SM, Swamy PS. Plant biodiversity at low-elevation evergreen and moist deciduous forests at Kodayar (Western Ghats, India). Int J Ecol Environ Sci, 1997, 23: 363-379.

[59]	Sundriyal RC, Sharma E. Anthropogenic pressure on tree structure and biomass in the temperate forest of Mamlay watershed in Sikkim. For Ecol Manage, 1996, 81(1): 113-134.

[60]	Swamy SL, Dutt CBS, Murthy MSR, Mishra A, Bargali SS. Floristics and dry matter dynamics of tropical wet evergreen forests of western ghats, india. Curr Sci, 2010, 99(3): 353-364.

[61]	Swapna N, Radhakrishna S, Gupta AK, Kumar A. Exudativory in the Bengal slow loris (Nycticebus bengalensis) in Trishna Wildlife Sanctuary, Tripura, northeast India. Am J Primatol, 2010, 72(2): 113-121.

[62]	Taylor AH, Shi WJ, Lian JZ, Chun PL, Chang JM, Jinyan H. Regeneration patterns and tree species coexistence in old-growth Abies Picea forests in southwestern China. For Ecol Manage, 2006, 223(1): 303-317.

[63]	Teketay D. Seedling populations and regeneration of woody species in dry Afromontane forests of Ethiopia. For Ecol Manage, 1997, 98(2): 149-165.

[64]	Thapa S, Chapman DS. Impacts of resource extraction on forest structure and diversity in Bardia National Park, Nepal. For Ecol Manage, 2010, 259(3): 641-649.

[65]	Vermeulen SJ. Cutting of trees by local residents in a communal area and an adjacent state forest in Zimbabwe. For Ecol Manage, 1996, 81(1): 101-111.

[66]	Yamagiwa J, Mwanza N, Spangenberg A, Maruhashi T, Yumoto T, Fischer A, Steinhauer-Burkart B. Primates, lots and forest fragments: ecological planning and conservation in the Sierra de Santa Marta, México. Neotrop Primates, 2002, 10(1): 9-11.

[67]	Zhang JT, Dong Y. Factors affecting species diversity of plant communities and the restoration process in the loess area of China. Ecol Eng, 2010, 36(3): 345-350.

[68]	Zobel DB, Ram J, Bargali SS. Structural and physiological changes in Quercus leucotrchophora and Pinus roxburghii associated with stand disturbance in the Kumaun Himalaya, India. Int J Ecol Environ Sci, 1995, 21: 45-66.