Abstract
In 2013, we re-inventoried all lianas (≥1 cm diameter measured at 1.3 m from the rooting point) in four 1-ha permanent plots distributed one each in four sites of inland tropical dry evergreen forest on the Coromandel Coast (Pudukottai district) of peninsular India, established in 2003. Among the four sites, Shanmuganathapuram (SP) and Araiyapatti (AP) were much disturbed and the other two sites (Karisakkadu—KR and Maramadakki—MM) were moderately disturbed. We inventoried a total of 3425 lianas representing 37 species of 33 genera and 22 families. Over a decade (2003–2013) liana species richness increased at two sites (MM and SP) and no changes occurred at the other two sites. Liana abundance increased by 210, 211, 164 and 162 individuals at sites AP, KR, MM and SP, respectively, and basal area increased (from 1.09 to 1.76 m2 at AP, 0.67 to 0.86 m2 at KR, 1.68 to 2.06 m2 at MM, and from 0.44 to 1.06 m2 at SP). Over a 10-year period, three species (Abrus precatorius, Canavalia virosa, and Cocculus hirsutus) were lost and five species (Gloriosa superba, Ampelocissus tomentosa, Capparis sepiaria, Aganosma cymosa and Tiliacora acuminata) were newly added. Total aboveground biomass increased by 18.5, 0.74, 3.6 and 9.5 Mg ha−1, respectively, at sites AP, KR, MM and SP.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Addo-Fordjour P, Anning AK, Atakora EA, Agyei PS (2008) Diversity and distribution of climbing plants in a semi-deciduous rain forest, KNUST Botanic Garden, Ghana. Int J Bot 4:186–195
Addo-Fordjour P, Anning AK, Larbi JA, Akyeampong S (2009a) Liana species richness, abundance and relationship with trees in the Bobiri forest reserve, Ghana: impact of management systems. For Ecol Manag 157:1822–1828
Addo-Fordjour P, Obeng S, Addo MG (2009b) Effects of human disturbances and plant invasion on liana community structure and relationship with trees in the Tinte Bepo forest reserve, Ghana. For Ecol Manag 258:728–734
Addo-Fordjour P, Rahmad ZB, Shahrul AMS (2012) Effects of human disturbance on liana community diversity and structure in a tropical rainforest, Malaysia: implication for conservation. J Plant Ecol 5:391–399
Addo-Fordjour P, El Duah P, Agbesi DKK (2013) Factors influencing liana species richness and structure following anthropogenic disturbance in a tropical forest, Ghana. ISRN For. doi:10.1155/2013/920370
Allen BP, Sharitz RR, Goebel PC (2005) Twelve years post-hurricane liana dynamics in an old-growth southeastern floodplain forest. For Ecol Manag 218:259–269
Allen BP, Sharitz RR, Goebel PC (2007) Are lianas increasing in importance in temperate floodplain forests in the southeastern United States? For Ecol Manag 242:17–23
Anbarashan M, Parthasarathy N (2012) Tree diversity and forest stand structure along disturbance gradients in Indian tropical dry evergreen forest. Ecotropica 18:119–136
Anbarashan M, Parthasarathy N (2013) Diversity and ecology of lianas in tropical dry evergreen forests on the Coromandel Coast of India under various disturbance regimes. Flora 208:22–32
Appanah S, Gentry AH, Lafrankie JV (1993) Liana diversity and species richness of Malaysian rain forests. J Trop For Sci 6:116–123
Baithalu S, Anabarashan M, Parthasarathy N (2012) Changes in tree diversity and stand structure of two tropical dry evergreen forests on the Coromandel Coast of peninsular India over a decade (2001–2011). Int J Ecol Environ Sci 38:87–96
Balfour D, Bond W (1993) Factors limiting climber distribution and abundance in a southern African forest. J Ecol 6:93–99
Benítez-Malvido J, Martínez-Ramos M (2003) Impact of forest fragmentation on understory plant species richness in Amazonia. Conserv Biol 17:389–400
Bongers F, Parren MPE, Traore D (2005) Forest climbing plants of West Africa: diversity, ecology and management. CAB International, Wallingford
Brown S (2002) Measuring carbon in forests: current status and future challenges. Environ Pollut 116:363–372
Brown S, Lugo AE (1990) Tropical secondary forests. J Trop Ecol 6:1–32
Caballe G, Martin A (2001) Thirteen years of change in trees and lianas in a Gabonese rainforest. Plant Ecol 152:167–173
Champion SH, Seth SK (1968) A revised survey of the forest types of India. Government of India Press, New Delhi
Chave J, Olivier J, Bongers F, Chatelet P, Forget PM, van der Meer P, Norden N, Riera B, Charles-Dominique P (2008) Above-ground biomass and productivity in a rain forest of eastern South America. J Trop Ecol 24:355–366
Chittibabu CV, Parthasarathy N (2001) Liana diversity and host relationships in a tropical evergreen forest in the Indian Eastern Ghats. Ecol Res 16:519–529
Clark DA, Clark DB (1990) Distribution and effects on tree growth of lianas and woody hemi epiphytes in a Costa Rican tropical wet forest. J Trop Ecol 6:321–331
DeWalt SJ, Schnitzer SA, Denslow JS (2000) Density and diversity of lianas along a chronosequence in a central Panamanian lowland forest. J Trop Ecol 16:1–19
Ewango. 2010. The liana assemblage of a Congolian rainforest: diversity, structure and dynamics. PhD Thesis, Wageningen University
Fauset S, Baker TR, Lewis SL, Feldpausch TR, Affum-Baffoe K, Foli EG, Hamer KC, Swaine MD (2012) Drought-induced shifts in the floristic and functional composition of tropical forests in Ghana. Ecol Lett 15:1120–1129
Fearnside PM (1997) Greenhouse gases emissions from deforestation in Brazilian Amazonia: net committed emissions. Clim Change 35:321–360
Feeley KJ, Davies SJ, Perez R, Hubbell SP, Foster RB (2011) Directional changes in the species composition of a tropical forest. Ecology 92:871–882
Foster JR, Townsend PA, Zganjar CE (2008) Spatial and temporal patterns of gap dominance by low-canopy lianas detected usingEO-1 Hyperion and Landsat Thematic Mapper. Remote Sens Environ 112:2104–2117
Ge J, Xiong G, Zhao C, Shen G, Xie Z (2013) Short-term dynamic shifts in woody plants in a montane mixed evergreen and deciduous broadleaved forest in central China. For Ecol Manag 310:740–746
Gentry AH (1991) The distribution and evolution of climbing plants. In: Putz FE, Mooney HA (eds) The biology of vines. Cambridge University Press, Cambridge, pp 3–52
Gentry AH (1992) Tropical forest diversity: distributional patterns and their conservational significance. Oikos 63:19–28
Gerwing JJ, Uhl C (2002) Pre-logging liana cutting reduces liana regeneration in logging gaps in eastern Brazilian Amazon. Ecol Appl 12:1642–1651
Gerwing JJ, Vidal E (2002) Changes in liana abundance and species diversity eight years after liana cutting and logging in an eastern Amazonian forest. Conserv Biol 16:544–548
Holzmueller EJ, Gibson DJ, Suchecki PF (2012) Accelerated succession following an intense wind storm in an oak-dominated forest. For Ecol Manag 279:141–146
Houghton RA, Lawrence KT, Hackler JL, Brown S (2001) The spatial distribution of forest biomass in the Brazilian Amazon: a comparison of estimates. Glob Change Biol 7:731–746
Ingwell LL, Joseph Wright S, Becklund KK, Hubbell SP, Schnitzer SA (2010) The impact of lianas on 10 years of tree growth and mortality on Barro Colorado Island, Panama. J Ecol 98:879–887
Khadanga SS, Muthumperumal C, Parthasarathy N (2015) Changes in liana diversity over decade in Indian tropical dry evergreen forests. In: Tripathi SK (ed) Biodiversity of tropical ecosystems. Today & Tomorrow Printers and Publishers, New Delhi
Korner C (2004) Through enhanced tree dynamics carbon enrichment may cause tropical forests to lose carbon. Philos Trans R Soc Lond B 359:493–498
Laurance WF, Laurance SG, Ferreira LV, Rankin-de Merona JM, Gascon C, Lovejoy TE (1997) Biomass collapse in Amazonian forest fragments. Science 278:1117–1118
Laurance WF, Fearnside PM, Laurance SG (1999) Relationship between soils and Amazon forest biomass: a landscape-scale study. For Ecol Manag 118:127–138
Laurance WF, Perez-Salicrup D, Delamônica P, Fearnside PM, Angelo SD, Jerozolinski A, Pohl L, Lovejoy TE (2001) Rain forest fragmentation and the structure of Amazonian liana communities. Ecology 82:105–116
Laurance WF, Andrade AS, Magrach A, Camargo JLC, Valsko JJ, Campbell M, Fearnside PM, Edwards W, Lovejoy TM, Laurance SG (2014) Long-term changes in liana abundance and forest dynamics in undisturbed Amazonian forest. Ecol Soc Am. doi:10.1890/13-1571.1
Lu XT, Tang JW, Feng ZL, Li MH (2009) Diversity and aboveground biomass of lianas in the tropical seasonal rain forests of Xishuangbanna, SW China. Rev de Biol Trop 57:211–222
Magurran A (2004) Measuring biological diversity. Blackwell, Oxford
Malhi Y, Wright J (2005) Late twentieth-century patterns and trends in the climate of tropical forest regions. In: Malhi Y, Phillips O (eds) Tropical forests and global atmospheric change. Oxford University Press, Oxford
Malhi Y, Wood D, Baker T, Wright J, Phillips O, Cochrane T, Meir P, Chave J, Almeida S, Arroyo L, Higuchi N, Killeen TJ, Laurance GS, Laurance FW, Lewis LS, Monteagudo A, Neill AD, Vargas P, Pitman ACN, Quesada AC, Salomao P, Silva MJ, Lezama TA, Terborgh J, Vásquez Martínez R, Vinceti B (2006) The regional variation of aboveground live biomass in old-growth Amazonian forests. Glob Change Biol 12:1–32
Mani S, Parthasarathy N (2005) Biodiversity assessment of trees in five inland tropical dry evergreen forests of peninsular India. Syst Biodivers 3:1–12
Marimon BS, Felfili JM, Fagg CW, Marimon-Junior BH, Umetsu RK, Oliveira-Santos C, Morandi PS, Lima HS, Terra Nascimento AR (2012) Monodominance in a forest of BrosimumrubescensTaub. (Moraceae): structure and dynamics of natural regeneration. Acta Oecol 43:134–139
Muthumperumal C, Parthasarathy N (2013) Diversity, distribution and resource values of woody climbers in tropical forests of southern Eastern Ghats, India. J For Res 24:365–374
Nabe-Nielsen J (2001) Diversity and distribution of lianas in a Neotropical rain forest, Yasuni National Park, Ecuador. J Trop Ecol 17:1–19
Nabe-Nielsen J, Kollmann J, Pena-Claros M (2009) Effects of liana load, tree diameter and distances between conspecifics on seed production in tropical timber trees. For Ecol Manag 257:987–993
Nascimento EM, Laurance WF (2002) Total aboveground biomass in central Amazonian rainforests: a landscape-scale study. For Ecol Manag 168:311–321
Nascimento MT, Barbosa RI, Villela DM, Proctor J (2007) Above-ground biomass changes over an 11-year period in an Amazon monodominant forest and two other lowland forests. Plant Ecol 192:181–191
Parthasarathy N, Selwyn MA, Udayakumar M (2008) Tropical dry evergreen forests of peninsular India: ecology and conservation significance. Trop Conserv Sci 1:89–110
Perez-Salicrup DR, Sork VL, Putz FE (2001) Lianas and trees in a liana forest of Amazonian Bolivia. Biotropica 33:34–47
Phillips OL, Gentry AH (1994) Increasing turnover through time in tropical forests. Science 263:954–958
Phillips OL, Martinez RV, Arroya L, Baker TR, Killeen T, Lewis SL, Malhi Y, Mendoza AM, Neill D, Vargas PN, Alexiades M, Ceron C, Di Fiore A, Erwin T, Jardim A, Palacios W, Saldias M, Vinceti B (2002) Increasing dominance of large LianasinAmazonian forests. Nature 418:770–774
Phillips OL, Vasquez Martínez R, Mendoza AM, Baker TR, Nunez Vargas P (2005) Large lianas as hyper dynamic elements of the tropical forest canopy. Ecology 86:1250–1258
Proctor J, Anderson JM, Chai P, Vallack HW (1983) Ecological studies in four contrasting rainforests in Gunung Mulu National Park, Sarawak: I forest environment, forest structure and floristics. J Ecol 71:237–260
Putz FE (1984) The natural history of lianas on Barro Colorado Island, Panama. Ecology 65:1713–1724
Putz FE, Mooney HA (1991) The biology of vines. Cambridge University Press, Cambridge
Reddy MS, Parthasarathy N (2006) Liana diversity and distribution on host trees in four inland tropical dry evergreen forests of peninsular India. Trop Ecol 47:109–124
Rees M, Condit R, Crawley M, Pacala S, Tilman D (2001) Long-term studies of vegetation dynamics. Science 293:650–655
Restom TG, Nepstad DC (2004) Seedling growth dynamics of a deeply rooting liana in a secondary forest in eastern Amazonia. For Ecol Manag 190:109–118
Richards PW (1996) The tropical rain forest: an ecological study. Cambridge University Press, Cambridge
Schnitzer SA, Bongers F (2002) The ecology of lianas and their role in forests. Trends Ecol Evol 17:223–230
Schnitzer SA, Bongers F (2011) Increasing liana abundance and biomass in tropical forests: emerging patterns and putative mechanism. Ecol Lett 14:397–406
Schnitzer SA, Carson WP (2001) Tree fall gaps and the maintenance of species diversity in a tropical forest. Ecology 82:913–919
Schnitzer SA, Dalling JW, Carson WP (2000) The impact of lianas on tree regeneration in tropical forest canopy gaps: evidence for an alternative pathway of gap-phase regeneration. J Ecol 88:655–666
Schnitzer SA, Parren MPE, Bongers F (2004) Recruitment of lianas into logging gaps and the effects of pre-harvest climber cutting in a lowland forest in Cameroon. For Ecol Manag 190:87–98
Schnitzer SA, DeWalt SJ, Chave J (2006) Censusing and measuring lianas: a quantitative comparison of the common methods1. Biotropica 38:581–591
Schnitzer SA, Mangan S, Dalling J, Baldeck C, Hubbell S, Ledo A, Muller Landau H, Tobin M, Aguilar S, Brassfield D, Hernandez A, Lao S, Perez R, Valdes O, Rutishauser Yorke S (2012) Liana abundance, diversity, and distribution on Barro Colorado Island, Panama. Plops One. doi:10.1371/journal.pone.0052114
Seiler W, Crutzen PJ (1980) Estimates of gross and net fluxes of carbon between the biosphere and the atmosphere from biomass burning. Clim Change 2:207–247
Senbeta F, Schmitt C, Denich M, Demissew S, Velk PLG, Preisinger H, Woldemariam T, Teketay D (2005) The diversity and distribution of lianas in the Afromontane rain forests of Ethiopia. Divers Distrib 11:443–452
Stevens GC (1987) Lianas as structural parasites: the Bursera simaruba example. Ecology 68:77–81
Sukumar R, Dattaraja HS, Suresh HS, Radhakrishnan J, Vasudeva R, Nirmala S, Joshi NV (1992) Long-term monitoring of vegetation in a tropical deciduous forest in Mudumalai, southern India. Curr Sci 62:608–616
Sukumar R, Suresh HS, Dattaraja HS, Joshi NV (1998) Dynamics of a tropical deciduous forest: population changes (1988 through 1993) in a 50-hectare plot at Mudumalai, southern India. In: Dallmeier F, Comiskey JA (eds) Forest biodiversity research, monitoring and modeling: conceptual background and old world case studies. Parthenon Publishing, Paris, pp 495–506
Swaine MD, Grace J (2007) Lianas may be favoured by low rainfall: evidence from Ghana. Plant Ecol 192:271–276
Swaine MD, Lieberman D, Putz FE (1987) The dynamics of tree populations in tropical forest: a review. J Trop Ecol 3:359–366
van den Berg E, Chazdon R, Corrêa BS (2012) Tree growth and death in a tropical gallery forest in Brazil: understanding the relationships among size, growth, and survivorship for understory and canopy dominant species. Plant Ecol 213:1081–1092
van der Heijden GM, Phillips OL (2008) What controls liana success in Neotropical forests? Glob Ecol Biogeogr 17:372–383
Venkateswaran R, Parthasarathy N (2005) Tree population changes in a tropical dry evergreen forest of south India over a decade (1992–2002). Biodivers Conserv 14:1335–1344
Weckel M, Tirpak JM, Nagy C, Christie R (2006) Structural and compositional change in an old-growth eastern hemlock Tsugacanadensis forest, 1965–2004. For Ecol Manag 231:114–118
Wright SJ, Calderon O, Hernandez A, Paton S (2004) Are lianas increasing in importance in tropical forests? A 17-year record from Panama. Ecology 85:484–489
Yorke SR, Schnitzer SA, Mascaro J, Letcher SG, Carson WP (2013) Increasing liana abundance and basal area in a tropical forest: the contribution of long-distance clonal colonization. Biotropica 45:317–324
Zarr JH (2006) Biostatistical analysis. Prentice Hall, New Jersey
Acknowledgments
E. Pandian thanks Pondicherry University for financial support received through UGC University fellowship.
Author information
Authors and Affiliations
Corresponding author
Additional information
The online version is available at http://www.springerlink.com
Corresponding editor: Yu Lei
Rights and permissions
About this article
Cite this article
Pandian, E., Parthasarathy, N. Decadal (2003–2013) changes in liana diversity, abundance and aboveground biomass in four inland tropical dry evergreen forest sites of peninsular India. J. For. Res. 27, 133–146 (2016). https://doi.org/10.1007/s11676-015-0146-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11676-015-0146-5