Riparian Flora Of Thamiraparani River In Kanyakumari District, Tamilnadu, India

Riparian flora is an expressed survey to analyze marginal vegetation of river zones. The present study was conducted in Thamiraparani river of Kanyakumari District, Tamil Nadu, India. Result of the current study showed a total of, 720 species of angiosperms belonging to 449 genera under 126 families...

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Main Authors: J. S. Angel Felix, Z. Miller Paul, S. Jeeva, S. Sukumaran
Format: Text
Language:unknown
Published: Zenodo 2017
Subjects:
Angiosperm, Anthropogenic, Flora, Kanyakumari, Riparian & Tamiraprani
Pacific
Indian
Homestead
Harper
Livingstone
Catalina
Dun
Tilley
Northern Sweden
Online Access:https://dx.doi.org/10.5281/zenodo.495340
https://zenodo.org/record/495340
id ftdatacite:10.5281/zenodo.495340
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Angiosperm, Anthropogenic, Flora, Kanyakumari, Riparian & Tamiraprani
spellingShingle Angiosperm, Anthropogenic, Flora, Kanyakumari, Riparian & Tamiraprani
J. S. Angel Felix
Z. Miller Paul
S. Jeeva
S. Sukumaran
Riparian Flora Of Thamiraparani River In Kanyakumari District, Tamilnadu, India
topic_facet Angiosperm, Anthropogenic, Flora, Kanyakumari, Riparian & Tamiraprani
description Riparian flora is an expressed survey to analyze marginal vegetation of river zones. The present study was conducted in Thamiraparani river of Kanyakumari District, Tamil Nadu, India. Result of the current study showed a total of, 720 species of angiosperms belonging to 449 genera under 126 families of these 76.5% were dicots and 23.5% of monocots were recorded.Habitually 30.4% herbs , 26.7% trees, 15.7% shrubs, 6.9% climbing shrubs, 5.2% perennial herbs, 3.3% annual herbs, 2 % twining herbs, 1.7% twining shrubs, 1.6% aquatic herbs, 1.3% climbing herbs, 0.6% rhizomatous herbs, 0.7% marshy herbs, 0.7% tunerous herbs, 0.6% lianas, 0.4% tuberous climbing herbs, 0.4% stragglinbg shrubs, 0.3% climbers, 0.3% climbing palms, 0.3% prostrate herbs, climbing shrub, creeping herb, epiphytic herb, parasitic shrub and parasitic twining herb were 0.1% . Poaceae is the dominant family followed by Fabaceae, Acanthaceae and Euphorbiacae. 114 plant species were conserved under RET category, 568 species occurred commonly 98 species were exotic.Most of the plants were widely used as medicinals. Anthropogenic activities act as a barrier biodiversity. : {"references": ["1.\tAmita O, Sankhwal, D Shruti, Shah, J Deepa, Gavali and ND Sumesh, 2015. Riparian Flora of Mahi River, Gujarat. Biolife, 3(4):820-826. 2.\tAppolinario V, Filho ATO, Guilherme FAG. 2005. Tree population and community dynamics in a Brazilian tropical semideciduous forest. Revista Brasil, 28: 347-360. 3.\tArul AA A, S Jeeva and S Karuppusamy, 2013. On the occurrence of Blyxa aubertii in \tAllamparai hills (Kanyakumari District) of Southern Western Ghats. Science \tResearch Reporter 3(1)38-40. 4.\tBrinson, M.M. (1990) Riverine forests. In: Lugo, A.E., Brinson, M.M. & Brown, S. (Eds) Ecosystems of the World - 15: Forested wetlands. Elsevier, Oxford. pp. 87\u2013141. 5.\tBrintha TSS, JE James and S Jeeva, 2015. Vascular Plants, Scott Christian College, Nagercoil, Tamilnadu, India. Science Research Reporter, 5(1):36-66. 6.\tCherullipadi LB and J Paul, 2016. Diversity of herbaceous riparian flora in the lowerstretch of Bharathappuzha river, Kerala. South Indian Journal Of Biological Sciences, 2(1); 191\u2010197. 7.\tChittibabu CV, Parthasarathy N. 2000. Attenuated tree species diversity in human-impacted tropical evergreen forest sites at Kolli hills, Eastern Ghats, India. Biodiversity and Conservation, 9:1493-1519. 8.\tChris Hoag, Derek Tilley, dale Darris,Kathy Pendergrass(2008) field Guide for the identification and use of common Riparian woody plants of the Intermountain west and pacific Northwest Regions. The Nature conservancy.pp.6-7. 9.\tDrude D (1980). Handbuch Der Pflanzengeographite. Stuttgart J. Engelhorn, p. 582. 10.\tFaxina C, E Fischer and A Pott, 2015. Flora of inland Atlantic riparian forests in southwestern Brazil. Biota Neotropica 15(3): 1\u201312. 11.\tGamble JS & Fischer CEC (1915-1935). Flora of the Presidency of Madras, Vols. 1-3. Adlord and Sons Ltd., London. 12.\tGeetha VS, MR Appavoo, AA Vinuba and S Jeeva, 2015. Species richness of edible plants grown in homegardens of the foothills of Western Ghats. Science Research Reporter, 5(2): 187-191. 13.\tGentry AH. 1988. Tree species richness of upper Amazonian forests. Proceedings of the National Academy of Science of U.S.A., 85: 156\u2013 159. 14.\tGoebel, P.C., Hix, D.M., Dygert, C.E., & Holmes, K.L. (2003) Ground flora communities of headwater riparian areas in an old-growth central hardwood forest. USDA Forest 15.\tService General Technical Report NC-234. pp. 136\u2013145. 16.\tGopalan, R. & A.N. Henry (2000). Endemic Plants of India. Bishen Singh Mahendra Pal Singh, Dehra Dun. 17.\tGosselink, J.G., Bayley, S.E., Conner, W.H. & Turner, R.E. (1981) Ecological factors in the determination of riparian wetland ecosystems. In Clarke, J.R. & Benforado, 18.\tJ. (Eds) Wetlands of the bottomland hardwood forests. Proceedings of a workshop on bottomland hardwood forest wetlands of the southeastern United States. Elsevier Scientific \tPublishing, Amsterdam. pp. 197\u2013219. 19.\tHibbs, D.E. (1987) Management of riparian zone vegetation in western Oregon. National Council of the Paper Industry for Air and Stream Improvement Technical Bulletin 514: 57\u201363. 20.\tHynes, H.B.N. (1970) The ecology of running waters. Liverpool University Press, UK. 555. 21.\tJose SS, J Joselin, AR Florence, TSS Brintha and S Jeeva, 2014. Phytochemical constituents of the leaf of Plumbago zeylanica L. a common understorey species of homestead agroforests of Kanyakumari District, Tamilnadu. International Journal of Pharmacy, \t4(3): 162-165. 22.\tJunk, W.J. & Piedade, M.T.F. (1997) Plant life in the floodplain with special reference to herbaceous plants. In: Junk, W.J. (Ed) The Central Amazon floodplain: Ecology of a pulsing system. Springer Verlag, Berlin. pp. 147\u2013186. 23.\tKingston C, BP Mishra, BS Nisha, S Jeeva, C Livingstone and RC Laloo, 2006. Diversity and distribution of economically important plants in traditional homegardens of Kanyakumari district, Tamilnadu, Southern Peninsular India. Journal of Nature Conservation, 18: 41-54. 24.\tKumar A, Gupta AK, Marcot BG, et al. 2002. Management of forests in India for biological diversity and forest productivity, a new perspective. Volume IV: Garo Hills Conservation Area (GCA). Wildlife Institute of India \u2013 USDA Forest Service collaborative project report, Wildlife Institute of India, Dehra Dun, India, 206. 25.\tKumar. K. M.P, Sreeraj. V, Thomas. B, Manudev. K.M and Rajendran. A, 2012. Validation and documentation of rare endemic and threatened (RET) plants from Nilgiri, Kanuvai and Madukkarai forests of southern Western Ghats, India. Journal of Threatened Taxa.| 4(15): 3436\u20133442. 26.\tLinder P, Elfving B, Zackrisson O. 1997. Stand structure and successional trends in virgin boreal forest reserves in Sweden. Forest Ecology and Management, 98: 17-33 27.\tMalanson, G.P.(1993) Riparian landscapes, campridge University press, Cambridge, Uk. 28.\tMatthew KM (1999). The flora of the Palani Hills South India, Vol. 3. The Rapinat Herbarium, Thiruchirapalli, India. 29.\tMatthew KM, 1991. An excursion Flora of Central Tamilnadu. Thiruchirappalli: Rapinat \tHerbarium. 682. 30.\tMatthew, K. M. 1982. Flora of the Tamil Nadu Carnatic. The Rapinat Herbarium, St. Joseph's College, Tiruchirappalli. 31.\tMeher-Homji VM (1981). Environmental implications of the life form spectra from India. J Eco Tax Bot. 2: 23-30. 32.\tMinore, D. & Weatherly, H.G. (1994) Riparian trees, shrubs and forest regeneration in the coastal mountains of Oregon. New Forests 8: 249\u2013263. 33.\tMinshall, W.G., Cummnins, K.W., Peterson, R.C., Cushing, C.E., Burns, D.A., Sedell, J.R. & Vannote, R.L. (1985) Developments in stream ecosystem theory. Canadian Journal of \tFisheries and Aquatic Sciences 42: 1045\u20131055. 34.\tMohanan, M. & A. N. Henry. 1994. Flora of Thiruvananthapuram. Botanical Survey of India, Calcutta. 35.\tNayar MP, Sastry ARK. 1987. Red Data Books of Indian Plants. Vol I, Botanical Survey of India, Calcutta. p. 147-159. 36.\tNayar MP, Sastry A. 1988. Red Data Books of Indian Plants. Vol II, Botanical Survey of India, Calcutta. p. 109-118. 37.\tNayar MP, Sastry A. 1990. Red Data Books of Indian Plants. Vol III, Botanical Survey of India, Calcutta. 38.\tNayar, M.P. (1996). \"Hot Spots\" of Endemic Plants of India, Nepal and Bhutan. Tropical Botanic Garden and Research Institute, Palode, Thiruvananthapuram. 39.\tNayar, M.P. (1998). Impending endemic plant collapse in the Western Ghats. Biodiversity, India. Newsletter issues 3\u20137. 40.\tNayar T.S., Begam A.R. and M. Sibi, 2014. Flowering Plants of the Western Ghats India. Jawaharlal Nehru Tropical Botanical Garden and Research Institue, Palode. 41.\tNair N.C and Henry (1983, 1987 and 1989). Flora of Tamil Nadu. Botanical Survey of india, Coimbatore, (3 Vols.) 42.\tNilsson, C. (1983) Frequency distribution of vascular plants in the geolittoral vegetation along \ttwo rivers in northern Sweden. Journal of Biogeography 10: 351\u2013369. 43.\tPadalia H, Chauhan N, Porwal MC, et al. 2004. Phytosociological observations on tree species diversity of Andaman Islands, India. Current Science, 87: 799-806. 44.\tParthipan B, M Rajeeswari and S Jeeva, 2016. Floristic Diversity of South Travancore Hindu College (S. T. Hindu College) Campus, Kanyakumari District (Tamilnadu) India. Bioscience Discovery, 7(1):41-56. 45.\tPaul ZM and S Jeeva, 2013. Agrobiodiversity in the Homegardens of Chirakkarai Village, Kanyakumari district, Tamilnadu, India. The Indian Forester, 139 (11): 1003-1011. 46.\tPettit, N.E. & Froend, R.H. (2001) Variability in flood disturbance and the impact on riparian tree recruitment in two contrasting river systems. Wetland Ecology and Management 9: 13\u201325. 47.\tRisser P, Rice EL. 1971. Diversity in tree species in Oklahoma upland forest. Ecology, 52: 876-880. 48.\tSagar R, Raghubanshi AS, Singh JS. 2003. Tree species composition, dispersion and diversity along a disturbance gradient in a dry tropical forest region of India. Forest Ecology and \tManagement, \t186: 61-7. 49.\tShine ,N.& Nakamura, F.(2005) effects of fluvial geomorphology on riparian tree species in Rekifune River, Northern Japan, Plant Ecology 178:15-28. 50.\tSmith RL (1980). Ecology and Field Biology. Harper and Row Publications, New York, United States of America. 51.\tSuba SM, Vinuba AA, and C Kingston, 2014. Vascular Plant Diversity in the Tribal Homegardens of Kanyakumari Wildlife Sanctuary, Southern Western Ghats. Bioscience Discovery, 5(1):99-111. 52.\tSukumaran. S and Raj. A.D.S, 2008. Rare and Endemic Plants in the Scred Groves of Kanyakumari District in Tamil Nadu. Journal of Forestry. 31(4): 611-616. 53.\tSukumaran S and Jeeva S, 2011. Angiosperm flora from wetlands of Kanyakumari district, Tamilnadu, India. Check List, 7(4): 486-495. 54.\tSukumaran S and Jeeva S, 2012. A study on aquatic and wetland flora of Kanyakumari 55.\tdistrict, Tamilnadu, Inda. J. Econ. Taxon. Bot., 36(2): 223-243. 56.\tSukumaran and Parthiban, 2014. Vascular plant diversity of Udayagiri fort, Kanyakumari district, Tamilnadu, India. Bioscience Discovery, 5 (2): 204- 217. 57.\tTabacchi, E., Planty-Tabacchi, A.M. & Decamps, O. (1990) Continuity and discontinuity of the riparian vegetation along a fluvial corridor. Landscape Ecology 5: 9\u201320. 58.\tVannote, R.L, Minshall, G.W, Cummine, K.w, Sedell, J.R. & cushing, C.E.(1980). The river continuum concept, Canadian Journal of fishers and Aquatic sciences.37:130-137. 59.\tWhittaker R, Niering WA. 1965. Vegetation of the Santa Catalina Mountains, Arizona: A 60.\tgradient analysis of the south slope. Ecology, 46: 429-452."]}
format Text
author J. S. Angel Felix
Z. Miller Paul
S. Jeeva
S. Sukumaran
author_facet J. S. Angel Felix
Z. Miller Paul
S. Jeeva
S. Sukumaran
author_sort J. S. Angel Felix
title Riparian Flora Of Thamiraparani River In Kanyakumari District, Tamilnadu, India
title_short Riparian Flora Of Thamiraparani River In Kanyakumari District, Tamilnadu, India
title_full Riparian Flora Of Thamiraparani River In Kanyakumari District, Tamilnadu, India
title_fullStr Riparian Flora Of Thamiraparani River In Kanyakumari District, Tamilnadu, India
title_full_unstemmed Riparian Flora Of Thamiraparani River In Kanyakumari District, Tamilnadu, India
title_sort riparian flora of thamiraparani river in kanyakumari district, tamilnadu, india
publisher Zenodo
publishDate 2017
url https://dx.doi.org/10.5281/zenodo.495340
https://zenodo.org/record/495340
long_lat ENVELOPE(-119.369,-119.369,55.517,55.517)
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ENVELOPE(-69.483,-69.483,-69.753,-69.753)
geographic Pacific
Indian
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Livingstone
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Tilley
geographic_facet Pacific
Indian
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Harper
Livingstone
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Tilley
genre Northern Sweden
genre_facet Northern Sweden
op_rights Open Access
Creative Commons Attribution 4.0
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info:eu-repo/semantics/openAccess
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op_doi https://doi.org/10.5281/zenodo.495340
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spelling ftdatacite:10.5281/zenodo.495340 2023-05-15T17:45:17+02:00 Riparian Flora Of Thamiraparani River In Kanyakumari District, Tamilnadu, India J. S. Angel Felix Z. Miller Paul S. Jeeva S. Sukumaran 2017 https://dx.doi.org/10.5281/zenodo.495340 https://zenodo.org/record/495340 unknown Zenodo Open Access Creative Commons Attribution 4.0 https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess CC-BY Angiosperm, Anthropogenic, Flora, Kanyakumari, Riparian & Tamiraprani Text Journal article article-journal ScholarlyArticle 2017 ftdatacite https://doi.org/10.5281/zenodo.495340 2021-11-05T12:55:41Z Riparian flora is an expressed survey to analyze marginal vegetation of river zones. The present study was conducted in Thamiraparani river of Kanyakumari District, Tamil Nadu, India. Result of the current study showed a total of, 720 species of angiosperms belonging to 449 genera under 126 families of these 76.5% were dicots and 23.5% of monocots were recorded.Habitually 30.4% herbs , 26.7% trees, 15.7% shrubs, 6.9% climbing shrubs, 5.2% perennial herbs, 3.3% annual herbs, 2 % twining herbs, 1.7% twining shrubs, 1.6% aquatic herbs, 1.3% climbing herbs, 0.6% rhizomatous herbs, 0.7% marshy herbs, 0.7% tunerous herbs, 0.6% lianas, 0.4% tuberous climbing herbs, 0.4% stragglinbg shrubs, 0.3% climbers, 0.3% climbing palms, 0.3% prostrate herbs, climbing shrub, creeping herb, epiphytic herb, parasitic shrub and parasitic twining herb were 0.1% . Poaceae is the dominant family followed by Fabaceae, Acanthaceae and Euphorbiacae. 114 plant species were conserved under RET category, 568 species occurred commonly 98 species were exotic.Most of the plants were widely used as medicinals. Anthropogenic activities act as a barrier biodiversity. : {"references": ["1.\tAmita O, Sankhwal, D Shruti, Shah, J Deepa, Gavali and ND Sumesh, 2015. Riparian Flora of Mahi River, Gujarat. Biolife, 3(4):820-826. 2.\tAppolinario V, Filho ATO, Guilherme FAG. 2005. Tree population and community dynamics in a Brazilian tropical semideciduous forest. Revista Brasil, 28: 347-360. 3.\tArul AA A, S Jeeva and S Karuppusamy, 2013. On the occurrence of Blyxa aubertii in \tAllamparai hills (Kanyakumari District) of Southern Western Ghats. Science \tResearch Reporter 3(1)38-40. 4.\tBrinson, M.M. (1990) Riverine forests. In: Lugo, A.E., Brinson, M.M. & Brown, S. (Eds) Ecosystems of the World - 15: Forested wetlands. Elsevier, Oxford. pp. 87\u2013141. 5.\tBrintha TSS, JE James and S Jeeva, 2015. Vascular Plants, Scott Christian College, Nagercoil, Tamilnadu, India. Science Research Reporter, 5(1):36-66. 6.\tCherullipadi LB and J Paul, 2016. Diversity of herbaceous riparian flora in the lowerstretch of Bharathappuzha river, Kerala. South Indian Journal Of Biological Sciences, 2(1); 191\u2010197. 7.\tChittibabu CV, Parthasarathy N. 2000. Attenuated tree species diversity in human-impacted tropical evergreen forest sites at Kolli hills, Eastern Ghats, India. Biodiversity and Conservation, 9:1493-1519. 8.\tChris Hoag, Derek Tilley, dale Darris,Kathy Pendergrass(2008) field Guide for the identification and use of common Riparian woody plants of the Intermountain west and pacific Northwest Regions. The Nature conservancy.pp.6-7. 9.\tDrude D (1980). Handbuch Der Pflanzengeographite. Stuttgart J. Engelhorn, p. 582. 10.\tFaxina C, E Fischer and A Pott, 2015. Flora of inland Atlantic riparian forests in southwestern Brazil. Biota Neotropica 15(3): 1\u201312. 11.\tGamble JS & Fischer CEC (1915-1935). Flora of the Presidency of Madras, Vols. 1-3. Adlord and Sons Ltd., London. 12.\tGeetha VS, MR Appavoo, AA Vinuba and S Jeeva, 2015. Species richness of edible plants grown in homegardens of the foothills of Western Ghats. Science Research Reporter, 5(2): 187-191. 13.\tGentry AH. 1988. Tree species richness of upper Amazonian forests. Proceedings of the National Academy of Science of U.S.A., 85: 156\u2013 159. 14.\tGoebel, P.C., Hix, D.M., Dygert, C.E., & Holmes, K.L. (2003) Ground flora communities of headwater riparian areas in an old-growth central hardwood forest. USDA Forest 15.\tService General Technical Report NC-234. pp. 136\u2013145. 16.\tGopalan, R. & A.N. Henry (2000). Endemic Plants of India. Bishen Singh Mahendra Pal Singh, Dehra Dun. 17.\tGosselink, J.G., Bayley, S.E., Conner, W.H. & Turner, R.E. (1981) Ecological factors in the determination of riparian wetland ecosystems. In Clarke, J.R. & Benforado, 18.\tJ. (Eds) Wetlands of the bottomland hardwood forests. Proceedings of a workshop on bottomland hardwood forest wetlands of the southeastern United States. Elsevier Scientific \tPublishing, Amsterdam. pp. 197\u2013219. 19.\tHibbs, D.E. (1987) Management of riparian zone vegetation in western Oregon. National Council of the Paper Industry for Air and Stream Improvement Technical Bulletin 514: 57\u201363. 20.\tHynes, H.B.N. (1970) The ecology of running waters. Liverpool University Press, UK. 555. 21.\tJose SS, J Joselin, AR Florence, TSS Brintha and S Jeeva, 2014. Phytochemical constituents of the leaf of Plumbago zeylanica L. a common understorey species of homestead agroforests of Kanyakumari District, Tamilnadu. International Journal of Pharmacy, \t4(3): 162-165. 22.\tJunk, W.J. & Piedade, M.T.F. (1997) Plant life in the floodplain with special reference to herbaceous plants. In: Junk, W.J. (Ed) The Central Amazon floodplain: Ecology of a pulsing system. Springer Verlag, Berlin. pp. 147\u2013186. 23.\tKingston C, BP Mishra, BS Nisha, S Jeeva, C Livingstone and RC Laloo, 2006. Diversity and distribution of economically important plants in traditional homegardens of Kanyakumari district, Tamilnadu, Southern Peninsular India. Journal of Nature Conservation, 18: 41-54. 24.\tKumar A, Gupta AK, Marcot BG, et al. 2002. Management of forests in India for biological diversity and forest productivity, a new perspective. Volume IV: Garo Hills Conservation Area (GCA). Wildlife Institute of India \u2013 USDA Forest Service collaborative project report, Wildlife Institute of India, Dehra Dun, India, 206. 25.\tKumar. K. M.P, Sreeraj. V, Thomas. B, Manudev. K.M and Rajendran. A, 2012. Validation and documentation of rare endemic and threatened (RET) plants from Nilgiri, Kanuvai and Madukkarai forests of southern Western Ghats, India. Journal of Threatened Taxa.| 4(15): 3436\u20133442. 26.\tLinder P, Elfving B, Zackrisson O. 1997. Stand structure and successional trends in virgin boreal forest reserves in Sweden. Forest Ecology and Management, 98: 17-33 27.\tMalanson, G.P.(1993) Riparian landscapes, campridge University press, Cambridge, Uk. 28.\tMatthew KM (1999). The flora of the Palani Hills South India, Vol. 3. The Rapinat Herbarium, Thiruchirapalli, India. 29.\tMatthew KM, 1991. An excursion Flora of Central Tamilnadu. Thiruchirappalli: Rapinat \tHerbarium. 682. 30.\tMatthew, K. M. 1982. Flora of the Tamil Nadu Carnatic. The Rapinat Herbarium, St. Joseph's College, Tiruchirappalli. 31.\tMeher-Homji VM (1981). Environmental implications of the life form spectra from India. J Eco Tax Bot. 2: 23-30. 32.\tMinore, D. & Weatherly, H.G. (1994) Riparian trees, shrubs and forest regeneration in the coastal mountains of Oregon. New Forests 8: 249\u2013263. 33.\tMinshall, W.G., Cummnins, K.W., Peterson, R.C., Cushing, C.E., Burns, D.A., Sedell, J.R. & Vannote, R.L. (1985) Developments in stream ecosystem theory. Canadian Journal of \tFisheries and Aquatic Sciences 42: 1045\u20131055. 34.\tMohanan, M. & A. N. Henry. 1994. Flora of Thiruvananthapuram. Botanical Survey of India, Calcutta. 35.\tNayar MP, Sastry ARK. 1987. Red Data Books of Indian Plants. Vol I, Botanical Survey of India, Calcutta. p. 147-159. 36.\tNayar MP, Sastry A. 1988. Red Data Books of Indian Plants. Vol II, Botanical Survey of India, Calcutta. p. 109-118. 37.\tNayar MP, Sastry A. 1990. Red Data Books of Indian Plants. Vol III, Botanical Survey of India, Calcutta. 38.\tNayar, M.P. (1996). \"Hot Spots\" of Endemic Plants of India, Nepal and Bhutan. Tropical Botanic Garden and Research Institute, Palode, Thiruvananthapuram. 39.\tNayar, M.P. (1998). Impending endemic plant collapse in the Western Ghats. Biodiversity, India. Newsletter issues 3\u20137. 40.\tNayar T.S., Begam A.R. and M. Sibi, 2014. Flowering Plants of the Western Ghats India. Jawaharlal Nehru Tropical Botanical Garden and Research Institue, Palode. 41.\tNair N.C and Henry (1983, 1987 and 1989). Flora of Tamil Nadu. Botanical Survey of india, Coimbatore, (3 Vols.) 42.\tNilsson, C. (1983) Frequency distribution of vascular plants in the geolittoral vegetation along \ttwo rivers in northern Sweden. Journal of Biogeography 10: 351\u2013369. 43.\tPadalia H, Chauhan N, Porwal MC, et al. 2004. Phytosociological observations on tree species diversity of Andaman Islands, India. Current Science, 87: 799-806. 44.\tParthipan B, M Rajeeswari and S Jeeva, 2016. Floristic Diversity of South Travancore Hindu College (S. T. Hindu College) Campus, Kanyakumari District (Tamilnadu) India. Bioscience Discovery, 7(1):41-56. 45.\tPaul ZM and S Jeeva, 2013. Agrobiodiversity in the Homegardens of Chirakkarai Village, Kanyakumari district, Tamilnadu, India. The Indian Forester, 139 (11): 1003-1011. 46.\tPettit, N.E. & Froend, R.H. (2001) Variability in flood disturbance and the impact on riparian tree recruitment in two contrasting river systems. Wetland Ecology and Management 9: 13\u201325. 47.\tRisser P, Rice EL. 1971. Diversity in tree species in Oklahoma upland forest. Ecology, 52: 876-880. 48.\tSagar R, Raghubanshi AS, Singh JS. 2003. Tree species composition, dispersion and diversity along a disturbance gradient in a dry tropical forest region of India. Forest Ecology and \tManagement, \t186: 61-7. 49.\tShine ,N.& Nakamura, F.(2005) effects of fluvial geomorphology on riparian tree species in Rekifune River, Northern Japan, Plant Ecology 178:15-28. 50.\tSmith RL (1980). Ecology and Field Biology. Harper and Row Publications, New York, United States of America. 51.\tSuba SM, Vinuba AA, and C Kingston, 2014. Vascular Plant Diversity in the Tribal Homegardens of Kanyakumari Wildlife Sanctuary, Southern Western Ghats. Bioscience Discovery, 5(1):99-111. 52.\tSukumaran. S and Raj. A.D.S, 2008. Rare and Endemic Plants in the Scred Groves of Kanyakumari District in Tamil Nadu. Journal of Forestry. 31(4): 611-616. 53.\tSukumaran S and Jeeva S, 2011. Angiosperm flora from wetlands of Kanyakumari district, Tamilnadu, India. Check List, 7(4): 486-495. 54.\tSukumaran S and Jeeva S, 2012. A study on aquatic and wetland flora of Kanyakumari 55.\tdistrict, Tamilnadu, Inda. J. Econ. Taxon. Bot., 36(2): 223-243. 56.\tSukumaran and Parthiban, 2014. Vascular plant diversity of Udayagiri fort, Kanyakumari district, Tamilnadu, India. Bioscience Discovery, 5 (2): 204- 217. 57.\tTabacchi, E., Planty-Tabacchi, A.M. & Decamps, O. (1990) Continuity and discontinuity of the riparian vegetation along a fluvial corridor. Landscape Ecology 5: 9\u201320. 58.\tVannote, R.L, Minshall, G.W, Cummine, K.w, Sedell, J.R. & cushing, C.E.(1980). The river continuum concept, Canadian Journal of fishers and Aquatic sciences.37:130-137. 59.\tWhittaker R, Niering WA. 1965. Vegetation of the Santa Catalina Mountains, Arizona: A 60.\tgradient analysis of the south slope. Ecology, 46: 429-452."]} Text Northern Sweden DataCite Metadata Store (German National Library of Science and Technology) Pacific Indian Homestead ENVELOPE(-119.369,-119.369,55.517,55.517) Harper ENVELOPE(-57.050,-57.050,-84.050,-84.050) Livingstone ENVELOPE(-134.337,-134.337,61.333,61.333) Catalina ENVELOPE(-59.633,-59.633,-62.333,-62.333) Dun ENVELOPE(11.266,11.266,64.658,64.658) Tilley ENVELOPE(-69.483,-69.483,-69.753,-69.753)

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