Applied Ecology and Environmental Sciences
ISSN (Print): 2328-3912 ISSN (Online): 2328-3920 Website: https://www.sciepub.com/journal/aees Editor-in-chief: Alejandro González Medina
Open Access
Journal Browser
Go
Applied Ecology and Environmental Sciences. 2022, 10(10), 601-613
DOI: 10.12691/aees-10-10-2
Open AccessArticle

Tree Diversity and Abundance of Western Ghats Striped Squirrels, Funambulus Tristriatus in Sacred Groves: Evidence from Kannur, Kerala

P.V. Amina1, , P Sreeja2 and Manoj K3

1Department of Environmental Science, Mangattuparamba Campus, Kannur University, Kannur, Kerala, India, ORCID: https://orcid.org/0000-0002-2888-0615

2PG Department of Botany and Research Centre, Sir Syed College, Kannur, Kerala – IndiaORCID: https://orcid.org/0000-0002-8163-9994

3Department of Environmental Science, Mangattuparamba Campus, Kannur University, Kannur, Kerala, India, ORCID: https://orcid.org/0000-0003-1097-1006

Pub. Date: October 10, 2022

Cite this paper:
P.V. Amina, P Sreeja and Manoj K. Tree Diversity and Abundance of Western Ghats Striped Squirrels, Funambulus Tristriatus in Sacred Groves: Evidence from Kannur, Kerala. Applied Ecology and Environmental Sciences. 2022; 10(10):601-613. doi: 10.12691/aees-10-10-2

Abstract

The study was carried out to measure tree species diversity of six spatially heterogeneous Sacred Groves (SGs) to observe the abundance of IUCN Red List (LC) Western Ghats Striped squirrel, Funambulus tristriatus, Waterhouse (1837) inside these SGs. Shannon’s and Simpson’s Indices and IVI were used to examine the tree species diversity. The abundance of squirrels in all six SGs was also recorded through a two-month-long 48-kilometre transect walk survey. The floristic composition exhibited that Memecylon randerianum is the dominant species in Neeliyarkottam and Madayi kavu; Myristica malabarica is the dominant species in Poongottukavu, and Carallia brachiata is the predominant tree species in Iriverikavu. Thazhekavu is home to the mangrove species Avicennia officinalis. Chamakavu is a coastal SG with the highest density of Syzygium caryophyllatum and the highest IVI of Gmelina arborea. The study found that squirrels are significantly encountered in fruit-giving trees with a high canopy. Our descriptive statistical findings reveal that out of the total observed F. tristriatus (n=106), about 42% of squirrels are encountered in Memecylon randerianum, followed by Mangifera indica (31%), Artocarpus heterophyllus Lam. (4%), Elaeocarpus tuberculatus (3%), etc. Neeliyar kottam has the most tree species and individual trees with a high diversity of Memecylon randerianum, Mangifera indica, and higher squirrel encounters. F. tristriatus fed the flowers and berries of Memecylon randerianum and flowers and drupes of Mangifera indica. In sum, the presence of trees and the diversity of SGs is critical for the survival of F. tristriatus in densely populated and rapidly urbanizing districts like Kannur.

Keywords:
Species Diversity Floristic Diversity Conservation Squirrels Funambulus tristriatus

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References:

[1]  Marchese, C. (2015). Biodiversity hotspots: A shortcut for a more complicated concept. Global Ecology and Conservation, 3, 297-309.
 
[2]  Bajaru, S., Kulavmode, A. R., and Manakadan, R. (2021). Small mammals in the human-dominated landscape in the northern Western Ghats of India. Journal of Threatened Taxa, 13(2), 17619-17629.
 
[3]  Bossart, J. L., and Antwi, J. B. (2016). Limited erosion of genetic and species diversity from small forest patches: Sacred Forest groves in an Afrotropical biodiversity hotspot have high conservation value for butterflies. Biological Conservation, 198, 122-134.
 
[4]  Bhagwat, S. A., and Rutte, C. (2006). Sacred groves: potential for biodiversity management. Frontiers in Ecology and the Environment, 4(10), 519-524.
 
[5]  Ormsby, A. A., and Bhagwat, S. A. (2010). Sacred forests of India: a strong tradition of community-based natural resource management. Environmental Conservation, 37(3), 320-326.
 
[6]  Kirk, W. (1978). Town and country planning in ancient India according to Kautilya’s Arthasastra. Scottish Geographical Magazine, 94(2), 67-75.
 
[7]  Chandrashekara, U. M., and Sankar, S. (1998). Ecology and management of sacred groves in Kerala, India. Forest Ecology and Management, 112(1-2), 165-177.
 
[8]  Rajesh, T. P., Ballullaya, U. P., Unni, A. P., Parvathy, S., and Sinu, P. A. (2020). Interactive effects of urbanization and year on invasive and native ant diversity of sacred groves of South India. Urban Ecosystems, 23, 1335-1348.
 
[9]  Rajesh, T., Unni, A., Prashanth Ballullaya, U., Manoj, K., and Sinu, P. (2021). An insight into the quality of SGs – an island habitat – using leaf-litter ants as an indicator in a context of urbanization. Journal of Tropical Ecology, 37(2), 82-90.
 
[10]  Alex, C. J., Soumya, K. C., and Sajeev, T. V. (2021). A report on the moth (Lepidoptera: Heterocera) diversity of Kavvai River basin in Kerala, India. In Journal of Threatened Taxa (13)2, 17753-17779).
 
[11]  Pramod, C., and Pradeep, A. K. (2021). Observations on the flowering plant diversity of Madayippara, a southern Indian lateritic plateau from Kerala, India. Journal of Threatened Taxa, 13(2), 17780-17806.
 
[12]  Ballullaya, U. P., Reshmi, K. S., Rajesh, T. P., Manoj, K., Lowman, M., and Sinu, P. A. (2019). Stakeholder motivation for the conservation of sacred groves in south India: an analysis of environmental perceptions of rural and urban neighbourhood communities. Land Use Policy, 89, 104213.
 
[13]  Ray, R., Chandran, M. D. S., and Ramachandra, T. V. (2014). Biodiversity and ecological assessments of Indian sacred groves. Journal of forestry research, 25(1), 21-28.
 
[14]  Bhagwat, S. A., Kushalappa, C. G., Williams, P. H., and Brown, N. D. (2005). The role of informal protected areas in maintaining biodiversity in the Western Ghats of India. Ecology and Society, 10(1), 8.
 
[15]  Bhagwat, S. A., Nogué, S., and Willis, K. J. (2014). Cultural drivers of reforestation in tropical forest groves of the Western Ghats of India. Forest Ecology and Management, 329, 393-400.
 
[16]  Rajesh, T., Ballullaya, P., Surendran, P., and Sinu, P. A. (2017). Ants Indicate Urbanization Pressure in Sacred Groves of Southwest India: A Pilot Study. Current Science, 113(2), 317-322.
 
[17]  Melliger, R. L., Braschler, B., Rusterholz, H. P., and Baur, B. (2018). Diverse effects of degree of urbanization and forest size on species richness and functional diversity of plants, and ground surface-active ants and spiders. PloS one, 13(6), e0199245.
 
[18]  Vanitharani, J. (2018). Conservation status and guidelines for the maintenance of endangered grizzled giant squirrel Ratufa macroura in Srivilliputhur Wildlife Sanctuary. Indian Hotspots: Vertebrate Faunal Diversity, Conservation and Management, 2, 297-307.
 
[19]  Osuri, A. M., Madhusudan, M. D., Kumar, V. S., Chengappa, S. K., Kushalappa, C. G., and Sankaran, M. (2014). Spatio-temporal variation in forest cover and biomass across sacred groves in a human-modified landscape of India’s Western Ghats. Biological conservation, 178, 193-199.
 
[20]  Myers, N., Mittermeier, R. A., Mittermeir, C. G., Fo, D. F., and Kent, J. (2000). Biodiversity Hotspots for conservation priorities. Nature, 403(6772), 853-858.
 
[21]  Gossner, M. M., and Wohlgemuth, T. (2020). Do we need squirrels everywhere? On the distinction between biodiversity and nature. In How to balance forestry and biodiversity conservation – A view across Europe reflects.
 
[22]  Eisenberg, J.F. (1980). The density and biomass of tropical mammals. In Soule and Wilcox (Eds). Conservation Biology, 35-55. Sunderland, Massachusetts.
 
[23]  Kumara, H. N., and Singh, M. (2006). Distribution and relative abundance of giant squirrels and flying squirrels in Karnataka, India. Mammalia, 70(1-2), 40-47.
 
[24]  Duenas, M. A., Hemming, D. J., Roberts, A., and Diaz-Soltero, H. (2021). The threat of invasive species to IUCN-listed critically endangered species: A systematic review. Global Ecology and Conservation, e01476.
 
[25]  Molur, S., and Nameer, P. O. (2016). Funambulus tristriatus, Western Ghats Striped Squirrel. The IUCN Red List of Threatened Species.
 
[26]  Aravind, P. S., Joe, G., Dhanesh, P., and Nandini, R. (2021). View of Food habits of the Dusky-striped Squirrel Funambulus sublineatus (Mammalia_ Rodentia_ Sciuridae). Journal of Threatened Tax, 13(2), 17827-17831.
 
[27]  Bhat, S. (1980). Cannibalistic Behavior in Captive Western Ghats Squirrel, Funambulus Tristriatus Waterhouse. Comparative physiology and ecology, 5/1, 44-45.
 
[28]  Bhat, S. and Mathew, D. N. (1984a). Population of the Western Ghats squirrel, Funambulus tristriatus Waterhouse in south India. Proceedings: Animal Sciences, 93(2), 131-139.
 
[29]  Bhat, S. and D. Mathew. (1984b). Observations on the breeding biology of the Western Ghats squirrel, Funambulus tristriatus Waterhouse. Mammalia, 48(4), 573-584.
 
[30]  Bhat, S. (1985). Food and nesting habits of the Western Ghats squirrel, Funambulus tristriatus Waterhouse. The Journal of the Bombay Natural History Society, 82, 837-843.
 
[31]  Borges, R. M. (1989). Resource heterogeneity and the foraging ecology of the Malabar giant squirrel (Ratufa indica). Ph.D. dissertation, University of Miami, Florida.
 
[32]  Chandrasekar-Rao, A., and Sunquist, M. E. (1996). Ecology of small mammals in tropical forest habitats of southern India. Journal of Tropical Ecology, 12(4), 561-571.
 
[33]  Asha, G., Manoj, K., Megha, P. P., and Sinu, P. A. (2021). Spatiotemporal effects on dung beetle activities in island forests-home garden matrix in a tropical village landscape. Scientific Reports, 11(1), 1-13.
 
[34]  Jyothi, K. M., and Nameer, P. O. (2015). Birds of sacred groves of northern Kerala, India. Journal of Threatened Taxa, 7(15), 8226.
 
[35]  Landry Yuan, F., Ballullaya, U. P., Roshnath, R., Bonebrake, T. C., and Sinu, P. A. (2020). Sacred groves and serpent-gods moderate human–snake relations. People and Nature, 2(1), 111-122.
 
[36]  Nameer, P. O., Molur, S., and Walker, S. (2001). Mammals of Western Ghats: A simplistic overview. Zoos’ Print Journal, 16(11), 629-639.
 
[37]  Nandini, R., and Parthasarathy, N. (2008). Food habits of the Indian giant flying squirrel (Petaurista philippensis) in a rain forest fragment, Western Ghats. Journal of Mammalogy, 89(6), 1550-1556.
 
[38]  Molur, S., Srinivasulu, C., Srinivasulu, B., Walker, S., Nameer, P.O. and Ravikumar, L. (2005). Status of non-volant small mammals: Conservation Assessment and Management Plan (CAMP) workshop report. Zoo Outreach Organisation/CBSG-South Asia., Comibatore, India.
 
[39]  Devi Khumbongmayum, A., Khan, M. L., and Tripathi, R. S. (2005). Sacred groves of Manipur, northeast India: biodiversity value, status and strategies for their conservation. Biodiversity and Conservation, 14(7), 1541-1582.
 
[40]  Gadgil, M., and Vartak, V. D. (1976). The sacred groves of Western Ghats in India. Economic Botany, 30(2), 152-160.
 
[41]  Rao, B. R. P., and Sunitha, S. (2011). Medicinal plant resources of Rudrakod sacred grove in Nallamalais, Andhra Pradesh, India. Journal of Biodiversity, 2(2), 75-89.
 
[42]  Nameer, P. O. (2015). A checklist of mammals of Kerala, India. Journal of Threatened Taxa, 7(13), 7971-7982.
 
[43]  Mitsuzuka, W., and Oshida, T. (2018). Feeding Adaptation of Alimentary Tract Length in Arboreal Squirrels. Mammal Study, 43(2).
 
[44]  Borges, R. M. (1993). Figs, Malabar giant squirrels, and fruit shortages within two tropical Indian forests. Biotropica, 183-190.
 
[45]  Agarwal, V. C. and Chakraborty, S. (1979). Taxonomic notes on some Oriental Squirrels. Mammalia, 43(2), 161-172.
 
[46]  Nameer, P.O. (2000). Checklist of Indian Mammals. Kerala State Forest Department and Kerala Agricultural University, 90pp+xx
 
[47]  Easa, P.S. and K.K. Ramachandran. (2005). Biodiversity Documentation for Kerala. Part 12 - Mammals. Kerala Forest Research Institute, Peechi, 40pp.
 
[48]  Dissanayake, R., and Oshida, T. (2012). The systematics of the dusky striped squirrel, Funambulus sublineatus (Waterhouse, 1838) (Rodentia: Sciuridae) and its relationships to Layard’s squirrel, Funambulus layardi Blyth, 1849. Journal of Natural History, 46(1-2), 91-116.
 
[49]  Prater, S. H. (1980). The Book of Indian Animals. Bombay Natural History Society and Oxford University Press, Mumbai.
 
[50]  Umapathy, G., and Kumar, A. (2000). The occurrence of arboreal mammals in the rain forest fragments in the Anamalai Hills, south India. Biological Conservation, 92(3), 311-319.
 
[51]  Sridhar, H., Raman, S.T. and Mudappa, D. (2008). Mammal persistence and abundance in tropical rainforest remnants in the southern Western Ghats, India. Current Science, 94(6), 748-757.
 
[52]  Abrol, D. 2014. Integrated Pest Management: Current Concepts and Ecological Perspective. Paris: Academic Press.
 
[53]  Alfred, J.R.B., A.K. Das and A.K. Sanyal (2006). Animals of India: Mammals. ENVIS- Zoological Survey of India, Kolkata
 
[54]  Pradhan, M.S. and Talmale, S.S. (2012). Indian Mammals: Checklist with comments on Type Locality, Distribution, Conservation Status and Taxonomy. Nature Books India, Kolkata,
 
[55]  Talmale, S.S. (2013). Taxonomic Studies on Jungle Palm Squirrel Funambulus tristriatus (Waterhouse) From Northern Western Ghats. Records of Zoological Survey of India, 113 (Part-l), 61-66.
 
[56]  Molur, S., P. Nameer. (2008). “Funambulus tristriatus” (On-line). IUCN Red List of Threatened Species. Accessed March 02, 2014 at http://www.iucnredlist.org/details/8704/0.
 
[57]  Knight, D. H. (1975). A phytosociological analysis of species-rich tropical forest on Barro Colorado Island, Panama. Ecological Monographs, 45(3), 259-284.
 
[58]  Ramanujam, M. P., and Cyril, K. P. K. (2003). Woody species diversity of four sacred groves in the Pondicherry region of South India. Biodiversity and Conservation, 12(2), 289-299.
 
[59]  Murphy P.G. and Lugo A.E. 1986. Ecology of tropical dry forest. Annual Review of Ecology and Systematics, 17, 67-88.
 
[60]  Magurran, A. E. (1988). Ecological diversity and its measurement. Princeton university press.
 
[61]  Shannon, C.E., Wiener, W. (1963). The mathematical theory of communication. University of Illinois Press.
 
[62]  Simpson, E.H. (1949). Measurement of diversity. Nature (London) 163, 688.
 
[63]  Bhagwat, S. A., Kushalappa, C. G., Williams, P. H., and Brown, N. D. (2005). A landscape approach to biodiversity conservation of sacred groves in the Western Ghats of India. Conservation Biology, 19(6), 1853-1862.
 
[64]  Blanford, W. T. (1897). The Large Indian Squirrel (Sciurus indicus, erx.) and its local races or sub-species. J. Bombay Nat. Hist. Soc., (11), 131-138.
 
[65]  Gadgil, M., Vartak, V.D., 1975. Sacred groves of India: a plea for continued conservation. J. Bombay Natl. History Soc. 72, 314-320.
 
[66]  Gamble, J.S., 1928. Flora of Presidency of Madras, vol. 1-3. Adlard and Son Ltd. London, 2017 pp.
 
[67]  Moore, J. C. (1960). Squirrel geography of the Indian subregion. Systematic Zoology, 9(1), 1-17.
 
[68]  Ormsby, A. (2013). Analysis of Local Attitudes Toward the Sacred Groves of Meghalaya and Karnataka, India. Ashoka Trust for Research in Ecology and the Environment, 11(2), 187-197.
 
[69]  Rath, S., and Ormsby, A. A. (2020). Conservation through traditional knowledge: a review of research on the sacred groves of Odisha, India. Human Ecology, 48(4), 455-463.
 
[70]  Sterndale, R. A. (1886). On the Flying squirrel of Western India. J. Bombay Nat. Hist. Soc., (1), 42.
 
[71]  Menéndez I, Gómez Cano AR, Cantalapiedra JL, Peláez-Campomanes P, Álvarez-Sierra MÁ, Hernández Fernández M. A multi-layered approach to the diversification of squirrels. Mammal Review. 2021 Jan; 51(1): 66-81.