Extinction Of Quaternary Mammalian Habitats Of Megafuna In Sabaragamuwa Basin, Sri Lanka
1Aravinda Ravibhanu Sumanarathna, 2Jinadasa Katupotha, 3Kamal Abeywardhana and 4Buddhika Madurapperuma
1,3 South Asian Astrobiology & Palaeobiology Research Unit of Eco Astronomy Sri Lanka
2 Department of Geography,University of Sri Jayewardenepura, Sri Lanka
1 Faculty of Environment & Natural Science University of Southampton,United Kingdom
4 Department of Forestry and Wildland Resources, Humboldt State University, Arcata, CA, USA
*Please cite this article in press as: Sumanarathna, A.R., et al., EXTINCTION OF QUATERNARY MAMMALIAN HABITATS OF MEGAFAUNA IN SABARAGAMU BASIN, SRI LANKA, Journal of Eco Astronomy (2017), Vol 01, Issue 01, PP 16- 31
Publication History
Published Online : 2017-01-19
Abstract
The Quaternary period of the geographic history of the earth includes two geologic epochs viz., the Pleistocene and the Holocene. Both epochs divided the faunal stages and human cultural phases based on climate and sea level changes that took place during these periods. The Quaternary ice age began roughly about 2.58 MYO with cool and dry climate conditions. The extinct Australopithecines and many other extinct genera of mammalian mega fauna appeared during this time. Thus, the Quaternary period shows the extinctions of numerous predominantly larger, especially mammalian mega faunal species, many of them lived during the transition from the Pleistocene to the Holocene epoch. The debate on the demise of the mammalian megafauna is often characterized by two highly polarized points of view: (1) climate-induced extinction; and (2) human-induced extinction. In Pleistocene period most parts of the Northern Hemisphere of earth were covered with glaciers creating a cold climate. Due to this glacial formation the main sea level was much lower than it is today. The low sea level facilitated the connection of Sri Lanka with the Indian mainland with a land bridge. Therefore, a number of mega fauna and micro fauna were able to cross to Sri Lanka from India along this land bridge. The last land bridge was emerged around 7500 years BP. During the Pleistocene Period Sri Lanka experienced heavy rainfall causing the emergence of rain forest in the country. The heavy rainfall in the Sabaragamu Basin also provided habitats for a number of marsh loving animals including mammals. However, at the end of the Pleistocene epoch, drastic climatic changes were occurred resulting in the extinction of a number of animal taxa. Pleistocene fauna in Sri Lanka is known as Rathnapura Fauna. Their fossils are found in alluvial deposits in the Sabaragamu basins
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References
Chauhan, P.R.2008,Large mammal fossil occurrences and associated archaeological evidence
in Pleistocene contexts of peninsular India and Sri Lanka (abs). Quaternary
International,192: 1,20-42.
Corbel, G.B &Hill,J.E. 1992,The Mammals of the Indo Mala Yan Region: A Systematic
Review. Natural History Museum Publications, Oxford University Press.
Daniel,B. F.2011,Quaternary. 2011. In ENCYCLOPÆDIA BRITANNICA. Retrieved from
http://www.britannica.com/EBchecked/topic/486563/Quaternary.
Deraniyagala, P. E. P. 1958, The Pleistocene of Ceylon. Ceylon National Museums, Colombo.
ix+164 pp., 58 pl.
Deraniyagala, P. E. P. 1963,Some mammals of the extinct Ratnapura Fauna of Ceylon PartV,
with reconstructions of the hippopotamus and the gaur. Spolia Zeylanica, 30: 5–25, pls. 1–5.
Deraniyagala, S. U. 1992,The prehistory of Sri Lanka: an ecological perspective. Memoir 8,
o 2nd ed. Archaeological Department, Colombo. 813 pp.
Deraniyagala, S. U. 2001,The prehistory of Sri Lanka: an ecological perspective: Addendum
1B. www.the-prehistory-of-sri-lanka.de, accessed 15 Feb.2005.
Deraniyagala, S. U. 2004,Prehistoric basis for the rise of civilization in Sri Lanka and
southern India. Sri Lanka Deputy High Commission in Chennai. 28 pp.
Deraniyagala, P.E.P.1955, Some extict elephants, their relatives and the two living species,
Director of Museum Ceylon
Deraniyagala P.E.P. 1955, Some extict elephants,their relatives and the two living Species,
Director of Museum Ceylon.
Desa, M., Ramana, M.V., &Ramprasad, T. 2006,Seafloor spreading magnetic anomalies
south off Sri Lanka. Marine Geology30: 227-240.
Garmin 30 satellite based navigation system 2010, http://www.garmin.com/us/maps.2013.
Gary, H.2007,A review of some attacks on the overkill hypothesis, with special attention to
misrepresentations and doubletalk. Quaternary International, 169–170: 84–94.
Hendavitharana W., Dissanayake S., de Silva M., and Santiaplllai C. 1994. The Survey of
Elephants in Sri Lanka.Gajah – Journal of theAsian Elephant Specialist Group. 12: JUNE
1994
Hemmer, H. 1987,The phylogeny of the tiger (Panthera tigris). Pp 28-35 in R.L. Tilson
&U.S. Seal, (eds). Tigers of the world: The Biology, Biopolitics, Management, and
Conservation of an Endangered Species. Noyes, Park Ridge, New Jersey.
IUCN &MOENR.2007,The 2007 Red List of Threatened Fauna and Flora of Sri Lanka. This publication has been jointly prepared by The World Conservation Union (IUCN) in Sri Lanka and the Ministry of Environment and Natural Resources (MOENR).
Norman, A.,Bassam A.,&von Khalaf-Sakerfalke J. T., 2008,The Sri Lanka leopard (Panthera
pardus kotiya, Deraniyagala 1956.), The Palestinian Biological Bulletin. Number 76, April
2008.
Lamar, A. T.2009,A Geochemical Paleoecological Analysis of Miocene Mammalian Mega
Fauna of Fort Polk, Louisiana. A Thesis Submitted to the Graduate Faculty of they of the
Louisiana State University and Agricultural and Mechanical College, 2006-2009.
International Chronostratigaphic Chart 2015,www.stratigraphy.org
Image Landsatdata, 2013. SIO.NOAA,UsNavy,NGA,GEBCO with import gramin 30 way
points.
Katupotha, J. 1995,Evolution and geological significance of Holocene emerged shell beds on
the southern coastal zone of Sri Lanka. Journal of Coastal Research, 11: 4, 1042-1061.
Katupotha J. 2013,Palaeoclimate change during Glacial Periods: Evidence from Sri Lanka .
Journal of Tropical Forestry and Environment 3:01,42-54.
Landsat data, 2013 image SIO.NOAA, UsNavy, NGA,GEBCO with import gramin 30 way
points.
Manamendra-Arachchi, K. R. Pethiyagoda, Dissanayake,R. & Meegaskumbura M. 2005, A
second extinct big cat from the late quarternary of Sri Lanka.In:Yeo, D.C.J., K.L.Ng & R.
pethiyagoda (eds.) Contribution to biodiversity exploration and research in Sri Lanka.The
Raffles Bulletine of Zoology , 12: 423-434.
Manamendra-Arachchi, K.N. 2012,Nuthana manayawa “Apprikawen nikmayana niyaaya”
saha Bundala pathirajawela.Welipila Archaeological magazine 8: Central cultural Fund pp.
23 -36.
Olaf, B.R. P.,Marcel, C. Kate, J. E.,Ross, M.D.E.,Beck, B. M. D. R., Richard, G.,Samantha,
P.A.,Rutger, V.A., John,G.L. & Andy, P..2007, The delayed rise of present-day mammals.
nature,446:.
Robin. G.2004,Examining the extinction of the Pleistocene Megafauna
STANFORD UNDERGRADUATE RESEARCH JOURNAL, 22-27.
Sumanarathna, A.R., Pathmakumara, J., Abyewardanana, K., &Sudasinghe, A. 2015,
Paleontological evidences of Pleistocene, interpret the coming of intelligence &harbor life of
planet earth. International Journal of Advance Research in Science, Engineering &
Technology, 2: 11, 1063-1070.
Sumanarathna, A.R., Pathmakumara, J., Abyewardanana, K. &Sudasinghe, A., 2016, Eco
Astronomy & Paleontology May Interpret the Harbored Life of the Planet Earth; A Study
from Sri Lanka. The Royal Asiatec Society of Sri Lanka, Annual Research Conference 2016.
pp 61.
Sumanarathna, A., Madurapperuma, B., Kuruppuarachchi, J., et al. (2016). Morphological
Variation and Speciation of Acavidae Family: A Case Study from Fossil and Living Species
of Batadombalena Cave Pre-historic Site in Sri Lanka. Annals of Valahia University of
Targoviste, Geographical Series, 16(2), pp. 59-68. Retrieved 11 Nov. 2016, from
doi:10.1515/avutgs-2016-0005