Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.

Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.

The coastal lands of southern Kerala, SW India in the vicinity of Achankovil and Thenmala Shear Zones reveal a unique set of geomorphic features like beach ridges, runnels, chain of wetlands, lakes, estuaries, etc. The chain of wetlands and water bodies that are seen in the eastern periphery of the...

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Main Authors: Maya K, Vishnu Mohan S, Ruta B Limaye, Damodaran Padmalal, Navnith K P Kumaran
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5415200?pdf=render
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spelling doaj-e5e733e0bd5047f1b9ff77546e0bfd462020-11-25T01:14:48ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01125e017677510.1371/journal.pone.0176775Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.Maya KVishnu Mohan SRuta B LimayeDamodaran PadmalalNavnith K P KumaranThe coastal lands of southern Kerala, SW India in the vicinity of Achankovil and Thenmala Shear Zones reveal a unique set of geomorphic features like beach ridges, runnels, chain of wetlands, lakes, estuaries, etc. The chain of wetlands and water bodies that are seen in the eastern periphery of the coastal lands indicates the remnants of the upper drainage channels of the previously existed coastal plain rivers of Late Pleistocene age that are later broadened due to coastal erosion under the transgressive phase. The terrain evolutionary model developed from the results of the study shows that the Late Pleistocene transgressive events might have carved out a major portion of the land areas drained by the coastal plain rivers and as a result the coastal cliff has been retreated several kilometers landwards. The NNE-SSW trending beach ridges located close to the inland wetlands indicate the extent of shoreline shift towards eastwards during Late Pleistocene period. The present beach parallel ridges in the younger coastal plain indicate the limit of the Mid Holocene shoreline as the transgression was not so severe compared to Late Pleistocene event. The zone of convergence of the two sets of beach ridges coincides with the areas of economically viable heavy mineral placers that resulted from the size and density based sorting under the repeated transgressive events to which the coast had subjected to. The chain of wetlands in the eastern side of the study area has been evolved from a mega lagoon existed during Late Pleistocene. The Pallikkal River that links discrete eastern wetland bodies has been evolved into its present form during Early Holocene.http://europepmc.org/articles/PMC5415200?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Maya K
Vishnu Mohan S
Ruta B Limaye
Damodaran Padmalal
Navnith K P Kumaran
spellingShingle Maya K
Vishnu Mohan S
Ruta B Limaye
Damodaran Padmalal
Navnith K P Kumaran
Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.
PLoS ONE
author_facet Maya K
Vishnu Mohan S
Ruta B Limaye
Damodaran Padmalal
Navnith K P Kumaran
author_sort Maya K
title Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.
title_short Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.
title_full Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.
title_fullStr Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.
title_full_unstemmed Geomorphic response to sea level and climate changes during Late Quaternary in a humid tropical coastline: Terrain evolution model from Southwest India.
title_sort geomorphic response to sea level and climate changes during late quaternary in a humid tropical coastline: terrain evolution model from southwest india.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description The coastal lands of southern Kerala, SW India in the vicinity of Achankovil and Thenmala Shear Zones reveal a unique set of geomorphic features like beach ridges, runnels, chain of wetlands, lakes, estuaries, etc. The chain of wetlands and water bodies that are seen in the eastern periphery of the coastal lands indicates the remnants of the upper drainage channels of the previously existed coastal plain rivers of Late Pleistocene age that are later broadened due to coastal erosion under the transgressive phase. The terrain evolutionary model developed from the results of the study shows that the Late Pleistocene transgressive events might have carved out a major portion of the land areas drained by the coastal plain rivers and as a result the coastal cliff has been retreated several kilometers landwards. The NNE-SSW trending beach ridges located close to the inland wetlands indicate the extent of shoreline shift towards eastwards during Late Pleistocene period. The present beach parallel ridges in the younger coastal plain indicate the limit of the Mid Holocene shoreline as the transgression was not so severe compared to Late Pleistocene event. The zone of convergence of the two sets of beach ridges coincides with the areas of economically viable heavy mineral placers that resulted from the size and density based sorting under the repeated transgressive events to which the coast had subjected to. The chain of wetlands in the eastern side of the study area has been evolved from a mega lagoon existed during Late Pleistocene. The Pallikkal River that links discrete eastern wetland bodies has been evolved into its present form during Early Holocene.
url http://europepmc.org/articles/PMC5415200?pdf=render
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AT vishnumohans geomorphicresponsetosealevelandclimatechangesduringlatequaternaryinahumidtropicalcoastlineterrainevolutionmodelfromsouthwestindia
AT rutablimaye geomorphicresponsetosealevelandclimatechangesduringlatequaternaryinahumidtropicalcoastlineterrainevolutionmodelfromsouthwestindia
AT damodaranpadmalal geomorphicresponsetosealevelandclimatechangesduringlatequaternaryinahumidtropicalcoastlineterrainevolutionmodelfromsouthwestindia
AT navnithkpkumaran geomorphicresponsetosealevelandclimatechangesduringlatequaternaryinahumidtropicalcoastlineterrainevolutionmodelfromsouthwestindia
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