TY - JOUR
T1 - Holocene evolution and Anthropocene destruction of the Krishna Delta on the east coast of India
T2 - Delta lobe shifts, human impacts, and sea-level history
AU - Nageswara Rao, Kakani
AU - Saito, Yoshiki
AU - Naga Kumar, K. Ch V.
AU - Kubo, Sumiko
AU - Pandey, Shilpa
AU - Li, Zhen
AU - Demudu, G.
AU - Rajawat, A. S.
N1 - Funding Information:
This work was supported by PRACRITI project Grant Number SAC/RESA/PRACRITI/ESHD/SLR/WP02/2010 (2010−2013) and DMSP project Grant Number SAC/EPSA/MPSG/DMSP/CV/WP/02/2012 (2013–2015) both funded by Space Applications Centre, Indian Space Research Organisation, Department of Space , Government of India (KNR), the Sumitomo Foundation Grant Number 113172 , and JSPS G8-RCI & BF project DELT As Grant Number G8MUREFU3FP-2201-037 (YS), JSPS KAKENHI Grant Number 24401005 (SK), JSPS KAKENHI Grant Number JP 17H02980 (YS) and the Ministry of Science and Technology, China, Grant Number SKLEC-009KYYN02 (ZL). We thank the Director, Birbal Sahni Institute of Palaeosciences, Lucknow, India for facilitating the pollen analysis. We are grateful to Prof. Edward Anthony, Editor-in-Chief, Prof. Steven Goodbred, Guest Editor and the two anonymous reviewers for their constructive comments and suggestions, which greatly helped in improving the manuscript.
Funding Information:
This work was supported by PRACRITI project Grant Number SAC/RESA/PRACRITI/ESHD/SLR/WP02/2010 (2010?2013) and DMSP project Grant Number SAC/EPSA/MPSG/DMSP/CV/WP/02/2012 (2013?2015) both funded by Space Applications Centre, Indian Space Research Organisation, Department of Space, Government of India (KNR), the Sumitomo Foundation Grant Number 113172, and JSPS G8-RCI & BF project DELTAs Grant Number G8MUREFU3FP-2201-037 (YS), JSPS KAKENHI Grant Number 24401005 (SK), JSPS KAKENHI Grant Number JP 17H02980 (YS) and the Ministry of Science and Technology, China, Grant Number SKLEC-009KYYN02 (ZL). We thank the Director, Birbal Sahni Institute of Palaeosciences, Lucknow, India for facilitating the pollen analysis. We are grateful to Prof. Edward Anthony, Editor-in-Chief, Prof. Steven Goodbred, Guest Editor and the two anonymous reviewers for their constructive comments and suggestions, which greatly helped in improving the manuscript.
Publisher Copyright:
© 2020 Elsevier B.V.
PY - 2020/9
Y1 - 2020/9
N2 - The Holocene evolution of the Krishna Delta was inferred using landform characteristics and 11 sediment cores with 59 Accelerator Mass Spectrometry 14C dates. The landform assemblages in a 5880 km2 area of the Krishna Delta indicate an upper (landward) river-built fluvial plain and a lower (seaward) marine-built beach-ridge plain. Holocene sediment unconformably overlying a Pleistocene basement consists of 11 sedimentary facies, mainly shallowing-upward and deltaic succession. Sea level indicators such as the basal mangrove peat layers above the Pleistocene basement and the foreshore sediments indicate that the sea level rose from −9 m to −3 m during 8.3–6.3 cal ky BP, and stabilised at the present level around 5 cal ky BP. The 3539 km2 area of the Krishna Delta beach-ridge plain developed in five major stages during the last 6 cal ky, with distinct lateral and seaward migration of delta lobes (depocentre shifts). Delta progradation accelerated in the last 500 years, forming an out-building lobate delta. However, predominant erosion along the sediment-starved coast during the past five decades, due to impoundment of riverine inputs at the burgeoning upstream dams, has pushed the Krishna Delta into a persistent destruction phase.
AB - The Holocene evolution of the Krishna Delta was inferred using landform characteristics and 11 sediment cores with 59 Accelerator Mass Spectrometry 14C dates. The landform assemblages in a 5880 km2 area of the Krishna Delta indicate an upper (landward) river-built fluvial plain and a lower (seaward) marine-built beach-ridge plain. Holocene sediment unconformably overlying a Pleistocene basement consists of 11 sedimentary facies, mainly shallowing-upward and deltaic succession. Sea level indicators such as the basal mangrove peat layers above the Pleistocene basement and the foreshore sediments indicate that the sea level rose from −9 m to −3 m during 8.3–6.3 cal ky BP, and stabilised at the present level around 5 cal ky BP. The 3539 km2 area of the Krishna Delta beach-ridge plain developed in five major stages during the last 6 cal ky, with distinct lateral and seaward migration of delta lobes (depocentre shifts). Delta progradation accelerated in the last 500 years, forming an out-building lobate delta. However, predominant erosion along the sediment-starved coast during the past five decades, due to impoundment of riverine inputs at the burgeoning upstream dams, has pushed the Krishna Delta into a persistent destruction phase.
KW - Beach-ridge plain
KW - Coastal erosion
KW - Delta lobes
KW - Pleistocene–Holocene unconformity
KW - Sedimentary facies
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U2 - 10.1016/j.margeo.2020.106229
DO - 10.1016/j.margeo.2020.106229
M3 - Article
AN - SCOPUS:85085215919
SN - 0025-3227
VL - 427
JO - Marine Geology
JF - Marine Geology
M1 - 106229
ER -
