TY  - JOUR
A1  - Mishra, Praveen Kumar
A1  - Prasad, Sushma
A1  - Marwan, Norbert
A1  - Anoop, A.
A1  - Krishnan, R.
A1  - Gaye, Birgit
A1  - Basavaiah, N.
A1  - Stebich, Martina
A1  - Menzel, Philip
A1  - Riedel, Nils
T1  - Contrasting pattern of hydrological changes during the past two millennia from central and northern India
BT  - regional climate difference or anthropogenic impact?
JF  - Global and planetary change
N2  - High resolution reconstructions of the India Summer Monsoon (ISM) are essential to identify regionally different patterns of climate change and refine predictive models. We find opposing trends of hydrological proxies between northern (Sahiya cave stalagmite) and central India (Lonar Lake) between 100 and 1300 CE with the strongest anti-correlation between 810 and 1300 CE. The apparently contradictory data raise the question if these are related to widely different regional precipitation patterns or reflect human influence in/around the Lonar Lake. By comparing multiproxy data with historical records, we demonstrate that only the organic proxies in the Lonar Lake show evidence of anthropogenic impact. However, evaporite data (mineralogy and delta O-18) are indicative of precipitation/evaporation (P/E) into the Lonar Lake. Back-trajectories of air-mass circulation over northern and central India show that the relative contribution of the Bay of Bengal (BoB) branch of the ISM is crucial for determining the delta O-18 of carbonate proxies only in north India, whereas central India is affected significantly by the Arabian Sea (AS) branch of the ISM. We conclude that the delta O-18 of evaporative carbonates in the Lonar Lake reflects P/E and, in the interval under consideration, is not influenced by source water changes. The opposing trend between central and northern India can be explained by (i) persistent multidecadal droughts over central India between 810 and 1300 CE that provided an effective mechanism for strengthening sub-tropical westerly winds resulting in enhancement of wintertime (non-monsoonal) rainfall over northern parts of the Indian subcontinent, and/or (ii) increased moisture influx to northern India from the depleted BoB source waters.
KW  - ENSO
KW  - Isotopes
KW  - Indian summer monsoon
KW  - Lonar Lake
KW  - Stalagmites
KW  - Westerlies
Y1  - 2017
U6  - https://doi.org/10.1016/j.gloplacha.2017.12.005
SN  - 0921-8181
SN  - 1872-6364
VL  - 161
SP  - 97
EP  - 107
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Mishra, Praveen Kumar
A1  - Prasad, Sushma
A1  - Anoop, A.
A1  - Plessen, Birgit
A1  - Jehangir, Arshid
A1  - Gaye, Birgit
A1  - Menzel, Philip
A1  - Weise, Stephan M.
A1  - Yousuf, Abdul R.
T1  - Carbonate isotopes from high altitude Tso Moriri Lake (NW Himalayas) provide clues to late glacial and Holocene moisture source and atmospheric circulation changes
JF  - Palaeogeography, palaeoclimatology, palaeoecology : an international journal for the geo-sciences
N2  - High resolution isotopic (delta O-18 and delta C-13) investigations on endogenic carbonates (calcite/aragonite) from Tso Moriri Lake, NW Himalaya show dramatic fluctuations during the late glacial and the early Holocene, and a persistent enrichment trend during the late Holocene. Changes in this lake are largely governed by the [input (meltwater + monsoon precipitation)/evaporationj (WE) ratio, also reflected in changes in the carbonate mineralogy with aragonite being formed during periods of lowest I/E. Using new isotopic data on endogenic carbonates in combination with the available data on geochemistry, mineralogy, and reconstructed mean annual precipitation, we demonstrate that the late glacial and early Holocene carbonate delta O-18 variability resulted from fluctuating Indian summer monsoon (ISM) precipitation in NW Himalaya. This region experienced increasing ISM precipitation between ca. 13.1 and 11.7 cal ka and highest ISM precipitation during the early Holocene (11.2-8.5 cal ka). However, during the late Holocene, evaporation was the dominant control on the carbonate delta O-18. Regional comparison of reconstructed hydrological changes from Tso Moriri Lake with other archives from the Asian summer monsoon and westerlies domain shows that the intensified westerly influence that resulted in higher lake levels (after 8 cal ka) in central Asia was not strongly felt in NW Himalaya. (C) 2015 Elsevier B.V. All rights reserved.
KW  - Carbonates
KW  - Holocene
KW  - Indian summer monsoon
KW  - Isotopes
KW  - Tso Moriri Lake
Y1  - 2015
U6  - https://doi.org/10.1016/j.palaeo.2015.02.031
SN  - 0031-0182
SN  - 1872-616X
VL  - 425
SP  - 76
EP  - 83
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Mishra, Praveen Kumar
A1  - Anoop, Ambili
A1  - Schettler, Georg
A1  - Prasad, Sushma
A1  - Jehangir, Arshid
A1  - Menzel, Peter
A1  - Naumann, Rudolf
A1  - Yousuf, A. R.
A1  - Basavaiah, Nathani
A1  - Deenadayalan, Kannan
A1  - Wiesner, Martin G.
A1  - Gaye, Birgit
T1  - Reconstructed late Quaternary hydrological changes from Lake Tso Moriri, NW Himalaya
JF  - Quaternary international : the journal of the International Union for Quaternary Research
N2  - We present the results of our investigations on the radiocarbon dated core sediments from the Lake Tso Moriri, NW Himalaya aimed at reconstructing palaeohydrological changes in this climatically sensitive region. Based on the detailed geochemical, mineralogical and sedimentological analysis, we recognise several short-term fluctuations superimposed upon seven major palaeohydrological stages identified in this lake since similar to 26 cal ka. Stage I (>20.2 cal ka): shallow lake characterised by input of coarse-grained detrital sediments; Stage II (20.2-16.4 cal ka): lake deepening and intensification of this trend ca. 18 cal ka; Stage III (16.4-11.2 cal ka): rising lake levels with a short term wet phase (13.1-11.7 cal ka); Stage IV (11.2-8.5 cal ka): early Holocene hydrological maxima and highest lake levels inferred to have resulted from early Holocene Indian monsoon intensification, as records from central Asia indicate weaker westerlies during this interval; Stage V (8.5-5.5 cal ka): mid-Holocene climate deterioration; Stage VI (5.5-2.7 cal ka): progressive lowering of lake level; Stage VII (2.7-0 cal ka): onset of modern conditions. The reconstructed hydrological variability in Lake Tso Moriri is governed by temperature changes (meltwater inflow) and monsoon precipitation (increased runoff). A regional comparison shows considerable differences with other palaeorecords from peninsular India during late Holocene. (C) 2014 Elsevier Ltd and INQUA. All rights reserved.
KW  - Authigenic carbonates
KW  - Holocene
KW  - Indian summer monsoon
KW  - Lake sediments
KW  - Tso Moriri Lake
KW  - Westerlies
Y1  - 2015
U6  - https://doi.org/10.1016/j.quaint.2014.11.040
SN  - 1040-6182
SN  - 1873-4553
VL  - 371
SP  - 76
EP  - 86
PB  - Elsevier
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Prasad, Sushma
A1  - Anoop, A.
A1  - Riedel, N.
A1  - Sarkar, Saswati
A1  - Menzel, P.
A1  - Basavaiah, Nathani
A1  - Krishnan, R.
A1  - Fuller, D.
A1  - Plessen, Birgit
A1  - Gaye, B.
A1  - Roehl, U.
A1  - Wilkes, H.
A1  - Sachse, Dirk
A1  - Sawant, R.
A1  - Wiesner, M. G.
A1  - Stebich, M.
T1  - Prolonged monsoon droughts and links to Indo-Pacific warm pool: A Holocene record from Lonar Lake, central India
JF  - Earth & planetary science letters
N2  - Concerns about the regional impact of global climate change in a warming scenario have highlighted the gaps in our understanding of the Indian Summer Monsoon (ISM, also referred to as the Indian Ocean summer monsoon) and the absence of long term palaeoclimate data from the central Indian core monsoon zone (CMZ). Here we present the first high resolution, well-dated, multiproxy reconstruction of Holocene palaeoclimate from a 10 m long sediment core raised from the Lonar Lake in central India. We show that while the early Holocene onset of-intensified monsoon in the CMZ is similar to that reported from other ISM records, the Lonar data shows two prolonged droughts (PD, multidecadal to centennial periods of weaker monsoon) between 4.6-3.9 and 2-0.6 cal ka. A comparison of our record with available data from other ISM influenced sites shows that the impact of these PD was observed in varying degrees throughout the ISM realm and coincides with intervals of higher solar irradiance. We demonstrate that (i) the regional warming in the Indo-Pacific Warm Pool (IPWP) plays an important role in causing ISM PD through changes in meridional overturning circulation and position of the anomalous Walker cell; (ii) the long term influence of conditions like El Nino-Southern Oscillation (ENSO) on the ISM began only ca. 2 cal ka BP and is coincident with the warming of the southern IPWP; (iii) the first settlements in central India coincided with the onset of the first PD and agricultural populations flourished between the two PD, highlighting the significance of natural climate variability and PD as major environmental factors affecting human settlements.
KW  - Indian summer monsoon
KW  - ENSO
KW  - prolonged droughts
KW  - Holocene
KW  - Lonar Lake
Y1  - 2014
U6  - https://doi.org/10.1016/j.epsl.2014.01.043
SN  - 0012-821X
SN  - 1385-013X
VL  - 391
SP  - 171
EP  - 182
PB  - Elsevier
CY  - Amsterdam
ER  -