Climate and Environmental Changes in Northeastern Thailand - The Record of Lake Pa Kho.

Haque, Md Al Mamunul

January 2012

Lake Pa Kho is a fresh water lake in Northeastern Thailand, where the East Asian summer monsoon prevails. The monsoon climate and associated variability has tremendous impacts on the life and environmental aspects of the region. In this study, climate and palaeo-environmental history of Lake Pa Kho has been extracted from geochemical proxy indices during the Holocene time. Geochemical variables like total organic carbon (TOC), total nitrogen (TN), atomic Carbon-Nitrogen ratio (C/N) of organic matter, stable isotope fractionations (δ13C, δ15N, δ34S) and radiocarbon 14C dating of the lake sedimentary core samples were analyzed during the past >7000 cal yr BP in terms of palaeo-climate interpretation. The Loss-on-ignition (LOI%) curve, TOC% value, higher C/N ratio indicate that organic materials in lake sediments has been mostly derived from terrestrial sources. δ13C value supports the terrestrial source of organic matter. TN% and δ15N value indicate low organic productivity in the lake. δ34S value indicate possible anoxic condition in the bottom of the lake due to lowering water level. Lower Aquatic productivity and deposition of organic material from terrestrial sources show that the lake was shallow and dry climate condition prevailed at ~7000 to 2000 cal yr BP due to weak monsoon precipitation. Moreover, monsoon played a significant role in controlling the lake level and overall Aquatic productivity. Progressive lowering of water level due to a lack in precipitation might have transformed the lake into a wetland and subsequently into a peatland at around 1500 cal yr BP. A possible explanation for the gradual shift up to 200 cal yr BP might be invasion of terrestrial vegetation from the surrounding catchment sources due to weak monsoon intensity.

Civil Engineering

Samhällsbyggnadsteknik

Interannual Variation of Monsoon in a High Resolution AGCM with Climatological SST Forcing

Ghosh, Rohit

January 2013

Interannual variation of Indian summer (June-September: JJAS) monsoon rainfall (ISMR) depends on its relative intensity during early (June-July: JJ; contribution 52%) and late (August-September: AS; contribution 49%) phases. Apart from variations in sea surface temperature (SST), the primary reasons behind the variability during JJ and AS can be very different due to change in climatic conditions on account of post-onset processes. Here, using a high resolution general circulation model with seasonally varying climatological SST, mechanisms those govern the intensity of rainfall during JJ and AS are investigated. There is no significant relation-ship between intensity of precipitation over Indian region in JJ and AS. Moreover, the factors determining early monsoon (JJ) precipitation are different than that for late monsoon (AS). In absence of interannual SST variation, pre-monsoon soil moisture do not play a significant role for the interannual variation of monsoon precipitation over India. A large scale oscillation of the ITCZ is noticed on interannual time scale spanning from around 60◦E to 150◦E that brings spatially coherent flood and drought over this region. Early monsoon precipitation has a larger dependency on spring snow depth over Eurasia and phase of the upper tropospheric Rossby wave in May. However, late monsoon precipitation over India is mainly governed by the intensity and time scale of the intraseasonally varying convective cloud bands. This study suggests that early monsoon (JJ) precipitation over Indian region is more correlated with pre-monsoon signatures of land-atmosphere parameters. However, in later parts after the onset (AS), the monsoon intensity is primarily driven by its internal dynamics and characteristics of intraseasonal oscillation.

Monsoon - Interannual Variation

Climatological Sea Surface Temperature

Monsoon Rainfall - Summer - India

Monsoon Precipitation - India

Pre-Monsoon Soil Moisture

Monsoon Variability

Monsoon Circulation Model

Intraseasonal Oscillation

Atmsopheric and Oceanic Sciences