Browsing by Author "Kopalakrishnan, K."
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Item A Study on Evolution of Koggala Lagoon during the Holocene(Uva Wellassa University of Sri Lanka, 2013) Kopalakrishnan, K.; Ranasinghe, P. N.Climate change will have significant impacts on the oceans and on the coastal zone at a global scale. It will introduce new hazards and increase existing hazard potential, both with respect to magnitude and frequency of occurrence, in coastal regions. The hazards would be sea level rise, storm and tsunami events. Sea level rise is one of the major problems experienced by many nations including Sri Lanka Sediment entrainment in the coastal environment is changed according to the climate changes. So their sedimentation rates also change, depending on the type and its magnitude. Therefore, the past depositional environments of sediments and their provenance can be identified by studying the physical, chemical, biological and textural properties of sediments preserved in coastal environments. This helps to understand the past environmental changes, which can also be expressed as “studying the paleo-coastal environmental evolution”. Indeed this evolutionary history can be used to interpret past and future environmental aspects in order to build a more comprehensive framework to understand the behavior of the natural system. This study attempts modeling the evolution of the Koggala Lagoon in Southern Sri Lanka in the said context. Methodology Two continuous sediment cores KG 1 and KG 2 were extracted from the Koggala Lagoon. KG 1 was extracted closer to the sea side (1100 m) and KG 2 further 1900m inland from the sea. Both cores were logged and photographed. Organic matter content was analyzed by Loss on Ignition (LOI) method and dry sand percentage was calculated by wet sieving with 63 μm sieve. Geochemical variation of sediment cores was analyzed using handheld X-ray fluorescence analyzer (Bruker S1). Gamma ray intensity and concentration were analyzed using gamma ray spectrometer for the two cores. Sub-samples taken from different depositional environments and recognized events were identified through the binocular polarized microscope. Data were plotted using Pan Plot software. The ages for the boundaries of mid-Holocene sea level variations and recognized events were approximately calculated using the published regional age models equation (Ranasingheet al., 2013.).Item Studying the Paleo - Environmental Evolution of Koggala Lagoon in Galle During the Holocene.(Uva Wellassa University of Sri Lanka, 2013) Kopalakrishnan, K.Due to the flooding of coastal areas, the coastal resources of Sri Lanka would be affected significantly by sea level rise. According to statistics the population is being increased in coastal areas especially, in the Wet zone, which has caused tremendous commercial and industrial growth and has put pressure on the coastal resources. Therefore, the impacts of sea level rise and sudden events of natural hazards are particularly significance in the Sothern and South-western coastal areas. Therefore, the protection of the coastal resources is absolutely necessary which was gratified through this research. This helps to understand the past environmental behavior of coastal ecosystem, which can also be expressed as "studying the paleo-coastal environmental evolution". Indeed this evolutionary history can be used to interpret past and future environmental aspects in order to build a more strengthen present and a future for living beings. Two continuous sediment cores KG 1 and KG 2 were extracted from the Koggala lagoon, situated on the southern coasts of Sri Lanka. Physical and chemical variations in sediments, caused by the coastal environmental changes occurred due to fluctuating eustatic sea level, were determined using X-ray fluorescence, gamma ray spectrometer, Organic matter content and dry sand percentage. The ages for the boundaries of mid Holocene sea level variations and recognized events were approximately calculated using the published regional age models Fquation (Ranasinghe et al., 2013.). Results suggest there were three different Units were identified. Unit II shows evidence of Holocene marine transgression occurred between about —5600 yrs BP and —2200 yrs BP while Units I and Units III consist of terrigenous conditions. There are three tsunamis except 2004, were identified according to the results in the depth of 180 cm, 136 cm and 116 cm in both KG 1 and KG 2. The ages of the previous hazards were respectively —5500 yrs BP, —4500 yrs BP and —4000 yrs BP.