Your search keyword '"Komali Kantamaneni"' showing total 3 results

1. Faculty Development Programme on Transdisciplinary Research (Virtual)

Author

Sigamani Panneer, Komali Kantamaneni, Lovelina Little Flower FX, Hilaria Soundari, LEKHA BHAT, Tresa Sugirtha J, Santhosh JS, VIGNESHWARAN S A, Mhadeno Y Humtsoe, Jeyabaskaran S, and Samuel Paul Raj

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2021

2. Assessing coastal vulnerability: Development of a combined physical and economic index

Author

Matthew R. Phillips, R.E. Jenkins, Komali Kantamaneni, and T. Thomas

Subjects

Shore, geography, Index (economics), geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Vulnerability index, business.industry, media_common.quotation_subject, Environmental resource management, Vulnerability, Climate change, 010501 environmental sciences, Management, Monitoring, Policy and Law, Aquatic Science, Oceanography, 01 natural sciences, Vulnerability assessment, Psychological resilience, business, Coastal management, 0105 earth and related environmental sciences, media_common

Abstract

As a consequence of climate change, coastal communities worldwide are subject to increased risk from sea-level rise and more intense storms. Therefore, it is important for coastal managers to have focused site specific data on present and predicted climate change impacts in order to determine shoreline vulnerability. There are few UK studies that characterise coastal vulnerability, while nearly all global work has concentrated on geomorphological and to a lesser extent, socio-economic aspects. In response, the present study developed a new Physical Coastal Vulnerability Index (PCVI) and applied it to eleven UK sites, seven in England, three in Wales and one in Scotland. PCVI results were then compared and contrasted with a new Fiscal Coastal Vulnerability Index (FCVI), which enabled coastal areas to be visually classified in one of four categories to inform relative risk. Both indices were subsequently integrated into a Combined Coastal Vulnerability Index (CCVI). Results showed that Great Yarmouth and Aberystwyth were highly vulnerable, while Llanelli and Lynmouth were least vulnerable, and the importance of integrating both indices is demonstrated by modified overall vulnerability assessments. Therefore, CCVI provides a simple to use shoreline monitoring tool which is particularly suitable for assessment of risk. The indices support coastal planning, including intervention or no active intervention policies, and thereby benefitting a range of stakeholders. CCVI works at local, regional and international scales, and identifies vulnerable locations. Consequently, these indices will inform management strategies to improve coastal resilience under various sea level rise and climate change scenarios.

Published

2018

3. Assessment of groundwater vulnerability using integrated remote sensing and GIS techniques for the West Bengal coast, India

Author

N. N. V. Sudha Rani, A. N. V. Satyanarayana, Prasad K. Bhaskaran, Louis Rice, and Komali Kantamaneni

Subjects

0207 environmental engineering, India, Storm surge, Climate change, Aquifer, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Environmental Chemistry, Saltwater intrusion, 020701 environmental engineering, Groundwater, 0105 earth and related environmental sciences, Water Science and Technology, Hydrology, geography, geography.geographical_feature_category, Anhydrite, Elevation, chemistry, Remote Sensing Technology, Geographic Information Systems, Environmental science, Tropical cyclone, Environmental Monitoring

Abstract

Groundwater in the coastal districts of West Bengal, India is highly susceptible to various factors such as over-pumping, variations in rainfall, lower elevation and risk due to sea level rise. In addition to these factors, tropical cyclone induced storm surge and saltwater intrusion also induce potential risks to the quality of the coastal aquifers. There are several knowledge gaps, as many of these factors have not previously been systematically and rigorously analysed; furthermore, up-to-date information is either unavailable or insufficient. Accordingly, the present study analysed the groundwater vulnerability during the pre- and post-monsoon months for the period from 2001 to 2010 at three main coastal districts of West Bengal: East Midnapore, South 24 Parganas and North 24 Parganas (administrative regions). The GALDIT index-based model was employed to assess salt-water intrusion into the groundwater using Geographic Information System (GIS). Spatial distribution maps were also generated to identify highly vulnerable groundwater locations. Map removal and single parameter sensitivity analyses were performed to understand the sensitivity of the parameters. The study reveals that the depth of ground-water levels for the three districts increased and also the rainfall exerts a significant effect on the groundwater depth. The chemical constituents TDS and chloride contents in groundwater during the period 2004 to 2010 were analysed. The average TDS range values for pre- and post-monsoon seasons were observed to vary in the range between 100 and 3874 mg/l and 83–1929 mg/l respectively. Reports indicate that, groundwater in the area is highly saturated with iron containing minerals like Fe(OH)3, goethite, and hematite and is also moderately saturated with the calcite, chalcedony, dolomite and quartz, whereas under-saturated with anhydrite and gypsum. The implications of the research points to the urgent need for remedial action and appropriate responses at policy-level to protect groundwater.

Published

2021