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Shankar, R.
- Sustainability Perceptions in a Technological Institution of Higher Education in India
Abstract Views :443 |
PDF Views:167
Authors
Affiliations
1 Department of Architecture, Srinivas Institute of Technology, Velachil, Mangalore 574 143, IN
2 Department of Architecture and Planning, IIT Roorkee, Roorkee 247 667, IN
1 Department of Architecture, Srinivas Institute of Technology, Velachil, Mangalore 574 143, IN
2 Department of Architecture and Planning, IIT Roorkee, Roorkee 247 667, IN
Source
Current Science, Vol 109, No 12 (2015), Pagination: 2198-2203Abstract
Institutions of higher education serve as models for excellence in education. They also have an added responsibility in providing guidance to the community for social upliftment and environmental sustainability. The present study conducted in the Indian Institute of Technology Roorkee (IITR) examines the students' perception on the importance of sustainability to the campus. One hundred sixty-five students participated in the survey. The survey focuses on three broad categories, namely environmental, educational and research, and management factors. Environmental factors are more significant compared to management factors. Education and research is given less importance compared to environmental and management factors. Findings provide a useful extension to both the management and administrative strategies in decision-making process to improve the sustainability of the campus.Keywords
Education and Research, Environmental Parameters, Green Guidelines, Management Strategies.References
- Shaila, S. B., Mukherjee, M. and Shankar, R., Sustainability practices in Institutions of higher educational campuses in India. Kashi J. Soc. Sci., December 2012–May 2013, 2, 254–260.
- Velazquez, L., Munguia, N., Platt, A. and Taddei, J., Sustainable University: what can be the matter? J. Clean. Prod., 2006, 14, 810–819
- Wright, T. S. A., Definitions and frameworks for environmental sustainability in higher education. Higher Educ. Policy, 2002, 15(2), 105–120.
- Strandbu, A. and Krange, O., Youth and the environmental movement – symbolic inclusions and exclusions. Sociol. Rev., 2003, 51(2), 177–198.
- Plyers, G., The black block to alter activists: poles and forms Youth engagement altermondialists. Social and Political Links, 2004, 51, 123–134.
- Wright, T. S. A., University presidents’ conceptualizations of sustainability in higher education. Int. J. Sustain. Higher Educ., 2010, 11(1), 61–73.
- Mostafa, N. and Mehran, N., Assessment of sustainable university factors from the perspective of university students. J. Clean. Prod., 2013, 48, 101–107.
- Lukman, R. and Glavic, P., What are the key elements of a sustainable university? Clean Technol. Environ. Policy, 2007, 9(2), 103–114.
- Moore, J., Seven recommendations for creating sustainability education at the university level: a guide for change agents. Int. J. Sustain. Higher Educ., 2005, 6(4), 326–339.
- Stephens, J. C. and Graham, A. C., Toward an empirical research agenda for sustainability in higher education: exploring the transition management framework. J. Clean. Prod., 2010, 18(7), 611–618.
- Lozano, R. and Young, W., Assessing sustainability in university curricula: exploring the influence of student numbers and course credits. J. Clean. Prod., 2013, 49, 134–141.
- Wright, T. S. A. and Wilton, H., Facilities management directors’ conceptualizations of sustainability in higher education. J. Clean. Prod., 2010, 31, 118–125.
- Kagawa, F., Dissonance in students’ perceptions of sustainable development and sustainability: Implications for curriculum change. Int. J. Sustain. Higher Educ., 2007. 9(3), 317–338.
- Richard, E. and Adams, J. N., College students’ perceptions of campus sustainability. Int. J. Sustain. Higher Educ., 2010, 12(1), 79–92.
- Yuan, X. and Zuo, J., A critical assessment of the higher education for sustainable development from students’ perspectives – a Chinese study. J. Clean. Prod., 2013, 48, 108–115.
- Earl, C., Lawrence, A., Harris, N. and Stiller, S., The campus community and the concept of sustainability: an assessment of College of Charleston student perceptions. Chrestomathy: Annu. Rev. Undergraduate Res. Coll. Charleston, 2003, 2, 85–102.
- Mostafa, N., Shahbudin, A. S. B. M. and Amran, A. B., Barriers to achieving a sustainable university in the perspective of academicians. In The 9h Asian Academy of Management International Conference, 2011, Penang, Malaysia, pp. 402–407.
- Mital, K. V., History of Thomason College of Engineering, University of Roorkee, 1996.
- Mital, K. V., History of Roorkee University, University of Roorkee, 1997.
- Chalker-Scott, L. and Tinnemore, R., Is community-based sustainability education sustainable? A general overview of organizational sustainability in outreach education. J. Clean. Prod., 2009, 17(12), 1132–1137.
- Teacher Training Workshops in India
Abstract Views :426 |
PDF Views:174
Authors
Affiliations
1 International GeoScience Education Organisation, Bengaluru, IN
2 Weizmann Institute of Science, Rehovot, IL
3 Keele University, Keele, Staffs, ST5 5BG, GB
4 Manipal Institute of Technology, Manipal University, Manipal 576 104, IN
5 St Aloysius College (Autonomous), Mangaluru 575 003, IN
6 Karnataka State Council for Science and Technology, Indian Institute of Science Campus, Bengaluru 560 012, IN
1 International GeoScience Education Organisation, Bengaluru, IN
2 Weizmann Institute of Science, Rehovot, IL
3 Keele University, Keele, Staffs, ST5 5BG, GB
4 Manipal Institute of Technology, Manipal University, Manipal 576 104, IN
5 St Aloysius College (Autonomous), Mangaluru 575 003, IN
6 Karnataka State Council for Science and Technology, Indian Institute of Science Campus, Bengaluru 560 012, IN
Source
Current Science, Vol 112, No 06 (2017), Pagination: 1090-1093Abstract
The International GeoScience Education Organisation, Bengaluru organized three teacher training workshops in Goa, Mangaluru and Bengaluru. These workshops were organized as a pilot project to test the impact of such an approach in an Indian setting.- Estimation of Ice Thickness of the Satopanth Glacier, Central Himalaya Using Ground Penetrating Radar
Abstract Views :522 |
PDF Views:196
Authors
Affiliations
1 Department of Geology, H.N.B. Garhwal University, Srinagar Garhwal 246 174, IN
2 Indian Institute of Science and Educational Research, Pune 411 008, IN
3 The Institute of Mathematical Sciences, Chennai 600 113, IN
1 Department of Geology, H.N.B. Garhwal University, Srinagar Garhwal 246 174, IN
2 Indian Institute of Science and Educational Research, Pune 411 008, IN
3 The Institute of Mathematical Sciences, Chennai 600 113, IN
Source
Current Science, Vol 114, No 04 (2018), Pagination: 785-791Abstract
Total volume of stored ice in the Himalayan glaciers is an important quantity for water resource management of the Himalayan catchments. However, direct measurement of glacier-ice thickness is rare in the Indian Himalaya. We have estimated the ice thickness of the debris-covered Satopanth Glacier (SPG) using a ground penetrating radar (GPR). Multiple bistatic, unshielded antennae with frequencies of 16, 20, 40 and 80 MHz were used for this purpose. We have done GPR surveys at various locations over the ablation zone of SPG. However, satisfactory results were obtained only on two transects. Near the glacier snout, a transverse GPR profile shows an ice thickness of 38 ± 3.5–50 ± 3.5 m. We have obtained 98 ± 7–112 ± 7 m ice thickness at a longitudinal transect in the upper ablation zone. To measure the speed of the radar waves in ice, a common midpoint survey was carried out. Our results for the speed of the electromagnetic waves are slightly lower than the standard values of such waves through pure ice.Keywords
Common Midpoint Survey, Debris-Covered Glaciers, Ground Penetrating Radar, Ice Thickness.References
- Bolch, T. et al., The state and fate of Himalayan glaciers. Science, 2012, 336, 310–314.
- Frey, H. et al., Estimating the volume of glaciers in the Himalayan–Karakoram region using different methods. Cryosphere, 2014, 8, 2313–2333.
- Oerlemans, J. et al., Modelling the response of glaciers to climate warming. Climate Dyn., 1998, 14, 267–274.
- Farinotti, D., Huss, M., Bauder, A. and Funk, M. and Truffer, M., A method to estimate ice volume and ice thickness distribution of Alpine glaciers. J. Glaciol., 2009, 55(191), 422–430.
- Huss, M. and Farinotti, D., Distributed ice thickness and volume of all glaciers around the globe. J. Geophys. Res., 2012, 117(F4), F04010.
- Gantayat, P., Kulkarni, A. V. and Srinivasan, J., Estimation of ice thickness using surface velocities and slope: case study at Gangotri Glacier, India. J. Glaciol., 2014, 60(220), 277–282.
- Bahr, D. B., Meier, M. F. and Peckham, S. D., The physical basis of glacier volume–area scaling. J. Geophys. Res., 1997, 102(B9), 20355–20362.
- Annan, A. P., GPR – History, trends, and future developments. Subsurf. Sensing Technol. Appl., 2002, 3(4), 253–270.
- Jol, H. M., Ground Penetrating Radar: Theory and Applications, Elsevier, Great Britain, 2009.
- Gergan, J. T., Dobhal, D. P. and Kaushik, R., Ground penetrating radar ice thickness measurements of Dokriani bamak (glacier), Garhwal Himalaya. Curr. Sci., 1999, 77, 169–173.
- Singh, K. K., Kulkarni, A. V. and Mishra, V. D., Estimation of glacier depth and moraine cover study using ground penetrating radar (GPR) in the Himalayan region. J. Indian Soc. Remote Sensing, 2010, 38, 1–9.
- Singh, S. K., Rathore, B. P., Bahuguna, I. M., Ramanathan, A. L. and Ajai, Estimation of glacier ice thickness using ground penetrating radar in the Himalayan region. Curr. Sci., 2012, 103(1), 68–73.
- Azam, M. F. et al., From balance to imbalance: a shift in the dynamic behaviour of Chhota Shigri glacier, western Himalaya, India. J. Glaciol., 2012, 58, 315–324.
- Wagnon, P. et al., Seasonal and annual mass balances of Mera and Pokalde glaciers (Nepal Himalaya) since 2007. Cryosphere, 2013, 7, 1769–1786.
- Sugiyama, S., Fukui, K., Fujita, K., Tone, K. and Yamaguchi, S., Changes in ice thickness and flow velocity of Yala Glacier, Langtang Himal, Nepal, from 1982 to 2009. Ann. Glaciol., 2013, 54(64), 157–162.
- Gades, A., Conway, H., Nereson, N., Naito, N. and Kadota, T., Radio echo-sounding through supraglacial debris on Lirung and Khumbu Glaciers, Nepal Himalayas. In Debris-Covered Glaciers (eds Nakawo, M., Raymond, C. F. and Fountain, A.), IAHS. Washington, USA, 2000, pp. 13–24.
- Robin, G. Q., Velocity of radio waves in ice by means of a bore-hole interferometric technique. J. Glaciol., 1975, 15(73), 151–159.
- Hubbard, B. and Glasser, N., Field Techniques in Glaciology and Glacial Geomorphology, Wiley and Sons Ltd, Chichester, England, 2005.
- Laha, S. et al., Evaluating the contribution of avalanching to the mass balance of Himalayan glaciers. Ann. Glaciol., 2007, 1–9; doi:10.1017/aog.2017.27.
- Valdiya, K. S. and Goel, O. P., Lithological subdivision and petrology of the Great Himalayan Vaikrita Group in Kumaun, India. Proc. Indian Acad. Sci., 1983, 92(2), 141–163.
- Nainwal, H. C., Chaudhary, M., Rana, N., Negi, B. D. S., Negi, R. S., Juyal, N. and Shinghvi, A. K., Chronology of the Late Quaternary glaciation around Badrinath (Upper Alaknanda Basin): Preliminary observations. Curr. Sci., 2007, 93(1), 90–96.
- Nainwal, H. C., Banerjee, A., Shankar, R., Semwal, P. and Sharma, T., Shrinkage of Satopanth and Bhagirath Kharak Glaciers 2 from 1936 to 2013. Ann. Glaciol., 2016, 57(71), 131–139.