Yıl: 2022 Cilt: 19 Sayı: 2 Sayfa Aralığı: 315 - 334 Metin Dili: İngilizce DOI: 10.5505/itujfa.2022.22566 İndeks Tarihi: 19-10-2022

The meaning of green campus in UI GreenMetric World University Rankings perspective

Öz:
The higher education institution sector has recently been recognized as an influential hub for sustainability innovation and education by considering the most critical sustainability challenges. It represents an invaluable chance to facilitate the essential generational change towards a more sustainable approach in life. Universities provide innovative approaches to sustainable development by pushing the envelope of practice and exploring new frontiers of knowledge. Furthermore, these institutions pave the way for breakthroughs and trend-setting findings to be transitioned to other implementations within the built environment; hence, communities become capable of learning and gradually developing the culture of sustainability. On a global scale, numerous universities have embarked on missions to create green campuses, known as a way to seek sustainability initiatives in universities. This research aims to expose the definitions and parameters of the green campus approach from the viewpoint of UI GreenMetric World University Rankings as one of the assessment tools specializing in evaluating green campus initiatives. This research shows that the GreenMetric functions as a guide which encourages universities to integrate sustainable development into their practices; since its categories are devised following sustainable development goals. In this research, the green campus approach is defined through investigating the Green- Metric approach regarding sustainability on university campuses by clarifying the reasons for its categorization that encompasses all university dimensions, including education, research, operation, outreach, assessment, and reporting. The study is conducted through an integrated review of literature focusing on higher education institutions’ sustainability to investigate the green campus concept’s historical, contextual, and evolving nature.
Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık
  • Agdas, D., Srinivasan, R. S., Frost, K., & Masters, F. J. (2015). Energy use assessment of educational buildings: Toward a campus-wide sustainable energy policy. Sustainable Cities and Society, 17, 15–21.
  • Akbari, H., Pomerantz, M., & Taha, H. (2001). Cool surfaces and shade trees to reduce energy use and improve air quality in urban areas. Solar Energy, 70(3), 295–310.
  • Alexandri, E., & Jones, P. (2008). Temperature decreases in an urban canyon due to green walls and green roofs in diverse climates. Building and Environment, 43(4), 480–493.
  • Alonso-Almeida, M. D. M., Marimon, F., Casani, F., & Rodriguez-Pomeda, J. (2015). Diffusion of sustainability reporting in universities: Current situation and future perspectives. Journal of Cleaner Production, 106, 144–154.
  • Alshuwaikhat, H. M., & Abubakar, I. (2008). An integrated approach to achieving campus sustainability: Assessment of the current campus environmental management practices. Journal of Cleaner Production, 16(16), 1777–1785.
  • Amaral, L. P., Martins, N., & Gouveia, J. B. (2015). Quest for a sustainable university: A review. International Journal of Sustainability in Higher Education, 16(2), 155–172.
  • Armijo de Vega, C., Ojeda Benítez, S., & Ramírez Barreto, M. E. (2008). Solid waste characterization and recy cling potential for a university campus. Waste Management, 28, S21–S26.
  • Aroonsrimorakot, S., Yuwaree, C., Arunlertaree, C., Hutajareorn, R., & Buadit, T. (2013). Carbon footprint of faculty of environment and resource studies, Mahidol University, Salaya Campus, Thailand. APCBEE Procedia, 5, 175–180.
  • Atici, K. B., Yasayacak, G., Yildiz, Y., & Ulucan, A. (2020). Green university and academic performance: An empirical study on UI GreenMetric and World University Rankings. Journal of Cleaner Production, 291, 125289.
  • Bac, D. P. (2008). A history of the concept of sustainable development: Literature review. Economic Sciences Series, 17(2), 576-580.
  • Bardaglio, P. W., & Putman, A. (2009). Boldly sustainable: Hope and opportunity for higher education in the age of climate change. Washington, DC: National Association of College and University Business Officers.
  • Becker, C., Lauterbach, G., Spengler, S., Dettweiler, U., & Mess, F. (2017). Effects of regular classes in outdoor education settings: A systematic review on students’ learning, social and health dimensions. International Journal of Environmental Research and Public Health, 14(5), 485.
  • Bekessey, S., Burgmann, M., Wright, T., Filho, W., & Smith, M. (2003). Universities and sustainability. TELA: Environment, Economy and Society, 11(1),1-41.
  • Bernheim, A., (2003). How green is green? Developing a process for determining sustainability when planning campuses and academic buildings. Planning for Higher Education, 31(3), 99-110.
  • Bettencourt, L. M. A., & Kaur, J. (2011). Evolution and structure of sustainability science. Proceedings of the National Academy of Sciences, 108(49), 19540–19545.
  • Blackburn, W. R. (2007). The sustainability handbook: The complete management guide to achieving social, economic, and environmental responsibility (1st ed.). Washington: Environmental Law Institute.
  • Bolund, P., & Hunhammar, S. (1999). Ecosystem services in urban areas. Ecological Economics, 29(2), 293–301. Bowler, D. E., Buyung-Ali, L., Knight, T. M., & Pullin, A. S. (2010).
  • Urban greening to cool towns and cities: A systematic review of the empirical evidence. Landscape and Urban Planning, 97(3), 147–155.
  • Brandli, L. L., Salvia, A. L., da Rocha, V. T., Mazutti, J., & Reginatto, G. (2019). The role of green areas in university campuses: Contribution to SDG 4 and SDG 15. In Filho, L. W., Salvia, A. L., Pretorius, R. W., Brandli, L. L., Manolas, E., Alves, F., Azeiteiro, U., Rogers, J., Shiel, C., & Paco, D. A. Universities as living labs for sustainable development: Supporting the implementation of the sustainable development goals (World Sustainability Series) (1st ed. 2020 ed.), (pp. 47–68) Springer. Brown, M. A., & Southworth, F.
  • (2008). Mitigating climate change through green buildings and smart growth. Environment and Planning A: Economy and Space, 40(3), 653–675. Brundiers, K., Wiek, A., & Redman, C. L. (2010). Real world learning opportunities in sustainability: From classroom into the real world. International Journal of Sustainability in Higher Education, 11(4), 308–324.
  • Byrne, J., & Sipe, N. (2010). Green and open space planning for urban consolidation – A review of the literature and best practice. Brisbane: Urban Research Program.
  • Calder, W., & Clugston, R. M. (2003). Progress toward sustainability in higher education. Envtl. L. Rep. News & Analysis, 33, 10003-10023.
  • Cammack, C., Waliczek, T. M., & Zajicek, J. M. (2002). The green brigade: The psychological effects of a community- based horticultural program on the self-development characteristics of juvenile offenders. HortTechnology, 12(1), 82–86.
  • Carlowitz, H. C. (1713). Sylvicultura oeconomica, oder haußwirthliche Nachricht und Naturmäßige Anweisung zur wilden Baum-Zucht.
  • Ceulemans, K., De Prins, M., Cappuyns, V., & De Coninck, W. (2011). Integration of sustainable development in higher education’s curricula of applied economics: Large-scale assessments, integration strategies and barriers. Journal of Management & Organization, 17(5), 621–640.
  • Cilliers, E. J. (2015). The importance of planning for green spaces. Agriculture, Forestry and Fisheries, 4(4), 1. Clarke, A., & Kouri, R. (2009).
  • Choosing an appropriate university or college environmental management system. Journal of Cleaner Production, 17(11), 971–984.
  • Colbert, J. B. (1669). Passer le fruit à la postérité‚ Ordonnance. Copernicus, (1994). Copernicus Charter. Retrieved 11th September, 2019, from: http://www.copernicus-campus. org/sites/charter_index1.html
  • Corcoran, P. B., & Wals, A. E. J. (2004). Higher education and the challenge of sustainability: Problematics, promise, and practice (CERC Studies in Comparative Education) (2004th ed.). Springer.
  • Cortese, A. D. (2003). The critical role of higher education in creating a sustainable future. Planning for higher education, 31(3), 15-22.
  • Creighton, S. (1999). Greening the Ivory tower: Improving the environmental track record of universities, colleges, and other institutions (Urban and industrial environments). Cambridge: The MIT Press.
  • Dave, M., Gou, Z., Prasad, D., & Li, F. (2014). Greening universities toolkit: Transforming universities into green and sustainable campuses: A toolkit for implementers. UNEP.
  • Davies, Z. G., Edmondson, J. L., Heinemeyer, A., Leake, J. R., & Gaston, K. J. (2011). Mapping an urban ecosystem service: Quantifying aboveground carbon storage at a city-wide scale. Journal of Applied Ecology, 48(5), 1125–1134.
  • Dimitrijević D., Živković P., Dobrnjac M., Latinović, T. (2017). Noise pollution reduction and control provided by green living systems in urban area. Innovations 5(3), 133-136.
  • Disterheft A., Caeiro S., Azeiteiro U.M., Leal Filho W. (2013). Sustainability science and education for sustainable development in universities: A way for transition. In: Caeiro S., Filho W., Jabbour C., Azeiteiro U. (eds) Sustainability assessment tools in higher education institutions (pp. 3–27). Springer, Cham. Duerr, W. A. (1975). The role of faith in forest resource management. Economics, 29, 293-301.
  • Elkington, J. (1999). Cannibals with forks : Triple bottom line of 21st century business. John Wiley & Son Ltd (Import).
  • EL-Nwsany, R. I., Maarouf, I., & Abd el-Aal, W. (2019). Water management as a vital factor for a sustainable school. Alexandria Engineering Journal, 58(1), 303–313.
  • Evelyn, J. (1664). Sylva: Or a discourse of forest trees & the propagation of timber. Amazon.
  • Faghihimani, M. (2010) Best green university practice. Universitetet in Oslo, Retrieved August 02, 2020, from http://cmspres-vir-1. it.gu.se/digitalAssets/1320/1320507_ best-green-university-practice.pdf
  • Farinha-Marques, P., Lameiras, J. M., Fernandes, C., Silva, S., & Guilherme, F. (2011). Urban biodiversity: A review of current concepts and contributions to multidisciplinary approaches. Innovation: The European Journal of Social Science Research, 24(3), 247–271.
  • Filho, W. L. (2011). About the role of universities and their contribution to sustainable development. Higher Education Policy, 24(4), 427–438.
  • Filho, L. W., Salvia, A. L., Pretorius, R. W., Brandli, L. L., Manolas, E., Alves, F., Azeiteiro, U., Rogers, J., Shiel, C., & Paco, D. A. (2019). Universities as living labs for sustainable development: Supporting the implementation of the sustainable development goals (World Sustainability Series) (1st ed. 2020 ed.). Springer.
  • Filho, W. L., MacDermott, F., & Padgham, J. (1996). Implementing sustainable development at university level: A manual of good practice. Bradford: European Research and Training Centre on Environmental Education.
  • Gilding, P. (2011). The great disruption: How the climate crisis will transform the global economy. Bloomsbury. GreenMetric, U.I. (2020). University of Indonesia GreenMetric World University Rankings. Retrieved August 02, 2020, from http://greenmetric.ui.ac.id
  • Grindsted, T. S., & Holm, T. (2012). Thematic development of declarations on sustainability in higher education. SSRN Electronic Journal, 3(1), 32–40.
  • Grober, U. (2007). Deep roots: a conceptual history of ‘sustainable development’ (nachhaltigkeit). Berlin: WZB. Retrieved August 02, 2020, from https://bibliothek.wzb.eu/pdf/2007/ p07-002.pdf
  • Hansmann, R., Hug, S. M., & Seeland, K. (2007). Restoration and stress relief through physical activities in forests and parks. Urban Forestry & Urban Greening, 6(4), 213–225.
  • Hawken, P. (2007). Blessed unrest: How the largest movement in the world came into being, and why no one saw it coming. Penguin Books.
  • Heisler, G.M., Wang, Y. (1998). Semi-empirical modelling of spacial differences in below-canopy urban air temperature using GIS analysis of satellite images, onsite photography and meteorological measurements. In 23rd conference on agricultural and forest meteorology, pp. 206–209.American Meteorological Society, Boston, MA,.
  • Herremans, I., & Allwright, D. E. (2000). Environmental management systems at North American universities. International Journal of Sustainability in Higher Education, 1(2), 168–181.
  • Hodgkison, S., Hero, J.-M., & Warnken, J. (2007). The efficacy of smallscale conservation efforts, as assessed on Australian golf courses. Biological Conservation, 135(4), 576–586.
  • Huang, L., Li, J., Zhao, D., & Zhu, J. (2008). A fieldwork study on the diurnal changes of urban microclimate in four types of ground cover and urban heat island of Nanjing, China. Building and Environment, 43(1), 7–17.
  • Halifax Declaration. (1991). Higher Education Policy, 5(1), 53. Retrieved September 12, 2020, from https://doi. org/10.1057/hep.1992.13
  • IARU. (2014). Green guide for universities: IARU pathways towards sustainability. Sustaina, Copenhagen.
  • IISD. (2003). The Swansea Declaration. Retrieved September 10, 2019, from: http://www.iisd.org/educate/ declarat/swansea.htm
  • Jackson, T., Daly, H., McKibben, B., Robinson, M., & Sukhdev, P. (2011). Prosperity without growth: Economics for a finite planet (1st ed.). Earthscan Publications Ltd.
  • Jain, S., & Pant, P. (2010). Environmental management systems for educational institutions. International Journal of Sustainability in Higher Education, 11(3), 236–249.
  • James, M., & Card, K. (2012). Factors contributing to institutions achieving environmental sustainability. International Journal of Sustainability in Higher Education, 13(2), 166–176.
  • Jha, M. K., Ogallo, H. G., & Owolabi, O. (2014). A Quantitative Analysis of Sustainability and Green Transportation Initiatives in Highway Design and Maintenance. Procedia - Social and Behavioral Sciences, 111, 1185–1194.
  • Johnston, L. F. (2012). Higher education for sustainability: Cases, challenges, and opportunities from across the curriculum. Routledge.
  • Kaplan, R. (1973). Some psychological benefits of gardening. Environment and Behavior, 5(2), 145–162.
  • Konijnendijk, C. C., Annerstedt, M., Busse Nielsen, A., & Maruthaveeran, S. (2013). Benefits of urban parks: A systematic review. Copenhagen: International Federation of Parks and Recreation Administration (IFPRA).
  • Krueger, T., & Murray, G. (2008). Transit systems in college and university communities. États-Unis: Transit Cooperative Research Program.
  • Lambrechts, W., & Ceulemans, K. (2013). Sustainability assessment in higher education: Evaluating the use of the auditing instrument for sustainability in higher education (AISHE) in Belgium. Sustainability Assessment Tools in Higher Education Institutions, 157–174.
  • Lehmann, S. (2010). Green urbanism: Formulating a series of holistic principles. Sapiens, 3, 1–17.
  • Lewis, C. A., & Sturgill, S. (1978). Comment: Healing in the urban environment a person/plant viewpoint. Journal of the American Planning Association, 45(3), 330–338.
  • Li, H.-ru. (2016). Study on green transportation system of international metropolises. Procedia Engineering, 137, 762–771.
  • Lozano, R., Ceulemans, K., Alonso- Almeida, M., Huisingh, D., Lozano, F. J., Waas, T., Lambrechts, W., Lukman, R., & Hugé, J. (2015). A review of commitment and implementation of sustainable development in higher education: Results from a worldwide survey.
  • Journal of Cleaner Production, 108, 1–18. Lozano, R., Lukman, R., Lozano, F. J., Huisingh, D., & Lambrechts, W. (2013). Declarations for sustainability in higher education: Becoming better leaders, through addressing the university system. Journal of Cleaner Production, 48, 10-19.
  • Lozano-Ros, R. (2003), Sustainable development in higher education, incorporation, assessment and reporting of sustainable development in higher education institutions, Lund University, Lund.
  • Lukman, R., & Glavič, P. (2006). What are the key elements of a sustainable university?. Clean Technologies and Environmental Policy, 9(2), 103–114.
  • M’Gonigle, M. M., Starke, J., & Penn, B. (2006). Planet U: sustaining the world, reinventing the university. New Society. Martins, V. W. B., Anholon, R., &
  • Quelhas, O. L. G. (2018). Sustainable transportation methods. Encyclopedia of Sustainability in Higher Education, 1–7. McFarland, A. L., Waliczek, T. M., & Zajicek, J. M. (2008). The relationship between student use of campus green spaces and perceptions of quality of life. HortTechnology, 18(2), 232–238.
  • Meadows, D. H. (1972). Limits to growth (First, 8th printing ed.). Signet. Milne, M. J., Kearins, K., & Walton, S. (2006). Creating adventures in wonderland: The journey metaphor and environmental sustainability. Organization, 13(6), 801–839.
  • Mohammadalizadehkorde, M., & Weaver, R. (2018). Universities as models of sustainable energy-consuming communities? review of selected literature. Sustainability, 10(9), 3250.
  • Moore, J. (2005). Barriers and pathways to creating sustainability education programs: Policy, rhetoric and reality. Environmental Education Research, 11(5), 537–555.
  • Orr, D. W. (2002). The nature of design: Ecology, culture, and human intention. Oxford University Press.
  • Owen, N., Humpel, N., Leslie, E., Bauman, A., & Sallis, J. F. (2004). Understanding environmental influences on walking. American Journal of Preventive Medicine, 27(1), 67-76.
  • Padmanabhamurty, B. (1990). Microclimates in tropical urban complexes. Energy and Buildings, 15(1–2), 83–92.
  • Paoletti, E., Bardelli, T., Giovannini, G., & Pecchioli, L. (2011). Air quality impact of an urban park over time. Procedia Environmental Sciences, 4, 10–16.
  • Parker, R. (2017). Essentials of environmental science, Second Edition. National agricultural institute, Inc.
  • Popescu, D., Bungau, C., Prada, M., Domuta, C., Bungau, S., & Tit, D. M. (2016). Waste management strategy at a public university in smart city context. Journal of environmental protection and ecology, 17, 1011-1020.
  • Rameshwar, R., Solanki, A., Nayyar, A., & Mahapatra, B. (2020). Green and smart buildings: A key to sustainable global solutions. In Solanki, A., & Nayyar, A. (2020). Green building management and smart automation, pp. 146– 163. USA: IGI Global.
  • Ramos, T., & Pires, S.M. (2013). Sustainability assessment: The role of indicators. In Caeiro, S., Leal Filho, W., Jabbour, C., Azeiteiro, U. (Eds.). Sustainability assessment tools in higher education institutions, mapping trends and good practice around the world. pp. 81-89. Springer.
  • Rappaport, A., & Creighton, S.H. (2003). Effective campus environmental assessment. Planning for Higher Education, 31(3), 45 52.
  • Razavivand Fard, H., Demir, Y., & Trıscıuoglıo, M. (2019). The histology atlas of campus form: A framework to explore liveability and sustainability in university campuse. A/Z : ITU Journal of Faculty of Architecture, 16(3), 87–102.
  • Reichenauer, T. G., & Germida, J. J. (2008). Phytoremediation of organic contaminants in soil and groundwater. ChemSusChem, 1(8–9), 708–717.
  • Richardson, G. R. A., & Lynes, J. K. (2007). Institutional motivations and barriers to the construction of green buildings on campus. International Journal of Sustainability in Higher Education, 8(3), 339–354.
  • Setälä, H., Viippola, V., Rantalainen, A.-L., Pennanen, A., & Yli-Pelkonen, V. (2013). Does urban vegetation mitigate air pollution in northern conditions?. Environmental Pollution, 183, 104–112.
  • Shaker, R. R. (2015). The spatial distribution of development in europe and its underlying sustainability correlations. Applied Geography, 63, 304–314.
  • Shashua-Bar, L., & Hoffman, M. E. (2000). Vegetation as a climatic component in the design of an urban street. Energy and Buildings, 31(3), 221–235.
  • Shephard, K., & Furnari, M. (2013). Exploring what university teachers think about education for sustainability. Studies in Higher Education, 38(10), 1577–1590.
  • Shriberg, M. (2004). Assessing sustainability: Criteria, tools, and implications. In Corcoran P.B., Wals A.E.J. (eds) Higher Education and the Challenge of Sustainability. Springer, Dordrecht. Shriberg, M., & Harris, K. (2012).
  • Building sustainability change management and leadership skills in students: Lessons learned from “Sustainability and the Campus” at the University of Michigan. Journal of Environmental Studies and Sciences, 2(2), 154–164.
  • Skoulika, F., Santamouris, M., Kolokotsa, D., & Boemi, N. (2014). On the thermal characteristics and the mitigation potential of a medium size urban park in Athens, Greece. Landscape and Urban Planning, 123, 73–86.
  • Speake, J., Edmondson, S., & Nawaz, H. (2013). Everyday encounters with nature: Students’ perceptions and use of university campus green spaces. Human Geographies – Journal of Studies and Research in Human Geography, 7(1), 21-31.
  • Steiner, F. (2014). Frontiers in urban ecological design and planning research. Landscape and Urban Planning, 125, 304–311.
  • Stephens, J. C., Hernandez, M. E., Román, M., Graham, A. C., & Scholz, R. W. (2008). Higher education as a change agent for sustainability in different cultures and contexts. International Journal of Sustainability in Higher Education, 9(3), 317–338.
  • Stevens, C., & Kanie, N. (2016). The transformative potential of the sustainable development goals (SDGs). International Environmental Agreements: Politics, Law and Economics, 16(3), 393–396. Suwartha, N., & Sari, R. F. (2013).
  • Evaluating UI GreenMetric as a tool to support green universities development: Assessment of the year 2011 ranking. Journal of Cleaner Production, 61, 46–53.
  • Swearingen White, S. (2014). Campus sustainability plans in the United States: Where, what, and how to evaluate?. International Journal of Sustainability in Higher Education, 15(2), 228–241.
  • Text of Tbilisi declaration. (1977). Environmental Policy and Law, 3(3–4), 196.
  • The Belgrade charter on environmental education. (1976). Prospects, 6(1), 135–136.
  • Thomashow, M. (2014). The nine elements of a sustainable campus. Sustainability: The Journal of Record, 7(3), 174–175.
  • Tilbury, D. (2012). Higher education for sustainability: A global overview of commitment and progress. In GUNI (Ed.), Higher education in the World 4. Higher education’s commitment to sustainability: from understanding to action (pp. 18-28). Palgrave: Barcelona. Toman, M. A. (2001). Climate change economics and policy: an RFF anthology. Washington D.C: Resources for the Future.
  • Toor, W., & Havlick, S. (2004). Transportation and sustainable campus communities: Issues, examples, solutions (Illustrated ed.). Island Press.
  • Tukker, A., Emmert, S., Charter, M., Vezzoli, C., Sto, E., Munch Andersen, M., Geerken, T., Tischner, U., & Lahlou, S. (2008). Fostering change to sustainable consumption and production: An evidence based view. Journal of Cleaner Production, 16(11), 1218–1225.
  • Ulrich, R. S. (1979). Visual landscapes and psychological well being. Landscape Research, 4(1), 17–23.
  • ULSF. (1990). Talloires Declaration. Retrieved 24th October, 2019, from: http://www.ulsf.org/programs_talloires_ td.html.
  • UNESCO. (2021). Education for Sustainable Development. Retrieved 24th November, 2019 from https:// en.unesco.org/
  • van Kempen, E., Devilee, J., Swart, W., & van Kamp, I. (2014). Characterizing urban areas with good sound quality: Development of a research protocol. Noise and Health, 16(73), 380.
  • Van Zon, H., (2002). Geschiedenis en duurzame ontwikkeling. Vakreview Duurzame Ontwikkeling. (History and sustainable development. disciplinary review sustainable development), DHO, UCM/KUN, Nijmegen, Amsterdam. Veisten, K., Smyrnova, Y., Klæboe, R., Hornikx, M., Mosslemi, M., & Kang, J. (2012). Valuation of green walls and green roofs as soundscape measures: Including monetised amenity values together with noise-attenuation values in a cost-benefit analysis of a green wall affecting courtyards. International Journal of Environmental Research and Public Health, 9(11), 3770–3788.
  • Velazquez, L., Munguia, N., Platt, A., & Taddei, J. (2006). Sustainable university: What can be the matter?. Journal of Cleaner Production, 14(9–11), 810–819.
  • Verhoef, L., & Bossert, M. (2019). The University Campus as a Living Lab for Sustainability: A Practitioner’s Guide and Handbook. Delft University of Technology: Delft, The Netherlands. Wan C., Shen G.Q., Choi S. (2019).
  • Waste management strategies for sustainable development. In Leal Filho W. (eds) Encyclopedia of sustainability in higher education. Springer, Cham. Watts, G., Miah, A., & Pheasant, R. (2013). Tranquillity and soundscapes in urban green spaces—predicted and actual assessments from a questionnaire survey. Environment and Planning B: Planning and Design, 40(1), 170–181.
  • Wiek, A., Bernstein, M., Foley, R., Cohen, M., Forrest, N., Kuzdas, C., Kay, B., & Withycombe Keeler, L. (2015). Operationalising competencies in higher education for sustainable development. In Barth, M., Michelsen, G., Rieckmann, M., Thomas, I. (2015). Handbook of higher education for sustainable development pp. 241- 260. Routledge, London. Wiek, A., Withycombe, L., Redman, C., & Mills, S. B. (2011). Moving forward on competence in sustainability research and problem solving. Environment: Science and Policy for Sustainable Development, 53(2), 3–13.
  • Wiersum, K. F. (1995). 200 years of sustainability in forestry: Lessons from history. Environmental Management, 19(3), 321–329.
  • Wilderer, P. A. (2007). Sustainable water resource management: The science behind the scene. Sustainability Science, 2(1), 1–4.
  • Woolley, H. (2003). Urban open spaces. New York: Taylor & Francis.
  • World Commission on Environment and Development. (1987). Our common future (Oxford Paperbacks) (1st ed.). U.S.A: Oxford University Press. Wright T. (2004). The evolution of sustainability declarations in higher education. In Corcoran P.B., Wals A.E.J. (eds) Higher education and the challenge of sustainability. Springer, Dordrecht.
  • Wright, T. S. A. (2002). Definitions and frameworks for environmental sustainability in higher education. International Journal of Sustainability in Higher Education, 3(3), 203–220.
  • Yanarella, E. J., Levine, R. S., & Lancaster, R. W. (2009). Research and solutions green vs. sustainability: From semantics to enlightenment. Sustainability: The Journal of Record, 2(5), 296– 302.
  • Yang, F., Bao, Z. Y., & Zhu, Z. J. (2011). An assessment of psychological noise reduction by landscape plants. International Journal of Environmental Research and Public Health, 8(4), 1032– 1048.
  • Yilmaz, S., Toy, S., Irmak, M. A., & Yilmaz, H. (2007). Determination of climatic differences in three different land uses in the city of Erzurum, Turkey. Building and Environment, 42(4), 1604–1612.
  • Zaman, A. U., & Lehmann, S. (2011). Urban growth and waste management optimization towards ‘zero waste city’. City, Culture and Society, 2(4), 177–187.
  • Zhang, C. (2006). On environmental education and teacher education in basic education. Educational Practice and Research, 12, 4-6.
  • Zhang, R.P., Zhou, C.S., Ming, L.B. (2010). Compact city and green transportation system construction, 09.
APA SAFARKHANI M, ÖRNEK M (2022). The meaning of green campus in UI GreenMetric World University Rankings perspective. , 315 - 334. 10.5505/itujfa.2022.22566
Chicago SAFARKHANI Melody,ÖRNEK Muhammed Ali The meaning of green campus in UI GreenMetric World University Rankings perspective. (2022): 315 - 334. 10.5505/itujfa.2022.22566
MLA SAFARKHANI Melody,ÖRNEK Muhammed Ali The meaning of green campus in UI GreenMetric World University Rankings perspective. , 2022, ss.315 - 334. 10.5505/itujfa.2022.22566
AMA SAFARKHANI M,ÖRNEK M The meaning of green campus in UI GreenMetric World University Rankings perspective. . 2022; 315 - 334. 10.5505/itujfa.2022.22566
Vancouver SAFARKHANI M,ÖRNEK M The meaning of green campus in UI GreenMetric World University Rankings perspective. . 2022; 315 - 334. 10.5505/itujfa.2022.22566
IEEE SAFARKHANI M,ÖRNEK M "The meaning of green campus in UI GreenMetric World University Rankings perspective." , ss.315 - 334, 2022. 10.5505/itujfa.2022.22566
ISNAD SAFARKHANI, Melody - ÖRNEK, Muhammed Ali. "The meaning of green campus in UI GreenMetric World University Rankings perspective". (2022), 315-334. https://doi.org/10.5505/itujfa.2022.22566
APA SAFARKHANI M, ÖRNEK M (2022). The meaning of green campus in UI GreenMetric World University Rankings perspective. A|Z ITU Mimarlık Fakültesi Dergisi, 19(2), 315 - 334. 10.5505/itujfa.2022.22566
Chicago SAFARKHANI Melody,ÖRNEK Muhammed Ali The meaning of green campus in UI GreenMetric World University Rankings perspective. A|Z ITU Mimarlık Fakültesi Dergisi 19, no.2 (2022): 315 - 334. 10.5505/itujfa.2022.22566
MLA SAFARKHANI Melody,ÖRNEK Muhammed Ali The meaning of green campus in UI GreenMetric World University Rankings perspective. A|Z ITU Mimarlık Fakültesi Dergisi, vol.19, no.2, 2022, ss.315 - 334. 10.5505/itujfa.2022.22566
AMA SAFARKHANI M,ÖRNEK M The meaning of green campus in UI GreenMetric World University Rankings perspective. A|Z ITU Mimarlık Fakültesi Dergisi. 2022; 19(2): 315 - 334. 10.5505/itujfa.2022.22566
Vancouver SAFARKHANI M,ÖRNEK M The meaning of green campus in UI GreenMetric World University Rankings perspective. A|Z ITU Mimarlık Fakültesi Dergisi. 2022; 19(2): 315 - 334. 10.5505/itujfa.2022.22566
IEEE SAFARKHANI M,ÖRNEK M "The meaning of green campus in UI GreenMetric World University Rankings perspective." A|Z ITU Mimarlık Fakültesi Dergisi, 19, ss.315 - 334, 2022. 10.5505/itujfa.2022.22566
ISNAD SAFARKHANI, Melody - ÖRNEK, Muhammed Ali. "The meaning of green campus in UI GreenMetric World University Rankings perspective". A|Z ITU Mimarlık Fakültesi Dergisi 19/2 (2022), 315-334. https://doi.org/10.5505/itujfa.2022.22566