This research, which was tried with 217 high school students, was carried out to determine the perceptions and attitudes related to the usage of bioenergy. The research results showed that the students had the perception that there would be lack of food due to global warming, but bioenergy would prevent the world from global warming. Moreover, they also assumed that forests are not sustainable in terms of global and local context. However, this study revealed that they had a tendency to learn and use bioenergy. It was also observed that there were different views between the male and female participants about the usage of wood and cutting trees down to produce energy. Finally, stepwise regression results showed that social environment affects one’s environmental intent related to bioenergy use. 

Akella AK, Saini RP, Sharma MP (2009). Social, economic and environmental impacts of renewable energy systems. Renewable Energy, 34, 390–396. doi:10.1016/j.renene.2008.05.002. 

Asafu-Adjaye J (2000). The relationship between energy consumption, energy prices and economic growth: time series evidence from Asian developing countries. Energy Economics, 22 (6), 615–625. doi:10.1016/S0140-9883(00)00050-5. 

Ayres RU, Van den Berg JCJM, Lindenberger  D, Warr B (2013). The underestimated contribution of energy to economic growth. Struct. Change Econ. Dyn., 27, 79–88. doi:10.1016/j.strueco.2013.07.004.

Bergmann EA, Colombo S, Hanley N (2007). The social-environmental impacts of renewable energy expansion in scotland. The Agricultural Economics Society's 81st Annual Conference, 2nd to 4th April, University of Reading, UK. http://ageconsearch.umn.edu/bitstream/7964/1/cp07be01.pdf

Boztepe A. (2012). Green marketing and its impact on consumer buying behavior. European Journal of Economic and Political Studies, 5 (1), 5-21.

Cantrell KB, Thomas DK, Ro S, Hunt PG (2008). Livestock waste-to-bioenergy generation opportunities. Bioresource Technology, 99, 7941–7953. doi:10.1016/j.biortech.2008.02.061.

Creutzig F, Ravindranath NH, Berndes G, Bolwig S, Bright R, Cherubini F, Chum H et al (2014). Bioenergy and climate change mitigation: an assessment. GCB Bioenergy, doi: 10.1111/gcbb.12205

Daynard K, Daynard T (2011). What are the effects of biofuels and bioproducts on the environment, crop and food prices and World hunger?. GFO-Biofuels-and-Crops. http://greenfuels.org/wp-content/uploads/2011/04/GFO-Biofuels-and-Crops-2011.pdf.

Devine-Wright P (2008). Reconsidering public attitudes and public acceptance of renewable energy technologies: A critical review. T. Jamasb, M. Grubb, M. Pollitt (Eds.), Taking Climate Change Seriously: A Low Carbon Future for the Electricity Sector. Cambridge University Press, 443–461.

Devine-Wright P (2005). Local aspects of UK renewable energy development: exploring public beliefs and policy implications. Local Environment, 10, 57–69.

Field A (2008). Multiple regression: Statistical methods using IBM SPSS. C8057 (Research Methods in Psychology): Multiple Regression. education.exeter.ac.uk/download.php?id.  

Fritsche UR, Hennenberg KJ, Wiegeman K, Herrera R, Franke B, Köppen S, Reinhardt G (2010). Bioenergy Environmental Impact  Analysis (BIAS): Analytical Framework. Environment and Natural Resources Management Series 46, Food and Agriculture Organization of the United Nations, Rome.

FAO (2008). The state of food and agriculture. ISSN 0081-4539. ftp://ftp.fao.org/docrep/fao/011/i0100e/i0100e.pdf.

Gliem JA, Gliem RR (2003). Calculating, interpreting, and reporting Cronbach’s alpha reliability coefficient for Likert-type scales. Midwest Research to Practice Conference in Adult, Continuing, and Community Education, Columbus, Oct. 8-10, 2003, Ohio: Ohio State University.

Halder P, Havu-Nuutinen S, Pietarinen J, Zyadin A, Pelkonen P (2014). Subject knowledge and perceptions of bioenergy among school teachers in India: Results from a survey. Resources, 3, 599-613; doi:10.3390/resources3040599.

Halder P, Pietarinen J, Havu-Nuutinen S, Pelkonen P, Chang CY, Prokop P, et al (2013). Knowledge, perceptions and attitudes as determinants of youths' intentions to use bioenergy e a cross-national perspective. Int J Green Energy, 10(8), 797-813. DOI:10.1080/15435075.2012.706244

Halder P, Prokop P, Chang CY, Usak M, Pietarinen J, Havu-Nuutinen S, Pelkonen P, Cakir M (2012). International survey on bioenergy knowledge, perceptions and attitudes among young Citizens. Bio Energy Research 5, 247–61. DOI 10.1007/s12155-011-9121-y.

Halder P (2011). Bioenergy knowledge, perceptions, and attitudes among young citizens—from cross-national surveys to conceptual model. Dissertationes Forestales, Faculty of Science and Forestry, University of Eastern Finland.

Halder P, Pietarinen P, Havu-Nuutinen S, Pelkonen P (2010). Young citizens’ knowledge and perceptions of bioenergy and future policy implications. Energy Policy, 38, 3058–3066.

IEA (2009). Bioenergy – A sustainable and reliable energy source.

IEA (2007). Bioenergy.

IEA (2005). Benefits of bioenergy.

IRENA (2014). The socio-economic benefits of solar and wind energy.

Jadama LM (2014). Impact of subject matter knowledge of a teacher in teaching and learning process. Middle Eastern & African Journal of Educational Research, 7, 20-29. http://www.majersite.org/issue7/2_jadama.pdf.

Jaramillo-Nieves L, del Rio P (2010). Contribution of renewable energy sources to the sustainable development of ıslands: An overview of the literatüre and a research agenda. Sustainability, 2, 789-811. Doi:10.3390/su2030783.

Karytsas S, Theodoropoulou H (2014). Socioeconomic and demographic factors that influence publics' awareness on the different forms of renewable energy sources. Renewable Energy, 71, 480-485. doi:10.1016/j.renene.2014.05.059.

Kassinis S (2008). Energy Production from Renewable Sources by 2020: The Cypriot Case. DEMSEE, September 22-23, Nicosia, Cyprus.

Kassinis S (2011). The Status of Hydrocarbon Exploration in Cyprus. Israel Business Conference, Tel Aviv, 12 December.

Kollmuss A, Agyeman J (2002). Mind the Gap: why do people act environmentally and what are the barriers topro-environmental behavior? Environmental Education Research, 8, 239–260. DOI: 10.1080/1350462022014540 1

Krajhanzl J (2010). Environmental and pro-environmental behavior. School and Health, 21, 251-274.

Micangeli A, Naso V, Michelangeli E, Matrisciano A, Farioli F, Belfiore NP (2014). Attitudes toward sustainability and green economy issues related to some student learning their characteristics: A preliminary Study. Sustainability, 6, 3484-3503. doi:10.3390/su6063484

Muderrisoglu H, Altanlar A (2011). Attitudes and behaviors of undergraduate students toward environment issues. International Journal of Environmental Science and Technology, 8(1), 159-168. DOI: 10.1007/BF03326205

Omria A, Kahouli B (2014). Causal relationships between energy consumption, foreign direct investment and economic growth: Fresh evidence from dynamic simultaneous-equations models. Energy Policy, 67, 913–922. doi:10.1016/j.enpol.2013.11.067

Peskett L, Slater R, Stevens C, Dufey A (2007). Biofuels, agriculture and poverty reduction. Natural Resource Perspectives. Overseas Development Institute. http://www.odi.org/publications/3851-odi-natural-resource-perspectives.

Pickens J (2011). Attitudes and Perception. (ed. Nancy Borkowski), Organizational Behavior in Health Care. Second Edition, Miami: Jones and Barlett Publishers.

Pirlogea C, Cicea C (2012). Econometric perspective of the energy consumption and economic growth relation in European Union. Renewable and Sustainable Energy Reviews. 16, 5718–5726. Doi.org/10.1016/j.rser.2012.06.010.

Popp J, Lakner Z, Harangi-Rakos M, Fari M (2014). The effect of bioenergy expansion: Food, energy, and environment. Renewable and Sustainable Energy Reviews, 32, 559–578, doi:10.1016/j.rser.2014.01.056.

Reddy AKN (2000). Energy and social issues. World energy assessment: energy and the challenge of sustainability, UNDP.

Remedio EM, Domac JU (2003). Socio-economic analysis of bioenergy systems: A focus on employment. FAO Forestry Department Wood Energy Programme.

Steg L, Vlek C (2008). Encouraging pro-environmental behavior: An integrative review and research agenda. Journal of Environmental Psychology, 29(3), 309-317.

Stern DI (2004). Economic growth and energy. Encyclopedia of Energy, 2, 35-78.

Stern DI, Cleveland CJ (2004). Energy and economic growth. Rensselaer Working Papers in Economics. http://www.economics.rpi.edu/workingpapers/rpi0410.pdf.

Tavakol M, Dennick R (2011).  Making sense of Cronbach’s alpha. International Journal of Medical Education, 2, 53-55, DOI: 10.5116/ijme.4dfb.8dfd.

Tsoutsosa T, Frantzeskakib N, Gekasb V (2005). Environmental impacts from the solar energy technologies. Energy Policy 33, 289–296. doi:10.1016/S0301-4215(03)00241-6

UNESCO-SCOPE-UNEP (2009). Biofuels and environmental impacts. Scientific analysis and implications for sustainability. http://www.unep.org/pdf/dtie/BiofuelsEnvironmentalImpacts.pdf.

Wall G (1997). Energy, society and morals. Journal of Human Values, 3(2), 193-206.

WBA (2014). Global Bioenergy Statistics report. http://www.uabio.org/img/files/docs/140526-wba-gbs-2014.pdf.

WEF (2012). Energy for Economic Growth: Energy Vision Update 2012. Prepared in Partnership with IHS CERA. http://www3.weforum.org/docs/WEF_EN_EnergyEconomicGrowth_IndustryAgenda_2012.pdf.

Wright YL (2011). Relating recycling: Demographics, attitudes, knowledge and recycling behavior among uc Berkeley students. UC Berkeley Student Recycling, 1-17, http://nature.berkeley.edu/classes/es196/projects/2011final/WrightY_2011.pdf

Yang AG, Pearce S (2013). A Beginner’s guide to factor analysis: Focusing on exploratory factor analysis. Tutorials in Quantitative Methods for Psychology, 9(2), 79-94.