TY  - CONF
AU  - Blagdanić, Sanja
AU  - Marušić Jablanović, Milica
AU  - Stanišić, Jelena
AU  - Veinović, Zorica
AU  - Savić, Slađana
PY  - 2024
UR  - https://eera-ecer.de/ecer-programmes/conference/29/contribution/58742
UR  - http://ipir.ipisr.org.rs/handle/123456789/1131
AB  - Contribution
The environmental performance of the Republic of Serbia is unsatisfactory, and the consequences of environmental degradation reflect on the population's health and quality of life. Taking into account that children and young people are future decision-makers, it is necessary to provide them with an opportunity to acquire knowledge, skills, and develop attitudes that will help them to act in environmentally responsible way, both locally and globally. This paper is part of the ELIPS project which aims to investigate environmental literacy (EL) and the environmental identity among the 7th grade students in Serbia. EL is operationalized comprehensively, encompassing four components: (1) knowledge, (2) affect, (3) cognitive skills, and (4) behavior (Marcinkowski, 1991, 2004; McBeth et al., 2008; Wilke, 1995). The testing of EL among elementary school students was conducted in several countries around the world applying an international instrument for determining the level of environmental literacy, the Middle School Environmental Literacy Survey (MSELS) (McBeth et al., 2008). In the USA, EL was tested on a sample of sixth-graders (age 11-12) and the eighth-graders (age 13-14). The total EL score on a total sample was 144.83 (out of 240) (McBeth et al., 2008). As far as separate EL components are concerned, the students from the USA achieved the following results: knowledge – 40.34; affect – 38.05; cognitive skills – 25.56, and 36.84 for behavior. Students from Thessaloniki (Greece), age12-15, had a total score of 123.31 (Nastoulas et al., 2017). The scores for EL components for the students from Thessaloniki were: knowledge – 35.18; affect – 35.43; cognitive skills – 17.2, and 36.5 for behavior.
In the context of local and global environmental issues, as well as the obligations of Serbia stemming from signing international (UN) documents related to the environment and environmental education, the early 21st century marked the beginning of the implementation of the goals of this concept in the educational system. Regarding elementary education, which is divided into two cycles in Serbia (the first cycle – students of age 7-10; the second cycle – students of age 11-15), these goals were implemented in some compulsory school subjects from the field of science (biology, chemistry, etc.), and in the curricula of some elective subjects. This was the case with the elective subject Guardians of Nature (GN) which was introduced in 2004. It was in the list of electives in the first six grades until 2018, when its status was formally changed and it became an optional activity. Nevertheless, its status essentially remained the same, provided that it is offered by a school which, in turn, is obligated to offer three elective subjects/optional activities in every grade and students are free to choose GN according to their interests. The subject/activity GN, though not compulsory for all students, is significant for our research because its goals/outcomes are focused on developing all EL components and the recommended contents encompass all topics related to the environment and the role of people in its degradation and preservation. In some research, the curricula are linked to the EL level of students. For example, the positive effects of the elective subjects pertaining to environmental education on the EL levels of students in the USA (North Carolina), age 11-14, were identified, especially in the domain of cognitive skills (Stevenson et al., 2013). Taking everything above-mentioned into account, we decided to investigate, apart from the EL of students of age 14, whether there is a connection between attending GN classes and the level of the EL components acquired.

Method
The researchers applied a survey methodology using the MSELS questionnaire (McBeth et al., 2008). The MSELS measures four EL components, with maximal score 60 per each, which means that the total number of the score points was maximum 240. The instrument contains the basic environmental knowledge items (N=17). The tasks related to cognitive skills (N=17) consist of texts presenting environmental problems in real-life situations. Students are expected to identify and analyze the problems given in the texts and then choose the best ecological strategies as solutions to the problem. The items measuring affect (N=25) refer to environmental sensitivity, students’ verbal commitment, and their intentions to preserve the environment. Pro-environmental behavior was measured in the tasks investigating students’ genuine commitment to protecting the environment in everyday situations (N=12). The instrument also includes the questions related to the socio-demographic characteristics of the students (age, gender, parents' level of education), and the electives the students have attended. The applicability of the MSELS (for the population of the 14-year-old students) in Serbian context was confirmed in a pilot study (Marušić Jablanović et al., 2022). The testing of the EL level of Serbian students was conducted on students of age 13-14 (N=877). The sample is stratified according to the regions and the urbanization level of the settlements in Serbia. The collected data were processed by using descriptive statistical procedures (for measuring students’ achievement on MSELS questionnaire, in total, and per EL component). The scores of students who attended the GN course from grades 1-4 were compared to the scores of students who have attended this course from the 5th grade, using an Independent-samples T test. The same test was applied for comparison of students who have not attended the course and those who have attended it since the 1st grade until now.

Expected Outcomes
The results indicate that the total average score of students is 147.93. The average scores for EL components are 37.85 for knowledge, 44.11 for affect, 25.97 for cognitive skills, and 40.01 for behavior. The students from Serbia obtained higher scores than American (McBeth et al.) and Greek students (Nastoulas et al., 2017), both in total EL score and in components affect and behavior. The students who attended GN elective subject/optional activity in both educational cycles have a more pronounced affect relative to students who did not attend the course (Sig = .009; df= 370; t= 2.636). The students who attended the course from grades 1-4 performed better on cognitive skills, compared to those attending it from the 5th grade (t=2.026, Sig=.043). Given that in Serbian educational practice teachers influence children’s subject/activity selection (Cvjetićanin et al., 2011), we may assume that GN contributed to students increased interest in nature, their decisiveness to change behavior and become more pro-active. The results speak in favor of the GN course, in terms of attitudes towards the environment, as well as in favor of the practice of teachers teaching grades 1-4. Nonetheless, the fact that students who attended this course did not have higher scores in other EL components raises concern. The results show that there is potential for improving the levels of EL in all domains, especially the cognitive skills domain. Although the elective subject/optional activity GN positively impacts the development of some EL components among children from Serbia, there are still indicators that the implementation of this course needs to be improved. In addition, some possible ways of developing students’ EL include development of teachers’ environmental competencies, enrichment of compulsory subjects with environmental contents and activities, as well as greater support of school for outdoor learning, cooperation with local community.

References
Cvjetićanin, S., Segedinac, M., & Segedinac, M. (2011). Problems of teachers related to teaching optional science subjects in elementary schools in Serbia. Croatian Journal of Education, 13(2), 184-216. McBeth, B., Hungerford, H., Marcinkowski, T., Volk, T. & Meyers, R. (2008). National Environmental Literacy Assessment Project: Year 1, National Baseline Study of Middle Grades Students Final Research Report (192). National Oceanic and Atmospheric Administration. Retrieved January 10, 2022. from https://www.noaa.gov/sites/default/files/legacy/document/2019/Jun/Final_NELA_minus_MSELS_8-12-08.pdf Marcinkowski, T. (1991). The relationship between environmental literacy and responsible environmental behavior in environmental education. Methods and Techniques for Evaluating Environmental Education. UNESCO. Marcinkowski, T. (2004). Using a Logic Model to Review and Analyze an Environmental Education Program. In Volk, T. (Ed.), NAAEE Monograph Series, Volume 1. NAAEE. Marušić Jablanović, M., Stanišić, J. & Savić, S. (2022). Еnvironmental Literacy of Students in Belgrade Schools: Results of a Pilot Research. Teaching Innovations, 35(4), 28–46. DOI: 10.5937/inovacije2204028M Nastoulas, I., Marini, K. & Skanavis, C. (2017). Middle school students’ environmental literacy assessment in Thessaloniki, Greece. In Anwar, S., El Sergany, M. & Ankit, A. (Eds.). Health and Environment Conference Proceedings (198–209). Dubai: Hamdan Bin Mohammed Smart University. Retrieved January 10, 2022. from https://www.hbmsu.ac.ae/downloads/massmail/2017/august/HBMSU_Innovation_Arabia_Health_and_ Environment_Conference_Proceedings_2017.pdf#page=203 Pravilnik o nastavnom planu i programu za prvi i drugi razred osnovnog obrazovanja i vaspitanja [The Rulebook on the Curriculum for the first and second grades of elementary school] (2004). Službeni glasnik RS - Prosvetni glasnik, br. 10. Pravilnik o dopunama Pravilnika o planu nastave i učenja za prvi ciklus osnovnog obrazovanja i vaspitanja [The Rulebook on amendments to the Rulebook on teaching and learning plan for the first cycle of elementary school] (2018). Službeni glasnik RS - Prosvetni glasnik, br. 15. Pravilnik o planu i programu nastave i učenja za peti i šesti razred osnovnog obrazovanja i vaspitanja [The Rulebook on teaching and learning plan for the fifth and sixth grades of elementary school] (2018). Službeni glasnik RS - Prosvetni glasnik, br. 15. Stevenson, K. T., Peterson, M. N., Bondell, H. D., Mertig, A. G. & Moore, S. E. (2013). Environmental, Institutional, and Demographic Predictors of Environmental Literacy among Middle School Children. PLOS ONE, 8 (3), e59519. Retrieved Jun 22, 2022. from https://doi.org/10.1371/journal.pone.0059519 Wilke, R. (Ed.). (1995). Environmental Education Literacy/Needs Assessment Project: Assessing Environmental Literacy of Students and Environmental Education Needs of Teachers; Final Report for 1993–1995 (30–76). (Report to NCEET/University of Michigan under U.S. EPA Grant #NT901935-01-2). University of Wisconsin – Stevens Point.
PB  - Germany : European Educational Research Association
C3  - ECER
T1  - Environmental Literacy Development and the Role of Environmental Elective Elementary School Course: Case of Serbian Education
UR  - https://hdl.handle.net/21.15107/rcub_ipir_1131
ER  - 

@conference{
author = "Blagdanić, Sanja and Marušić Jablanović, Milica and Stanišić, Jelena and Veinović, Zorica and Savić, Slađana",
year = "2024",
abstract = "Contribution
The environmental performance of the Republic of Serbia is unsatisfactory, and the consequences of environmental degradation reflect on the population's health and quality of life. Taking into account that children and young people are future decision-makers, it is necessary to provide them with an opportunity to acquire knowledge, skills, and develop attitudes that will help them to act in environmentally responsible way, both locally and globally. This paper is part of the ELIPS project which aims to investigate environmental literacy (EL) and the environmental identity among the 7th grade students in Serbia. EL is operationalized comprehensively, encompassing four components: (1) knowledge, (2) affect, (3) cognitive skills, and (4) behavior (Marcinkowski, 1991, 2004; McBeth et al., 2008; Wilke, 1995). The testing of EL among elementary school students was conducted in several countries around the world applying an international instrument for determining the level of environmental literacy, the Middle School Environmental Literacy Survey (MSELS) (McBeth et al., 2008). In the USA, EL was tested on a sample of sixth-graders (age 11-12) and the eighth-graders (age 13-14). The total EL score on a total sample was 144.83 (out of 240) (McBeth et al., 2008). As far as separate EL components are concerned, the students from the USA achieved the following results: knowledge – 40.34; affect – 38.05; cognitive skills – 25.56, and 36.84 for behavior. Students from Thessaloniki (Greece), age12-15, had a total score of 123.31 (Nastoulas et al., 2017). The scores for EL components for the students from Thessaloniki were: knowledge – 35.18; affect – 35.43; cognitive skills – 17.2, and 36.5 for behavior.
In the context of local and global environmental issues, as well as the obligations of Serbia stemming from signing international (UN) documents related to the environment and environmental education, the early 21st century marked the beginning of the implementation of the goals of this concept in the educational system. Regarding elementary education, which is divided into two cycles in Serbia (the first cycle – students of age 7-10; the second cycle – students of age 11-15), these goals were implemented in some compulsory school subjects from the field of science (biology, chemistry, etc.), and in the curricula of some elective subjects. This was the case with the elective subject Guardians of Nature (GN) which was introduced in 2004. It was in the list of electives in the first six grades until 2018, when its status was formally changed and it became an optional activity. Nevertheless, its status essentially remained the same, provided that it is offered by a school which, in turn, is obligated to offer three elective subjects/optional activities in every grade and students are free to choose GN according to their interests. The subject/activity GN, though not compulsory for all students, is significant for our research because its goals/outcomes are focused on developing all EL components and the recommended contents encompass all topics related to the environment and the role of people in its degradation and preservation. In some research, the curricula are linked to the EL level of students. For example, the positive effects of the elective subjects pertaining to environmental education on the EL levels of students in the USA (North Carolina), age 11-14, were identified, especially in the domain of cognitive skills (Stevenson et al., 2013). Taking everything above-mentioned into account, we decided to investigate, apart from the EL of students of age 14, whether there is a connection between attending GN classes and the level of the EL components acquired.

Method
The researchers applied a survey methodology using the MSELS questionnaire (McBeth et al., 2008). The MSELS measures four EL components, with maximal score 60 per each, which means that the total number of the score points was maximum 240. The instrument contains the basic environmental knowledge items (N=17). The tasks related to cognitive skills (N=17) consist of texts presenting environmental problems in real-life situations. Students are expected to identify and analyze the problems given in the texts and then choose the best ecological strategies as solutions to the problem. The items measuring affect (N=25) refer to environmental sensitivity, students’ verbal commitment, and their intentions to preserve the environment. Pro-environmental behavior was measured in the tasks investigating students’ genuine commitment to protecting the environment in everyday situations (N=12). The instrument also includes the questions related to the socio-demographic characteristics of the students (age, gender, parents' level of education), and the electives the students have attended. The applicability of the MSELS (for the population of the 14-year-old students) in Serbian context was confirmed in a pilot study (Marušić Jablanović et al., 2022). The testing of the EL level of Serbian students was conducted on students of age 13-14 (N=877). The sample is stratified according to the regions and the urbanization level of the settlements in Serbia. The collected data were processed by using descriptive statistical procedures (for measuring students’ achievement on MSELS questionnaire, in total, and per EL component). The scores of students who attended the GN course from grades 1-4 were compared to the scores of students who have attended this course from the 5th grade, using an Independent-samples T test. The same test was applied for comparison of students who have not attended the course and those who have attended it since the 1st grade until now.

Expected Outcomes
The results indicate that the total average score of students is 147.93. The average scores for EL components are 37.85 for knowledge, 44.11 for affect, 25.97 for cognitive skills, and 40.01 for behavior. The students from Serbia obtained higher scores than American (McBeth et al.) and Greek students (Nastoulas et al., 2017), both in total EL score and in components affect and behavior. The students who attended GN elective subject/optional activity in both educational cycles have a more pronounced affect relative to students who did not attend the course (Sig = .009; df= 370; t= 2.636). The students who attended the course from grades 1-4 performed better on cognitive skills, compared to those attending it from the 5th grade (t=2.026, Sig=.043). Given that in Serbian educational practice teachers influence children’s subject/activity selection (Cvjetićanin et al., 2011), we may assume that GN contributed to students increased interest in nature, their decisiveness to change behavior and become more pro-active. The results speak in favor of the GN course, in terms of attitudes towards the environment, as well as in favor of the practice of teachers teaching grades 1-4. Nonetheless, the fact that students who attended this course did not have higher scores in other EL components raises concern. The results show that there is potential for improving the levels of EL in all domains, especially the cognitive skills domain. Although the elective subject/optional activity GN positively impacts the development of some EL components among children from Serbia, there are still indicators that the implementation of this course needs to be improved. In addition, some possible ways of developing students’ EL include development of teachers’ environmental competencies, enrichment of compulsory subjects with environmental contents and activities, as well as greater support of school for outdoor learning, cooperation with local community.

References
Cvjetićanin, S., Segedinac, M., & Segedinac, M. (2011). Problems of teachers related to teaching optional science subjects in elementary schools in Serbia. Croatian Journal of Education, 13(2), 184-216. McBeth, B., Hungerford, H., Marcinkowski, T., Volk, T. & Meyers, R. (2008). National Environmental Literacy Assessment Project: Year 1, National Baseline Study of Middle Grades Students Final Research Report (192). National Oceanic and Atmospheric Administration. Retrieved January 10, 2022. from https://www.noaa.gov/sites/default/files/legacy/document/2019/Jun/Final_NELA_minus_MSELS_8-12-08.pdf Marcinkowski, T. (1991). The relationship between environmental literacy and responsible environmental behavior in environmental education. Methods and Techniques for Evaluating Environmental Education. UNESCO. Marcinkowski, T. (2004). Using a Logic Model to Review and Analyze an Environmental Education Program. In Volk, T. (Ed.), NAAEE Monograph Series, Volume 1. NAAEE. Marušić Jablanović, M., Stanišić, J. & Savić, S. (2022). Еnvironmental Literacy of Students in Belgrade Schools: Results of a Pilot Research. Teaching Innovations, 35(4), 28–46. DOI: 10.5937/inovacije2204028M Nastoulas, I., Marini, K. & Skanavis, C. (2017). Middle school students’ environmental literacy assessment in Thessaloniki, Greece. In Anwar, S., El Sergany, M. & Ankit, A. (Eds.). Health and Environment Conference Proceedings (198–209). Dubai: Hamdan Bin Mohammed Smart University. Retrieved January 10, 2022. from https://www.hbmsu.ac.ae/downloads/massmail/2017/august/HBMSU_Innovation_Arabia_Health_and_ Environment_Conference_Proceedings_2017.pdf#page=203 Pravilnik o nastavnom planu i programu za prvi i drugi razred osnovnog obrazovanja i vaspitanja [The Rulebook on the Curriculum for the first and second grades of elementary school] (2004). Službeni glasnik RS - Prosvetni glasnik, br. 10. Pravilnik o dopunama Pravilnika o planu nastave i učenja za prvi ciklus osnovnog obrazovanja i vaspitanja [The Rulebook on amendments to the Rulebook on teaching and learning plan for the first cycle of elementary school] (2018). Službeni glasnik RS - Prosvetni glasnik, br. 15. Pravilnik o planu i programu nastave i učenja za peti i šesti razred osnovnog obrazovanja i vaspitanja [The Rulebook on teaching and learning plan for the fifth and sixth grades of elementary school] (2018). Službeni glasnik RS - Prosvetni glasnik, br. 15. Stevenson, K. T., Peterson, M. N., Bondell, H. D., Mertig, A. G. & Moore, S. E. (2013). Environmental, Institutional, and Demographic Predictors of Environmental Literacy among Middle School Children. PLOS ONE, 8 (3), e59519. Retrieved Jun 22, 2022. from https://doi.org/10.1371/journal.pone.0059519 Wilke, R. (Ed.). (1995). Environmental Education Literacy/Needs Assessment Project: Assessing Environmental Literacy of Students and Environmental Education Needs of Teachers; Final Report for 1993–1995 (30–76). (Report to NCEET/University of Michigan under U.S. EPA Grant #NT901935-01-2). University of Wisconsin – Stevens Point.",
publisher = "Germany : European Educational Research Association",
journal = "ECER",
title = "Environmental Literacy Development and the Role of Environmental Elective Elementary School Course: Case of Serbian Education",
url = "https://hdl.handle.net/21.15107/rcub_ipir_1131"
}

Blagdanić, S., Marušić Jablanović, M., Stanišić, J., Veinović, Z.,& Savić, S.. (2024). Environmental Literacy Development and the Role of Environmental Elective Elementary School Course: Case of Serbian Education. in ECER
Germany : European Educational Research Association..
https://hdl.handle.net/21.15107/rcub_ipir_1131

Blagdanić S, Marušić Jablanović M, Stanišić J, Veinović Z, Savić S. Environmental Literacy Development and the Role of Environmental Elective Elementary School Course: Case of Serbian Education. in ECER. 2024;.
https://hdl.handle.net/21.15107/rcub_ipir_1131 .

Blagdanić, Sanja, Marušić Jablanović, Milica, Stanišić, Jelena, Veinović, Zorica, Savić, Slađana, "Environmental Literacy Development and the Role of Environmental Elective Elementary School Course: Case of Serbian Education" in ECER (2024),
https://hdl.handle.net/21.15107/rcub_ipir_1131 .

TY  - CONF
AU  - Blagdanić, Sanja
AU  - Marušić Jablanović, Milica
AU  - Đorđević, Dragana
AU  - Gundogan, Dragana
AU  - Joseph Marcinkowski, Thomas
AU  - Županec, Vera
PY  - 2024
UR  - https://eera-ecer.de/ecer-programmes/conference/29/contribution/58746
UR  - http://ipir.ipisr.org.rs/handle/123456789/1130
AB  - Contribution
According to the Environmental Performance Index that estimates climate change performance, environmental health and ecosystem vitality, Serbia takes rank 79 out of 180 countries (Wolf et al., 2022). Environmentally irresponsible behavior in Serbia is demonstrated both at the individual and institutional level (uncontrolled crops burning, lack of waste water treatment, using low quality coal and oil derivatives for power plants and individual heating systems, unsanitary landfills, massive deforestation etc.) and requests urgent changes of practice and finding solutions. Several authors underline the role of environmental education in raising awareness and changing behavior of young generations (Coyle, 2005). The main goal of environmental education is creating environmentally literate citizens, capable for lifelong learning (Coyle, 2005). “The environmentally literate citizen, let us imagine, will have a blend of ecological sensitivity, moral maturity and informed awareness of natural processes that would make her or him unlikely to contribute to further degradation of natural processes at either individual or corporate levels. This is an ideal, for it would never be expected that all citizens could really attain such competence” (Brennan, 1994: 5).
The concept of the environmental literacy has been widely theoretically used and empirically tested (Marcinkowski & Reid, 2019; Negev, et al., 2008; Nastoulas, Marini &Skanavis, 2017). According to Simmons (1995), Wilke (1995), and others (e.g., McBride et al. 2013), environmental literacy encompasses: ecological and environmental knowledge, awareness of environmental problems, cognitive skills for analyzing environmental problems as well as proposed solutions or actions, and manifesting pro-ecological behavior which, all together, can help decrease environmental impact and increase participation in social activities intended to protect the environment at the individual and household levels (Negev, et al., 2008; Stern, 2000). Our study relies on the methodological framework developed for the purpose of national testing of environmental literacy in the USA (McBeth et al., 2008) that measures environmental literacy through four components and their subcomponents: (1) ecological knowledge, (2) environmental affect (verbal commitment, environmental sensitivity and environmental feelings), (3) actual commitment (pro-environmental behavior) and (4) cognitive skills (identification of environmental problems, analysis of the environmental problems and action planning). The study is a result of the project Environmental Identity of Primary School Students in Serbia, which aims to investigate environmental literacy and the environmental identity among the students of final grades of primary school (13-15 years old). The purpose of this paper was to summarize the results of analyses which sought to determine whether the components of ecological knowledge, environmental affect and cognitive skills could predict pro-environmental behavior of the students.

Method
The sample (N=877) was stratified according to the regions of the country and the type of the settlement (urban/rural). It consisted of seventh-grade students (aged 13-14), with boys and girls equally represented. The data were collected after obtaining the Ethics Committees approvals, and the consents of the schools' principals, parents and the participants themselves. For the measurement of the Environmental literacy components, the Middle School Students’ Environmental Literacy Survey or MSELS (McBeth & Volk, 2010; Hungerford& Peyton, 1980; Stern, 2000) was applied, which has been utilized in different cultures, after the USA national study (McBeth et al., 2008). The Instrument consists of: (a) questions on demographic characteristics; (b) a multiple choice test of ecological knowledge; (c) two scales, one pertaining to environmental sensitivity (feelings towards and activities in nature) and one to willingness to participate/act, each of which were measured using a 5-pointLikert-type environmental affect scale; (d) a multiple choice test of cognitive skills; and (e) a self-reported behavior scale (referring to saving resources, recycling, communication regarding environment etc) which also was measured using a 5-point Likert-type scale. The cognitive skills tasks include descriptions of real-life situations and demand: the identification of the problems described, the identification of the values contained in the stories of the actors, offering their perspective on the environmental problems, and the identification of the best strategies for solving the problem presented. In order to prevent missing data due to participants’ fatigue, the order of the tasks was changed. The cognitive skills tasks were placed after the knowledge test. The four components of the environmental literacy (knowledge, cognitive skills, affect, behavior) have the same weight, with the maximal value 60. The overall literacy score is obtained by adding the component scores, leading to the maximal environmental literacy score of 240. The instrument was addressed personally by the researchers, and the students needed 60 to 75 minutes to fill in all sections. To identify the extent to which ecological knowledge, environmental affect and cognitive skills were predictive of pro-environmental behavior, a regression analysis was applied. In order to determine if the suspected mediating role of the affect is significant, we have applied the Sobel test.

Expected Outcomes
The results indicate that ecological knowledge covered by school curricula has a negligible power in predicting affect (0.5%) and statistically insignificant power in predicting behavior. Nevrtheless, these results should be interpreted cautiously, and further study would be needed to determine if, when, and how students make use of their knowledge when preparing for and/or taking specific any action(s) in real-world situations. Cognitive skills were a weak predictor of affect (3% of variance explained) and an insufficient predictor of behavior (1.4%). However, when environmental affect was introduced into the regression model as an independent variable, cognitive skills lose the ability to predict behavior and the complete predictive power (54%) belongs to affect. The mediating role of affect was confirmed using a Sobel test. It can be interpreted that even if certain cognitive skills are developed, a change in the way children feel about nature seems necessary, as this appears to help create a level of affective readiness for environmental learning in and out of school, community engagement, and changes in behavior in private and public settings. Regarding the affect prediction, when both knowledge and cognitive skills are added as predictors, the observed small predictive power (2.9%) belongs to cognitive skills only. The assumed relationship is bidirectional. These results draw attention to curricular goals, which largely emphasize the cognitive dimension of environmental literacy (especially knowledge), and neglect affective dimension, while expecting a change in the behavior in the population of students in school and after they graduate. These results are consistent with those reported in similar studies (e.g., McBeth et al. 2014). We assume that providing opportunities for outdoor learning, research in the surrounding nature, engaging in local environmental activities, planting a school garden and personal contact with damaged nature site could facilitate establishing positive environmental affect and the corresponding pro-environmental behavior.

References
Brennan, A. (1994). Environmental Literacy and Educational Ideal, Environmental Values, 3 (1) :3-16. Coyle, K. (2005). Environmental Literacy in America. Washington, DC: The National Environmental Education and Training Foundation. Hungerford, H.& Peyton, R. (1980). A paradigm for citizen responsibility: Environmental action. In A. Sacks, et al. (Eds.), Current Issues VI: The Yearbook of Environmental Education and Environmental Studies (pp. 146-154),Columbus, OH: ERIC/SMEAC. Marcinkowski, T.& Reid, A. (2019). Reviews of research on the attitude–behavior relationship and their implications for future environmental education research. Environmental Education Research, 25(4), 459-471. McBeth, W., Hungerford, H., Marcinkowski, T., Volk, T., & Meyers, R. (2008). National Environmental Literacy Assessment Project: Year 1, National baseline study of middle grades students. Final report. McBeth, W, Marcinkowski, T, Giannoulis, C., Hungerford, H., Volk, T., and Howell, J. (2014). Secondary analysis of the National Environmental Literacy Assessment: Phase I and II student, teacher, program and school surveys. McBeth, W., & Volk, T. L. (2009). The national environmental literacy project: A baseline study of middle grade students in the United States. The Journal of Environmental Education, 41(1), 55-67. McBride, B, Brewer, C., Berkowitz, A., &Borrie, W. (2013). Environmental literacy, ecological literacy, and ecoliteracy: What do we mean and how did we get here? Ecosphere, 4(5), 1-20. Nastoulas, I., Marini, K. &Skanavis, C. (2017). Middle school students environmental literacy assessment inThessaloniki, Greece. In: Anwar, S., El Sergany, M. & Ankit, A. (Eds.). Health and Environment Conference Proceedings (198–209). Dubai: Hamdan Bin Mohammed Smart University. Negev, M., Sagy, G., Garb, Y., Salzberg, A. & Tal, A. (2008) Evaluating the Environmental Literacy of Israeli Elementary and High School Students, The Journal of Environmental Education,39:2, 3-20. Simmons, D. (1995). Developing a framework for national environmental education standards [Working paper]. In D. Simmons (Ed.), The NAAEE standards project: Papers on the development of environmental education standards (pp. 9–58). Troy, OH: North American Association for Environmental Education. Stern, P. (2000). Toward a coherent theory of environmentally significant behavior. Journal of Social Issues, 56(3), 407-424. Wilke, R. (Ed.). (1995). Environmental Education Literacy/Needs Assessment Project: Assessing environmental literacy of students and environmental education needs of teachers; Final Report for 1993-1995. Stevens Point, WI: University of Wisconsin - Stevens Point. Wolf, M. J., Emerson, J. W., Esty, D. C., de Sherbinin, A., Wendling, Z. A., et al. (2022). 2022 Environmental Performance Index. New Haven, CT: Yale Center for Environmental Law & Policy. epi.yale.edu
PB  - Germany : European Educational Research Association
C3  - ECER
T1  - Ecological Knowledge, Environmental Cognitive Skills and Affect in Predicting Pro-environmental Behavior among 7th Grade Students
UR  - https://hdl.handle.net/21.15107/rcub_ipir_1130
ER  - 

@conference{
author = "Blagdanić, Sanja and Marušić Jablanović, Milica and Đorđević, Dragana and Gundogan, Dragana and Joseph Marcinkowski, Thomas and Županec, Vera",
year = "2024",
abstract = "Contribution
According to the Environmental Performance Index that estimates climate change performance, environmental health and ecosystem vitality, Serbia takes rank 79 out of 180 countries (Wolf et al., 2022). Environmentally irresponsible behavior in Serbia is demonstrated both at the individual and institutional level (uncontrolled crops burning, lack of waste water treatment, using low quality coal and oil derivatives for power plants and individual heating systems, unsanitary landfills, massive deforestation etc.) and requests urgent changes of practice and finding solutions. Several authors underline the role of environmental education in raising awareness and changing behavior of young generations (Coyle, 2005). The main goal of environmental education is creating environmentally literate citizens, capable for lifelong learning (Coyle, 2005). “The environmentally literate citizen, let us imagine, will have a blend of ecological sensitivity, moral maturity and informed awareness of natural processes that would make her or him unlikely to contribute to further degradation of natural processes at either individual or corporate levels. This is an ideal, for it would never be expected that all citizens could really attain such competence” (Brennan, 1994: 5).
The concept of the environmental literacy has been widely theoretically used and empirically tested (Marcinkowski & Reid, 2019; Negev, et al., 2008; Nastoulas, Marini &Skanavis, 2017). According to Simmons (1995), Wilke (1995), and others (e.g., McBride et al. 2013), environmental literacy encompasses: ecological and environmental knowledge, awareness of environmental problems, cognitive skills for analyzing environmental problems as well as proposed solutions or actions, and manifesting pro-ecological behavior which, all together, can help decrease environmental impact and increase participation in social activities intended to protect the environment at the individual and household levels (Negev, et al., 2008; Stern, 2000). Our study relies on the methodological framework developed for the purpose of national testing of environmental literacy in the USA (McBeth et al., 2008) that measures environmental literacy through four components and their subcomponents: (1) ecological knowledge, (2) environmental affect (verbal commitment, environmental sensitivity and environmental feelings), (3) actual commitment (pro-environmental behavior) and (4) cognitive skills (identification of environmental problems, analysis of the environmental problems and action planning). The study is a result of the project Environmental Identity of Primary School Students in Serbia, which aims to investigate environmental literacy and the environmental identity among the students of final grades of primary school (13-15 years old). The purpose of this paper was to summarize the results of analyses which sought to determine whether the components of ecological knowledge, environmental affect and cognitive skills could predict pro-environmental behavior of the students.

Method
The sample (N=877) was stratified according to the regions of the country and the type of the settlement (urban/rural). It consisted of seventh-grade students (aged 13-14), with boys and girls equally represented. The data were collected after obtaining the Ethics Committees approvals, and the consents of the schools' principals, parents and the participants themselves. For the measurement of the Environmental literacy components, the Middle School Students’ Environmental Literacy Survey or MSELS (McBeth & Volk, 2010; Hungerford& Peyton, 1980; Stern, 2000) was applied, which has been utilized in different cultures, after the USA national study (McBeth et al., 2008). The Instrument consists of: (a) questions on demographic characteristics; (b) a multiple choice test of ecological knowledge; (c) two scales, one pertaining to environmental sensitivity (feelings towards and activities in nature) and one to willingness to participate/act, each of which were measured using a 5-pointLikert-type environmental affect scale; (d) a multiple choice test of cognitive skills; and (e) a self-reported behavior scale (referring to saving resources, recycling, communication regarding environment etc) which also was measured using a 5-point Likert-type scale. The cognitive skills tasks include descriptions of real-life situations and demand: the identification of the problems described, the identification of the values contained in the stories of the actors, offering their perspective on the environmental problems, and the identification of the best strategies for solving the problem presented. In order to prevent missing data due to participants’ fatigue, the order of the tasks was changed. The cognitive skills tasks were placed after the knowledge test. The four components of the environmental literacy (knowledge, cognitive skills, affect, behavior) have the same weight, with the maximal value 60. The overall literacy score is obtained by adding the component scores, leading to the maximal environmental literacy score of 240. The instrument was addressed personally by the researchers, and the students needed 60 to 75 minutes to fill in all sections. To identify the extent to which ecological knowledge, environmental affect and cognitive skills were predictive of pro-environmental behavior, a regression analysis was applied. In order to determine if the suspected mediating role of the affect is significant, we have applied the Sobel test.

Expected Outcomes
The results indicate that ecological knowledge covered by school curricula has a negligible power in predicting affect (0.5%) and statistically insignificant power in predicting behavior. Nevrtheless, these results should be interpreted cautiously, and further study would be needed to determine if, when, and how students make use of their knowledge when preparing for and/or taking specific any action(s) in real-world situations. Cognitive skills were a weak predictor of affect (3% of variance explained) and an insufficient predictor of behavior (1.4%). However, when environmental affect was introduced into the regression model as an independent variable, cognitive skills lose the ability to predict behavior and the complete predictive power (54%) belongs to affect. The mediating role of affect was confirmed using a Sobel test. It can be interpreted that even if certain cognitive skills are developed, a change in the way children feel about nature seems necessary, as this appears to help create a level of affective readiness for environmental learning in and out of school, community engagement, and changes in behavior in private and public settings. Regarding the affect prediction, when both knowledge and cognitive skills are added as predictors, the observed small predictive power (2.9%) belongs to cognitive skills only. The assumed relationship is bidirectional. These results draw attention to curricular goals, which largely emphasize the cognitive dimension of environmental literacy (especially knowledge), and neglect affective dimension, while expecting a change in the behavior in the population of students in school and after they graduate. These results are consistent with those reported in similar studies (e.g., McBeth et al. 2014). We assume that providing opportunities for outdoor learning, research in the surrounding nature, engaging in local environmental activities, planting a school garden and personal contact with damaged nature site could facilitate establishing positive environmental affect and the corresponding pro-environmental behavior.

References
Brennan, A. (1994). Environmental Literacy and Educational Ideal, Environmental Values, 3 (1) :3-16. Coyle, K. (2005). Environmental Literacy in America. Washington, DC: The National Environmental Education and Training Foundation. Hungerford, H.& Peyton, R. (1980). A paradigm for citizen responsibility: Environmental action. In A. Sacks, et al. (Eds.), Current Issues VI: The Yearbook of Environmental Education and Environmental Studies (pp. 146-154),Columbus, OH: ERIC/SMEAC. Marcinkowski, T.& Reid, A. (2019). Reviews of research on the attitude–behavior relationship and their implications for future environmental education research. Environmental Education Research, 25(4), 459-471. McBeth, W., Hungerford, H., Marcinkowski, T., Volk, T., & Meyers, R. (2008). National Environmental Literacy Assessment Project: Year 1, National baseline study of middle grades students. Final report. McBeth, W, Marcinkowski, T, Giannoulis, C., Hungerford, H., Volk, T., and Howell, J. (2014). Secondary analysis of the National Environmental Literacy Assessment: Phase I and II student, teacher, program and school surveys. McBeth, W., & Volk, T. L. (2009). The national environmental literacy project: A baseline study of middle grade students in the United States. The Journal of Environmental Education, 41(1), 55-67. McBride, B, Brewer, C., Berkowitz, A., &Borrie, W. (2013). Environmental literacy, ecological literacy, and ecoliteracy: What do we mean and how did we get here? Ecosphere, 4(5), 1-20. Nastoulas, I., Marini, K. &Skanavis, C. (2017). Middle school students environmental literacy assessment inThessaloniki, Greece. In: Anwar, S., El Sergany, M. & Ankit, A. (Eds.). Health and Environment Conference Proceedings (198–209). Dubai: Hamdan Bin Mohammed Smart University. Negev, M., Sagy, G., Garb, Y., Salzberg, A. & Tal, A. (2008) Evaluating the Environmental Literacy of Israeli Elementary and High School Students, The Journal of Environmental Education,39:2, 3-20. Simmons, D. (1995). Developing a framework for national environmental education standards [Working paper]. In D. Simmons (Ed.), The NAAEE standards project: Papers on the development of environmental education standards (pp. 9–58). Troy, OH: North American Association for Environmental Education. Stern, P. (2000). Toward a coherent theory of environmentally significant behavior. Journal of Social Issues, 56(3), 407-424. Wilke, R. (Ed.). (1995). Environmental Education Literacy/Needs Assessment Project: Assessing environmental literacy of students and environmental education needs of teachers; Final Report for 1993-1995. Stevens Point, WI: University of Wisconsin - Stevens Point. Wolf, M. J., Emerson, J. W., Esty, D. C., de Sherbinin, A., Wendling, Z. A., et al. (2022). 2022 Environmental Performance Index. New Haven, CT: Yale Center for Environmental Law & Policy. epi.yale.edu",
publisher = "Germany : European Educational Research Association",
journal = "ECER",
title = "Ecological Knowledge, Environmental Cognitive Skills and Affect in Predicting Pro-environmental Behavior among 7th Grade Students",
url = "https://hdl.handle.net/21.15107/rcub_ipir_1130"
}

Blagdanić, S., Marušić Jablanović, M., Đorđević, D., Gundogan, D., Joseph Marcinkowski, T.,& Županec, V.. (2024). Ecological Knowledge, Environmental Cognitive Skills and Affect in Predicting Pro-environmental Behavior among 7th Grade Students. in ECER
Germany : European Educational Research Association..
https://hdl.handle.net/21.15107/rcub_ipir_1130

Blagdanić S, Marušić Jablanović M, Đorđević D, Gundogan D, Joseph Marcinkowski T, Županec V. Ecological Knowledge, Environmental Cognitive Skills and Affect in Predicting Pro-environmental Behavior among 7th Grade Students. in ECER. 2024;.
https://hdl.handle.net/21.15107/rcub_ipir_1130 .

Blagdanić, Sanja, Marušić Jablanović, Milica, Đorđević, Dragana, Gundogan, Dragana, Joseph Marcinkowski, Thomas, Županec, Vera, "Ecological Knowledge, Environmental Cognitive Skills and Affect in Predicting Pro-environmental Behavior among 7th Grade Students" in ECER (2024),
https://hdl.handle.net/21.15107/rcub_ipir_1130 .

TY  - CONF
AU  - Marušić Jablanović, Milica
AU  - Stanišić, Jelena
AU  - Gundogan, Dragana
AU  - Blagdanić, Sanja
AU  - Veinović, Zorica
AU  - Đorđević, Dragana
AU  - Županec, Vera
AU  - Savić, Slađana
PY  - 2023
UR  - http://ipir.ipisr.org.rs/handle/123456789/1014
AB  - Environmental problems have gained prominence in light of the emerging global
environmental crisis and its devastating impact on all living beings (Beck, 1992; Ehrlich
& Ehrlich, 2013; Rockstrom et al. 2009). Therefore, there is a need for environmentally
literate citizens who understand the essence of these problems and are ready to respond
to the challenges they pose. Research has shown that societies and social groups react to
ecological problems differently. Socioeconomic factors are important since social groups differ in terms of their ecological knowledge and awareness as well as environmental
affect, behavior, and activism.
PB  - Belgrade : Institute for Educational Research
C3  - Towards a More Equitable Education: From Research to Change
T1  - The importance of sociodemographic characteristics for the development of environmental literacy
EP  - 61
SP  - 55
UR  - https://hdl.handle.net/21.15107/rcub_ipir_1014
ER  - 

@conference{
author = "Marušić Jablanović, Milica and Stanišić, Jelena and Gundogan, Dragana and Blagdanić, Sanja and Veinović, Zorica and Đorđević, Dragana and Županec, Vera and Savić, Slađana",
year = "2023",
abstract = "Environmental problems have gained prominence in light of the emerging global
environmental crisis and its devastating impact on all living beings (Beck, 1992; Ehrlich
& Ehrlich, 2013; Rockstrom et al. 2009). Therefore, there is a need for environmentally
literate citizens who understand the essence of these problems and are ready to respond
to the challenges they pose. Research has shown that societies and social groups react to
ecological problems differently. Socioeconomic factors are important since social groups differ in terms of their ecological knowledge and awareness as well as environmental
affect, behavior, and activism.",
publisher = "Belgrade : Institute for Educational Research",
journal = "Towards a More Equitable Education: From Research to Change",
title = "The importance of sociodemographic characteristics for the development of environmental literacy",
pages = "61-55",
url = "https://hdl.handle.net/21.15107/rcub_ipir_1014"
}

Marušić Jablanović, M., Stanišić, J., Gundogan, D., Blagdanić, S., Veinović, Z., Đorđević, D., Županec, V.,& Savić, S.. (2023). The importance of sociodemographic characteristics for the development of environmental literacy. in Towards a More Equitable Education: From Research to Change
Belgrade : Institute for Educational Research., 55-61.
https://hdl.handle.net/21.15107/rcub_ipir_1014

Marušić Jablanović M, Stanišić J, Gundogan D, Blagdanić S, Veinović Z, Đorđević D, Županec V, Savić S. The importance of sociodemographic characteristics for the development of environmental literacy. in Towards a More Equitable Education: From Research to Change. 2023;:55-61.
https://hdl.handle.net/21.15107/rcub_ipir_1014 .

Marušić Jablanović, Milica, Stanišić, Jelena, Gundogan, Dragana, Blagdanić, Sanja, Veinović, Zorica, Đorđević, Dragana, Županec, Vera, Savić, Slađana, "The importance of sociodemographic characteristics for the development of environmental literacy" in Towards a More Equitable Education: From Research to Change (2023):55-61,
https://hdl.handle.net/21.15107/rcub_ipir_1014 .

TY  - CHAP
AU  - Stanišić, Jelena
AU  - Blagdanić, Sanja
AU  - Marušić Jablanović, Milica
PY  - 2021
UR  - http://ipir.ipisr.org.rs/handle/123456789/654
AB  - Poznavanje prirodnih nauka predstavlja temelj čovekovih aktivnosti u mnogim oblastima
života. Budući da predstavlјaju jednu od osnovnih oblasti lјudskog znanja i delatnosti,
prirodne nauke su zastuplјene od predškolskog uzrasta u kurikulumima različitih
obrazovnih sistema. Program predškolskog vaspitanja i obrazovanja Republike Srbije
svrstava matematičke, naučne i tehnološke kompetencije među klјučne kompetencije za
celoživotno učenje (Osnove programa predškolskog vaspitanja i obrazovanja, 2018). Savet
Evropske unije prepoznaje matematičku kompetenciju sa osnovama prirodnih nauka i
tehnologije u svom okviru klјučnih kompetencija. U okviru pomenute kompetencije
se domen prirodnih nauka i tehnologije određuje kao sposobnost i spremnost da se
koristi skup znanja i metoda kako bi se objasnio svet prirode, formulisala pitanja i izveli
zaklјučci zasnovani na dokazima, ali i kao preuzimanje uloge odgovornog građanina i
razumevanje promena do kojih dovodi lјudska aktivnost u oblasti prirodnih nauka (The
Council of European Union, 2018). Osim ostvarivanja dobrobiti pojedinca, obrazovanje
u oblasti prirodnih nauka i matematike predstavlja strateški važan cilј svake zemlјe koja
teži kompetitivnosti u međunarodnom kontekstu, zbog čega se posebna pažnja poklanja
rezultatima međunarodnih studija postignuća učenika u pomenutim oblastima.
PB  - Beograd : Institut za pedagoška istraživanja
T2  - TIMSS 2019 u Srbiji : rezultati međunarodnog istraživanja postignuća učenika četvrtog razreda osnovne škole iz matematike i prirodnih nauka
T1  - Greške učenika u rešavanju TIMSS 2019 zadataka – oblast biologija
EP  - 219
SP  - 193
UR  - https://hdl.handle.net/21.15107/rcub_ipir_654
ER  - 

@inbook{
author = "Stanišić, Jelena and Blagdanić, Sanja and Marušić Jablanović, Milica",
year = "2021",
abstract = "Poznavanje prirodnih nauka predstavlja temelj čovekovih aktivnosti u mnogim oblastima
života. Budući da predstavlјaju jednu od osnovnih oblasti lјudskog znanja i delatnosti,
prirodne nauke su zastuplјene od predškolskog uzrasta u kurikulumima različitih
obrazovnih sistema. Program predškolskog vaspitanja i obrazovanja Republike Srbije
svrstava matematičke, naučne i tehnološke kompetencije među klјučne kompetencije za
celoživotno učenje (Osnove programa predškolskog vaspitanja i obrazovanja, 2018). Savet
Evropske unije prepoznaje matematičku kompetenciju sa osnovama prirodnih nauka i
tehnologije u svom okviru klјučnih kompetencija. U okviru pomenute kompetencije
se domen prirodnih nauka i tehnologije određuje kao sposobnost i spremnost da se
koristi skup znanja i metoda kako bi se objasnio svet prirode, formulisala pitanja i izveli
zaklјučci zasnovani na dokazima, ali i kao preuzimanje uloge odgovornog građanina i
razumevanje promena do kojih dovodi lјudska aktivnost u oblasti prirodnih nauka (The
Council of European Union, 2018). Osim ostvarivanja dobrobiti pojedinca, obrazovanje
u oblasti prirodnih nauka i matematike predstavlja strateški važan cilј svake zemlјe koja
teži kompetitivnosti u međunarodnom kontekstu, zbog čega se posebna pažnja poklanja
rezultatima međunarodnih studija postignuća učenika u pomenutim oblastima.",
publisher = "Beograd : Institut za pedagoška istraživanja",
journal = "TIMSS 2019 u Srbiji : rezultati međunarodnog istraživanja postignuća učenika četvrtog razreda osnovne škole iz matematike i prirodnih nauka",
booktitle = "Greške učenika u rešavanju TIMSS 2019 zadataka – oblast biologija",
pages = "219-193",
url = "https://hdl.handle.net/21.15107/rcub_ipir_654"
}

Stanišić, J., Blagdanić, S.,& Marušić Jablanović, M.. (2021). Greške učenika u rešavanju TIMSS 2019 zadataka – oblast biologija. in TIMSS 2019 u Srbiji : rezultati međunarodnog istraživanja postignuća učenika četvrtog razreda osnovne škole iz matematike i prirodnih nauka
Beograd : Institut za pedagoška istraživanja., 193-219.
https://hdl.handle.net/21.15107/rcub_ipir_654

Stanišić J, Blagdanić S, Marušić Jablanović M. Greške učenika u rešavanju TIMSS 2019 zadataka – oblast biologija. in TIMSS 2019 u Srbiji : rezultati međunarodnog istraživanja postignuća učenika četvrtog razreda osnovne škole iz matematike i prirodnih nauka. 2021;:193-219.
https://hdl.handle.net/21.15107/rcub_ipir_654 .

Stanišić, Jelena, Blagdanić, Sanja, Marušić Jablanović, Milica, "Greške učenika u rešavanju TIMSS 2019 zadataka – oblast biologija" in TIMSS 2019 u Srbiji : rezultati međunarodnog istraživanja postignuća učenika četvrtog razreda osnovne škole iz matematike i prirodnih nauka (2021):193-219,
https://hdl.handle.net/21.15107/rcub_ipir_654 .

TY  - CHAP
AU  - Miščević, Gordana
AU  - Blagdanić, Sanja
AU  - Bošnjak Stepanović, Marija
PY  - 2021
UR  - http://ipir.ipisr.org.rs/handle/123456789/655
AB  - The paper Knowledge in shadow - misconceptions related to light phenomena 
that are retained in spite of education by Gordana Miščević, Sanja Blagdanić and 
Marija Bošnjak Stepanović emphasizes the need to point out the importance of 
initiating science education at an early age. In both children and adults, knowledge 
related to natural phenomena is created through interaction with the environment 
and through social interaction (with adults and peers), as well as through formal 
and informal learning situations. The aim of this research is to identify the 
frequency of various misconceptions related to light phenomena in fourth-grade 
students and primary school class teachers. Findings of this research reveal that 
the majority of students show a misconception related to the apparent change of 
the Sun’s position during daylight. Teachers mostly show no dilemma regarding 
shadow shape, and the same holds true for approximately two thirds of students. 
Additional findings are presented and discussed in the paper. Teachers should 
have an insight into the most frequent and typical misconceptions of students 
in order to identify them and react to them adequately. One of the main roles 
of the educational system is to identify these misconceptions and help students 
overcome them
PB  - Belgrade : Institute for Educational Research
T2  - Problems and perspectives of contemporary education
T1  - Knowledge in shadow – misconceptions related to light phenomena that are retained in spite of education
EP  - 51
SP  - 35
UR  - https://hdl.handle.net/21.15107/rcub_ipir_655
ER  - 

@inbook{
author = "Miščević, Gordana and Blagdanić, Sanja and Bošnjak Stepanović, Marija",
year = "2021",
abstract = "The paper Knowledge in shadow - misconceptions related to light phenomena 
that are retained in spite of education by Gordana Miščević, Sanja Blagdanić and 
Marija Bošnjak Stepanović emphasizes the need to point out the importance of 
initiating science education at an early age. In both children and adults, knowledge 
related to natural phenomena is created through interaction with the environment 
and through social interaction (with adults and peers), as well as through formal 
and informal learning situations. The aim of this research is to identify the 
frequency of various misconceptions related to light phenomena in fourth-grade 
students and primary school class teachers. Findings of this research reveal that 
the majority of students show a misconception related to the apparent change of 
the Sun’s position during daylight. Teachers mostly show no dilemma regarding 
shadow shape, and the same holds true for approximately two thirds of students. 
Additional findings are presented and discussed in the paper. Teachers should 
have an insight into the most frequent and typical misconceptions of students 
in order to identify them and react to them adequately. One of the main roles 
of the educational system is to identify these misconceptions and help students 
overcome them",
publisher = "Belgrade : Institute for Educational Research",
journal = "Problems and perspectives of contemporary education",
booktitle = "Knowledge in shadow – misconceptions related to light phenomena that are retained in spite of education",
pages = "51-35",
url = "https://hdl.handle.net/21.15107/rcub_ipir_655"
}

Miščević, G., Blagdanić, S.,& Bošnjak Stepanović, M.. (2021). Knowledge in shadow – misconceptions related to light phenomena that are retained in spite of education. in Problems and perspectives of contemporary education
Belgrade : Institute for Educational Research., 35-51.
https://hdl.handle.net/21.15107/rcub_ipir_655

Miščević G, Blagdanić S, Bošnjak Stepanović M. Knowledge in shadow – misconceptions related to light phenomena that are retained in spite of education. in Problems and perspectives of contemporary education. 2021;:35-51.
https://hdl.handle.net/21.15107/rcub_ipir_655 .

Miščević, Gordana, Blagdanić, Sanja, Bošnjak Stepanović, Marija, "Knowledge in shadow – misconceptions related to light phenomena that are retained in spite of education" in Problems and perspectives of contemporary education (2021):35-51,
https://hdl.handle.net/21.15107/rcub_ipir_655 .