- Curriculum/Education Article
- Open Access
What Conceptions do Greek School Students Form about Biological Evolution?
© Springer Science + Business Media, LLC 2008 2008
- Received: 11 January 2008
- Accepted: 14 April 2008
- Published: 3 June 2008
In Greece, since 2000, the teaching of evolutionary theory is restricted solely to lower (junior) high school and specifically to ninth grade. Even though the theory of evolution is included to the 12th grade biology textbook, it is not taught in Greek upper (senior) high schools. This study presents research conducted on the conceptions of Greek students regarding issues set out in the theory of evolution after the formal completion of the teaching of the theory. The sample comprised 411 10th grade students from 12 different schools. The research results show that the students appear to have a positive view of the idea of evolution, the evolution of man, and the common origin of organisms. However, they have retained many alternative views, or else they are completely in ignorance of basic issues in evolutionary theory regarding: what is considered evolution in biology, the main mechanism of evolutionary changes in what is considered natural selection, what the theory of evolution actually explains, and what the word theory means in science. At least in Greece, these views still prevail because the theory of evolution is marginalized in the teaching of biology in Greek schools, and biology education does not help students formulate overall conceptual structures to enable them to understand the question of biological change.
- Biology teaching
- Evolution education
- Students’ conceptions
Readers of the journal Evolution: Education and Outreach may know that national science academies of 67 countries that belong to the network ΙAP (Inter Academy Panel—a global network of science academies) cosigned a proclamation encouraging the public, teachers, and parents to provide school pupils with instruction in evolution (IAP 2006). However, what is not exactly known and which is interesting is what actually occurs in the various countries and for what reasons. Among the national science academies which cosigned the abovementioned proclamation was the Greek Academy, the Academy of Athens. As in other countries, there are also problems in Greece with the teaching of the theory of evolution. In this article, we wanted to make a contribution to the exchange of information and research experience in what is occurring in various countries in the world with regard to the teaching of evolution.
Naturally, we are already apprised of a number of published articles referring to the manner and conditions in which evolution is taught in the USA (Moore 1998–1999, 2000; Lerner 2000; Good 2003). Also useful are studies of the way evolution is presented in the American school curriculum and textbooks, such as Skoog (1984, 2005), Rosenthal (1985), and Swarts et al. (1994). Other information on the teaching of evolution in the USA is included in studies of teachers’ stance and other factors related to opposition to evolution, that is, creationism in the USA (Tatina 1989; Zimmerman 1991; Shankar and Skoog 1993; Osif 1997; Aguillard 1999; Meadows et al. 2000; Rutledge and Warden 2000; Rutledge and Mitchell 2002; Moore 2004; Griffith and Brem 2004; Trani 2004). Nevertheless, there are fewer articles on the situation in other countries than in the USA. Recently, in the first issue of the journal Evolution: Education and Outreach, there were two enlightening references to creationism in Germany (Kutschera 2008) and the creationist teaching in science at schools in the UK (Williams 2008). Also informative was an article on the views of Scottish biology students regarding the teaching of evolution (Downie and Barron 2000). In Spain, Barberá et al. (1999), in a survey of the Spanish biology curriculum during the twentieth century, refer among other things to pressure exerted by various social groups in the past aimed at influencing the curricula in such a way as to restrict the teaching of evolution. Moreover, Swarts et al. (1994) in their comparison of American, Chinese, and Soviet biology textbooks found that while textbooks in the USSR did have an emphasis on evolution, they neglected other issues. In comparison, Chinese textbooks introduced a far smaller number of issues, while American textbooks presented a large variety of evolutionary issues.
In Greece, since 2000, the teaching of evolutionary theory is restricted solely to lower high school (or junior high school, i.e., from grades 7 to 9) and specifically in the ninth grade. It is the final chapter in the ninth grade biology textbook.
The theory of evolution is not taught at all in upper high school (or senior high school, i.e., from grades 10 to 12); the theory is included only in the 12th grade biology curriculum. Although a chapter on evolution, the final chapter, is included in the 12th grade biology textbook, it is not taught to Greek students. That is due to the fact that what is taught or not taught in the 12th grade does not depend on what is in the school textbook but on what the schools’ central administration decides to be the material on which the students are to be examined in the general examinations at the end of the school year for the 12th grade. For reasons that have never been explained, after 2000, according to a ruling issued every year, setting out the material on which students are to be examined, the chapter titled “Evolution” is excluded and therefore not taught. In effect, that means that the theory of evolution is not seen as an important chapter on which students should be examined for entry to university. Therefore, even though the theory of evolution is included in the textbook and the famous title of the article by Dobzhansky (1973), “Nothing in biology makes sense except in the light of evolution,” is found on the title page of the chapter on evolution in the 12th grade biology textbook, it is not taught in Greek upper high schools. Therefore, students graduate without having been taught evolutionary theory in upper high school at all. We have written about this problem and talked about it in the press, as for example in the article, “The theory of evolution in Greek schools” in the English edition of a Greek newspaper (the daily newspaper Kathimerini) issued with the International Herald Tribune (February 11–12, 2006).
As for the existence of evolutionary concepts in the curriculum and textbooks of classes below ninth grade, (as shown in the study by Prinou et al. 2007), this is restricted and fragmentary. In the textbooks there are some isolated references to concepts such as the “adaptation” of organisms but they are given very cursory treatment. Overall, the evolutionary approach to the examination of organisms is generally absent.
Under such circumstances, it was very interesting to observe what Greek school pupils think about issues dealt with in evolutionary theory. This article therefore presents the conceptions formulated by pupils in secondary education in Greece, after the formal completion of the teaching of evolutionary theory.
The research instrument used was a questionnaire consisting of open-ended questions and multiple choice questions. The latter offered four possible responses “Absolutely agree,” “Probably agree,” “Absolutely disagree,” “Probably disagree,” as well as “Don’t know, no reply.”
Regarding the selection of issues to be investigated, as well as the choice and combination of questions, reference was made to the relevant bibliography on evolution as well as other research into views and difficulties with the issues and concepts of evolutionary theory (Lucas 1971; Clough and Wood-Robinson 1985; Halldén 1988; Brumby 1979, 1984; Bishop and Anderson 1990; Rutledge and Warden 2000). The students were not told at the beginning that the questionnaire concerned the theory of evolution, and the open-ended questions were presented first.
At the end of the questionnaire, the students were asked to evaluate whether they had been taught about evolution in previous grades on a scale of 1 (=not at all), 2, 3, and 4 (=very much) and whether they had understood the theory of evolution on the same scale of 1 (=not at all) to 4 (=very much).
The sample comprised 411 students (52.9% girls, 47.1% boys) from 12 different schools in Attica and the provinces. They were taken from the tenth grade, since the ninth grade is the last grade in which Greek school students are taught evolutionary theory, as referred to above.
The SPSS statistical program (SPSS version 13) and content analysis were used to process the questionnaire replies.
77.6% of students were aware that “The species living today are the result of evolutionary processes that have been occurring for millions of years 11.7% were not aware of that, and 10.7% responded with “Don’t know/No reply.”
89.3% disagreed with the statement: “All organisms appeared at the same time.” Just 5.4% of students agreed and as many responded with “Don’t know/No reply.”
86.2% disagreed with the statement “Millions of years ago there were exactly the same species of plants and animals as those living today.” Just 8.8% absolutely agreed, and 5.1% responded with “Don’t know/No reply.”
63% of students disagreed with the statement: “No species of animal that has lived on earth had become extinct by the time man appeared”; 18% agree, and 19% responded with “Don’t know/No reply.”
On the Origin of Man
For the origin of man, 58.6% accepted that “Man has evolved from ‘lower’ forms of life.” However, 21.9% of students do not accept that, and 19.5% responded with “Don’t know/No reply.”
On the Common Origin of Organisms
For the common origin of organisms, 53.3% of students accepted the view that “All species of organisms are descended from a common ancestor in the distant past.” This view is not accepted by 30.4%, while 18.7% responded with “Don’t know/No reply.”
On the Coexistence of Humans and Dinosaurs
For the coexistence of humans and dinosaurs, 46.7% of students disagreed with the phrase: “At one time, people co-existed with dinosaurs”; 34.5% thought they had, and 18.7% responded with “Don’t know/No reply.”
“Theory: Since There is No Evidence”
Only 24.1% of students disagreed with the phrase: “Evolution is called a theory because there is no evidence for it”; 42.1% agreed with this view, and 33.8% responded with “Don’t know/No reply.”
“How Did Life on Earth Begin?”
Only 13.2% of students do not accept that “Evolution is a theory that explains how life began on earth”; 69.6% agree that “evolution is a theory that explains how life began on earth,” and 17.3% responded with “Don’t know/No reply.”
The correlation of students’ replies as to the extent to which evolution was taught in previous classes and how they deal with the concept that “evolution is a theory that explains how life began on earth” proved to be statistically significant with χ2 = 17.687, ΒΕ = 6, and p value 0.007 < 0.05 and showed that only 9.7% and 6.8% of the students who evaluated their lessons in evolution correspondingly with 4 (very much) and 3 disagreed that “evolution is a theory that explains how life began on earth.”
How Do Students Believe that Changes Occur? Do They Think of Using Natural Selection in Order to Explain Them?
The students were asked to decide which explanation they would give to the following questions:
First Open-ended Question
“On the news it is announced that: ‘When insecticides were first sold they were very effective in eliminating flies and mosquitoes. Today, nearly 30 years later, insecticides are much less effective.’ How would you explain that?”1
The following answers were given:
A large percentage of students in the sample (41.4%) believe that organisms, in this case insects, being subjected to an environmental factor, in this case insecticide, “reacted”—all together—acquiring a new quality, e.g., immunity, antibodies, defense, protective measures, etc.
Some of the students (20.2%) believe that the organisms were “transformed” from nonresistant to resistant because they “became accustomed, adapted, got used to… mutated… etc.”
Others (3.4%) treated the organisms in an anthropocentric manner. For example: “The insects learn to… know…, feeling threatened, find ways to protect themselves.”
Yet others (15.6%) cited other reasons, e.g., that “insecticides are less effective (e.g. in the interests of the manufacturers, or in order to be less harmful to people, etc.”
Of the students, 19.4% gave answers that reiterated the question or did not reply at all.
Second Open-ended Question
“On an island subjected continually to strong winds, there is a species of insects that are wingless—that is to say having small to atrophied wings, not suitable for flight. That feature helps them not to be carried away by the winds into the sea, where they would drown. Can you give an explanation as to how that species of insect came to live on the island?”
The following answers were given:
Their bodies were formed in accordance with the requirements for survival in their environment, it “happened” naturally…, were created in that way so as to… etc. (27.6%)
Or because the insects adapted to their environment to…, they evolved to adapt, etc. (22.1%)
Or that “their wings atrophied because they stopped using them, etc.” (9.5%)
A small percentage (7.4%) of students replied that “the insects were born like that – there were also insects with wings but they died out…” while a considerable percentage (33.3%) reiterated the phrasing of the question, did not reply at all, or did not know, etc.
New Characteristics and the Invocation of the Concept of “Need”
In addition, the majority of students believed that new features emerged in the organisms out of need: 59.3% agreed that “new features appear in organisms because they need them in order to survive,” while 24.1% did not know or did not reply. Only 16.6% did not accept this view.
A correlation of the answers in the open question (a1), “organisms’ bodies were formed in accordance with the need to survive,” or that (a2) “organisms adapt themselves according to their environment” and (b) the view that “new features appear in organisms because they need them…” proved to be statistically significant with χ2 = 15.953, ΒΕ = 8, and p value 0.043 < 0. 05 and showed that:
A large percentage of students (a1), 62.3% of those who believe that “the bodies of organisms were formed in accordance with the need to survive” and (a2), 70.3% of those who believe that “insects adapt to their environment,” that is, those who did not reply in a scientific manner to the open-ended question, believe that “new features appear in organisms because they need them in order to survive.”
What is “Chosen” in Natural Selection?
The students have a completely different perception than the scientific view as to how natural selection operates. They take the simplistic view that natural selection is the process in which stronger individuals are favored. Only 23.6% disagreed with the view that “in the struggle for survival natural selection favors the stronger individuals.”
Sixty-three percent of the students accepted that view, and 13.4% either said they did not know or else they did not reply.
Evolution refers to changes in populations—not individuals
The correlation of students’ replies (a) as to “to what extent they had been taught evolution in previous classes” and (b) the view that “evolution refers to changes in populations, not individuals” proved to be statistically significant with χ2 = 26.720, ΒΕ = 6, and p value 0.000 < 0.05 and showed that:
71% of the students in the sample who evaluated their previous lessons in evolution with 4 (=very much) and about half—49.6%—of the students in the sample who evaluated their lessons in evolution with 3 disagreed with the scientific view. That is, they believe that evolution concerns changes in individuals; they do not know that evolution refers to changes in populations.
The correlation of students’ replies in the sample (a) as to “how far they have understood the theory of evolution” and (b) how they deal with the view that “evolution refers to changes in populations and not individuals” proved statistically significant with χ2 = 29.545,6, and p value 0.000 < 0.05 and showed that:
Only 32.3% of the students in the sample who evaluated their understanding of the theory of evolution with 4 (=very well) agreed with the scientific view.
- Aguillard D. Evolution education in Louisiana public schools: a decade following Edwards v Aguillard. Am Biol Teach 1999;61(3):182–8.View ArticleGoogle Scholar
- Barberá O, Beatriz Z, Pérez-Pla JF. Biology curriculum in twentieth-century Spain. Sci Educ 1999;83:97–111.View ArticleGoogle Scholar
- Bishop B, Anderson C. Student conceptions of natural selection and its role in evolution. J Res Sci Teach 1990;27:415–27.View ArticleGoogle Scholar
- Blan M. Les heritiers de Darwin—L’ evolution en mutation. Athens: Stahy; 1995. (Greek edition).Google Scholar
- Brumby MN. Problems in learning the concept of natural selection. J Biol Educ 1979;13:119–22.View ArticleGoogle Scholar
- Brumby MN. Misconceptions about the concept of natural selection by medical biology students. Sci Educ 1984;68:493–503.View ArticleGoogle Scholar
- Clough EE, Wood-Robinson C. How secondary students interpret instances of biological adaptation. J Biol Educ 1985;19:125–30.View ArticleGoogle Scholar
- Demastes SS, Good RG, Peebles P. Students’ conceptual ecologies and the process of conceptual change in evolution. Sci Educ 1995;79(6):637–66.View ArticleGoogle Scholar
- Dobzhansky T. Nothing in biology makes sense except in the light of evolution. Am Biol Teach 1973;35(3):125–9.View ArticleGoogle Scholar
- Downie JR, Barron NJ. Evolution and religion: attitudes of Scottish first year biology and medical students to the teaching of evolutionary biology. J Biol Educ 2000;34(3):139–46.View ArticleGoogle Scholar
- Good R. Evolution and creationism: one long argument. Am Biol Teach 2003;65(7):512–6.View ArticleGoogle Scholar
- Griffith AJ, Brem KS. Teaching evolutionary biology: pressures, stress, and coping. J Res Sci Teach 2004;0(0):1–19.Google Scholar
- Halldén O. The evolution of species: pupils’ perspectives and school perspectives. Int J Sci Educ 1988;10:541–52.View ArticleGoogle Scholar
- IAP, The Interacademy Panel On International Issues homepage; 2006. Available at: http://www.interacademies.net/.
- Kutschera U. Creationism in Germany and its Possible Cause. Evol Educ Outreach 2008;1:84–6.View ArticleGoogle Scholar
- Lerner LS. Good science, bad science: teaching evolution in the States. Washington DC: Thomas B. Fordham Foundation; 2000.Google Scholar
- Lucas A. The teaching of adaptation. J Biol Educ 1971;5:86–90.View ArticleGoogle Scholar
- Mayr Ε. What evolution is. New York: Basic; 2001.Google Scholar
- Meadows L, Doster E, Jackson FD. Managing the conflict between evolution & religion. Am Biol Teach 2000;62(2):102–7.View ArticleGoogle Scholar
- Moore R. Creationism in the United States A-VII. Am Biol Teach, 60(7–9)–61(1–4); 1998–1999 (September–December and January–May).Google Scholar
- Moore R. The revival of creationism in the United States. J Biol Educ 2000;35(1):17–21.View ArticleGoogle Scholar
- Moore R. When a biology teacher refuses to teach evolution: a talk with Rod LeVake. Am Biol Teach 2004;66(4):246–50.Google Scholar
- Osif AB. Evolution & religious beliefs: a survey of Pennsylvania high school teachers. Am Biol Teach 1997;59(9):552–6.View ArticleGoogle Scholar
- Prinou L, Halkia L, Skordoulis C. Teaching the theory of evolution: secondary teachers’ attitudes, views and difficulties; 2005. Available at: http://www.ihpst2005.leeds.ac.uk/papers/Prinou_Halkia_Skordoulis.pdf.
- Prinou L, Halkia L, Skordoulis C. The evolutionary theory in the Greek life sciences primary and secondary textbooks from the beginning of the 20th century to date. In Proceedings IOSTE International Meeting: critical analysis of school science textbooks, Tunisia; 2007a.Google Scholar
- Prinou L, Halkia L, Skordoulis C. The reception of the theory of evolution in Greek education; 2008 (in press).Google Scholar
- Rosenthal DB. Social issues in high school biology textbooks: 1963–1983. J Res Sci Teach 1985;21:819–31.View ArticleGoogle Scholar
- Rutledge ML, Mitchell MA. High school biology teacher’ knowledge structures, acceptance and teaching of evolution. Am Biol Teach 2002;64(1):21–8.View ArticleGoogle Scholar
- Rutledge ML, Warden AM. Evolutionary theory, the nature of science & high school biology teachers: critical relationships. Am Biol Teach 2000;62(1):23–31.View ArticleGoogle Scholar
- Shankar GG, Skoog GD. Emphasis given evolution and creationism by Texas high school biology teachers. Sci Educ 1993;77(2):221–33.View ArticleGoogle Scholar
- Skoog G. The coverage of evolution in high school biology textbooks published in the 1980s. Sci Educ 1984;68(2):117–28.View ArticleGoogle Scholar
- Skoog G. The coverage of human evolution in high school biology textbooks in the 20th century and in current state science standards. Sci Educ 2005;14:395–422.View ArticleGoogle Scholar
- Southerland SA, Abrams E, Cummins C, Anzelmo J. Understanding students’ explanations of biological phenomena: conceptual frameworks or P-prims? Sci Educ 2001;85:328–48.View ArticleGoogle Scholar
- Swarts FA, Anderson OR, Swetz FJ. Evolution in secondary high school Biology textbooks of the People’s Republic of China, United States of America and the latter stages of the Union of Soviet Socialist Republics. J Res Sci Teach 1994;31(5):475–505.View ArticleGoogle Scholar
- Tatina R. South Dakota high school biology teachers and the teaching of evolution and creationism. Am Biol Teach 1989;51(5):275–80.View ArticleGoogle Scholar
- Trani R. I won’t teach evolution; it’s against my religion. Am Biol Teach 2004;66(6):419–27.View ArticleGoogle Scholar
- Williams JD. Creationist teaching in school science: a UK perspective. Evol Educ Outreach 2008;1:87–95.View ArticleGoogle Scholar
- Zimmerman M. The evolution–creation controversy: opinions of Ohio school board presidents. Sci Educ 1991;75(2):201–14.View ArticleGoogle Scholar