Journal of Science Education and Technology

, Volume 16, Issue 3, pp 247–255 | Cite as

Short-Term Effects of Field Programme on Students’ Knowledge and Attitude Toward Biology: a Slovak Experience

  • Pavol ProkopEmail author
  • Gaye Tuncer
  • Radoslav Kvasničák


Field trips are ideal for increasing students’ experience and perceptions of various organisms and their relationship between the original habitat. However, in general field trips are greatly neglected by teachers and their short-term effects are thought to be questionable. Therefore, we conducted a one-day field trip for both improving students’ knowledge in ecology and for examining short-term effects. Based on the results of the research conducted 3 days after the trip, we found a significant and positive increase in students’ attitudes toward biology, natural environment outside and future career in biology. Moreover, students displayed a better understanding of ecology concepts like ecosystems and food webs. However, no similar pattern was observed for the control group experienced only traditional biology settings. Thus, this study is unique showing significant short-term effects of a field trip on students’ attitude and knowledge toward biology.


attitudes ecology field trip 


  1. Akpan J. P., Andre T. (1999). The effect of a prior dissection simulation on middle school students’ dissection performance and understanding of the anatomy and morphology of the frog. Journal of Science Education and Technology 8: 107–121CrossRefGoogle Scholar
  2. Alsop S., Watts M. (2003). Science education and affect. International Journal of Science Education 25: 1043–1047CrossRefGoogle Scholar
  3. Armstrong J. B., Impara J. C. (1991) The impact of an environmental education program on knowledge and attitude. Journal of Environmental Education 22: 36–40CrossRefGoogle Scholar
  4. Ballantyne R. R., Packer J. M. (1996) Teaching and learning in environmental education: Developing environmental conceptions. Journal of Environmental Education 27: 25–33CrossRefGoogle Scholar
  5. Carey S. (1985) Conceptual change in childhood. Cambridge, MA, MIT PressGoogle Scholar
  6. DiEnno C. M., Hilton S. C. (2005) High school students’ knowledge, attitudes, and levels of enjoyment of an environmental education unit on nonnative plants. Journal of Environmental Education 37: 13–25Google Scholar
  7. Dillon J., Rickinson M., Teamey K., Morris M., Choi M. Y., Sanders D., Benefield P. (2006) The value of outdoor learning: Evidence from research in the UK and elsewhere. School Science Review 87: 107–111Google Scholar
  8. Driver R., Bell B. F. (1986) Students’ thinking and the learning of science: A constructivist view. School Science Review 67: 443–456Google Scholar
  9. Eshach, H. (2007). Bringing in-school and out of school learning: Formal, non-formal and informal education. Journal of Science Education and Technology. DOI: 10.1007/s10956-006-9027-1Google Scholar
  10. Fernández-Manzanal R., Rodríguez-Barreiro L. M., Casal-Jiménez M. (1999) Relationship between ecology fieldwork and student attitudes toward environmental protection. Journal of Research in Science Teaching 36: 431–453CrossRefGoogle Scholar
  11. Franklin S., Peat M., Lewis A. (2002) Traditional versus computer-based dissections enhancing learning in a tertiary setting: A student perspective. Journal of Biological Education 36: 124–129Google Scholar
  12. Gibson, H., and Chase, C. (2000). Longitudinal impact of an inquiry-based science program on middle school students’ attitudes toward science.Science Education 86: 693–705.CrossRefGoogle Scholar
  13. Gott R., Duggan S. (1996) Practical work: Its role in the understanding of evidence in science. International Journal of Science Education 18: 791–806CrossRefGoogle Scholar
  14. Grondzinska-Jurczak M., Tomal P., Tarabula-Fiertak M., Niezsporek K., Read A. D. (2006) Effects of an educational campaign on public environmental attitudes and behaviour in Poland. Resources Conservation and Recycling 46: 182–197CrossRefGoogle Scholar
  15. Hart E. P. (1978) Examination of BSCS biology and nonbiology students’ ecology comprehension, environmental information level, and environmental attitude. Journal of Research in Science Teaching 15: 73–78CrossRefGoogle Scholar
  16. Haunsel P. B., Hill R. S. (1989) The microcomputer and achievement and attitudes in high school biology. Journal of Research in Science Teaching 26: 543–549CrossRefGoogle Scholar
  17. Isaac S., Michael W. B. (1972) Handbook in research and evaluation. San Diego, Robert KnappGoogle Scholar
  18. Kinsey T. G., Weatley J. H. (1984) The effects of environmental studies course on the defensibility of environmental attitudes. Journal of Research in Science Teaching 21:675–683CrossRefGoogle Scholar
  19. Knox K. L., Moynihan J. A., Markowitz D. G. (2003) Evaluation of short-term impact of a high school summer science program on students’ perceived knowledge and skills. Journal of Science Education and Technology 12: 471–478CrossRefGoogle Scholar
  20. Leeming, F. C., Dwyer, W. O., Porter, B. E., and Cobern, M. K. (2003). Outcome research in environmental education: A critical review. Journal of Environmental Education 24: 8–21Google Scholar
  21. Lisowski M., Disinger J. F. (1991) The effect of field-based instruction on student understandings of ecological concepts. Journal of Environmental Education 23: 19–23CrossRefGoogle Scholar
  22. Markowitz D. G. (2004) Evaluation of the long-term impact of a university high school summer science program on students’ interest and perceived abilities in science. Journal of Science Education and Technology 13: 395–407CrossRefGoogle Scholar
  23. Nunnaly J. (1978) Psychometric theory. New York, McGraw-HillGoogle Scholar
  24. Orion N., Hofstein A. (1991) The measurement of students’ attitude towards scientific field trips. Science Education 75: 513–523CrossRefGoogle Scholar
  25. Orion N., Hofstein A. (1994) Factors that influence learning during a scientific field trip in a natural environment. Journal of Research in Science Teaching 31: 1097–1119CrossRefGoogle Scholar
  26. Partridge N. (2003) Science out of the classroom. Journal of Biological Education 37: 56–57Google Scholar
  27. Predavec M. (2001) Evaluation of E-Rat, a computer based rat dissection, in terms of students learning outcomes. Journal of Biological Education 35: 75–80Google Scholar
  28. Rickinson, M., Dillon, J., Teamey, K., Morris, M., Choi, M. Y., Sanders, D., and Benefield, P. (2004). A review of research on outdoor learning. Preston Montford, Shropshire: Field Studies CouncilGoogle Scholar
  29. Roth, C. E. (1992). Environmental literacy: Its Roots, evolution, and directions in the Columbus, OH: ERIC/CSM Environmental EducationGoogle Scholar
  30. Salmi, H. (2003). Science centers as learning laboratories: Experiences of Heureka, the Finnish Science Centre.International Journal of Technology Management 25: 460–476.CrossRefGoogle Scholar
  31. Selim M. A., Shrigley R. L. (1983) The group dynamics approach: A sociopsychological approach for testing the effect of discovery and expository teaching on the science achievement and attitude of young Egyptian students. Journal of Research in Science Teaching 20: 213–224CrossRefGoogle Scholar
  32. Shrigley R. L. (1990) Attitude and behavior correlates. Journal of Research in Science Teaching 27: 97–113CrossRefGoogle Scholar
  33. Soyibo K., Hudson A. (2000) Effects of computer-assisted instruction (CAI) on 11th graders’ attitudes to biology and CAI and understanding of reproduction in plants and animals. Research in Science and Technological Education 18: 191–199CrossRefGoogle Scholar
  34. Spicer J. I., Stratford J. (2001) Student perceptions of a virtual field trip to replace a real field trip. Journal of Computer Assisted Learning 17: 345–354CrossRefGoogle Scholar
  35. Strommen E. (1995) Lions and tigers and bears, oh my! Children’s conceptions of forests and their inhabitants. Journal of Research in Science Teaching 32: 683–698CrossRefGoogle Scholar
  36. Tranter J. (2004) Biology: Dull, lifeless and boring? Journal of Biological Education 38: 104–105Google Scholar
  37. Yount J. R., Horton P. B. (1992) Factors influencing environmental attitude: The relationship between environmental attitude defensibility and cognitive reasoning level. Journal of Research in Science Teaching 29: 1059–1078CrossRefGoogle Scholar
  38. Žoldošová K., Prokop P. (2006a) Analysis of motivational orientations in science education. International Journal of Science and Mathematics Education 4: 669–688CrossRefGoogle Scholar
  39. Žoldošová K., Prokop P. (2006b) Education in the field influences children’s ideas and interest toward science. Journal of Science Education and Technology 15: 304–313CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media, LLC 2007

Authors and Affiliations

  • Pavol Prokop
    • 1
    • 2
    Email author
  • Gaye Tuncer
    • 3
  • Radoslav Kvasničák
    • 4
  1. 1.Department of Biology, Faculty of EducationUniversity of TrnavaTrnavaSlovakia
  2. 2.Institute of ZoologySlovak Academy of SciencesBratislavaSlovakia
  3. 3.Department of Elementary Education, Faculty of EducationMiddle East Technical UniversityAnkaraTurkey
  4. 4.Primatial High SchoolTrnavaSlovakia

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