T IPA 1302498 Bibliography
DAFTAR PUSTAKA
Adisendjaja, Y.H. (2009). Analisis buku ajar biologi SMA kelas X di kota
Bandung berdasarkan literasi sains. Bandung: FPMIPA-Universitas
Pendidikan Indonesia. Retrieved from http://file.upi.edu
Al-Rasa’i, M.S. (2013). Promoting scientific literacy by using ICT in science
teaching. International Education Studies, 6(9), 175-186. Retrieved from
files.eric.ed.gov/fulltext/EJ1068658.pdf
Anwar, S. (2013). Pengolahan bahan ajar. Handout Perkuliahan. Bandung: tidak
diterbitkan.
Arikunto, S. (2013). Dasar-dasar evaluasi pendidikan. (Cetakan ke-3). Jakarta:
Bumi Aksara.
Baker, D.R., Lewis. E.B., Uysal, S., Purzer, S. & Lang, M. (2009). The
communication in science inquiry project (CISIP): a project to enhance
scientific literacy through the creation of science classroom discourse
communities: International Journal of Environmental & Science
Education,
4(3),
259-274.
Retrieved
from
http://files.eric.ed.gov/fulltext/EJ884396.pdf
Belitz, H.D., Grosch, W. & Schieberle, P. (2009). Food chemistry 4th revised and
extended edition. Verlag Berlin Heidelberg: Springer.
Borg, W.R., & Gall, M.D. (1983). Educational research: An introduction. New
York: Longman.
Branen, A.L., Davidson, P.M., Salminen, S. & Thorngate III, J.H. (Editor).
(2002). Food additives second edition revised and expanded. New York:
Marcel Dekker, Inc.
BSNP. (2006). Panduan penyusunan KTSP jenjang pendidikan dasar dan
menengah. Jakarta: Puskurbuk.
BSNP. (2009). Standar penilaian buku teks pelajaran. Jakarta: Puskurbuk.
Burek, K. (2012). The impact of socioscientific issues based curriculum involving
environmental outdoor education for fourth grade students. Dissertations,
University
of
South
Florida.
Retrieved
from
http://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=5193&contex
t=etd
Cahyadi, W. (2012). Analisis dan aspek kesehatan bahan tambahan pangan.
(Edisi Kedua). Jakarta: PT Bumi Aksara.
101
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
102
Cooper, S.J. (2004). Addressing scientific literacy through content area reading
and processes of scientific inquiry: What teachers report. Dissertations,
University
of
Central
Florida.
Retrieved
from
purl.fcla.edu/fcla/etd/CFE0000266
Colthorpe.K., Zimbardi K., Bugarcic, A. & Smith, A. (2015). Progressive
dvelopment of scientific literacy through assessment in inquiry-based
biomedical science curricula. International Journal of Innovation in
Science and Mathematics Education, 23(5), 52-64. Retrieved from
http://openjournals.library.usyd.edu.au
Dawson, V. (2001). Addressing controversial issues in secondary school science.
Australian Science Teachers Journal, 47(4), 38-44.
Dawson, V., & Venville, G.J. (2009). High-school student’s informal reasoning
and argumentation about biotechnology: an indicator of scientific
literacy?. International Journal of Science Education, 31(11), Abstract.
Retrieved from http://www.tandfonline.com/doi/abs/
De Boer, G.E. (2000). Scientific literacy: Another look at its historical and
contemporary meanings and its relationship to science education reform.
Journal of Research in Science Teaching, 37(6), 582-601. Retrieved from
http://web.nmsu.edu/~susanbro/eced440/docs/scientific_literacy_another
_look.pdf
Departemen Pendidikan Nasional. (2008). Panduan pengembangan bahan ajar.
Jakarta: Depdiknas.
Dick, W. & Carey, L. (1996). The systematic design of instruction. (4th Edition).
New York: Harper Collins College Publisher.
Dolan, T.J., Nichols, B.H. & Zeidler, D.L. (2009). Using socioscientific issues in
primary classrooms. Journal of Elementary Science Education, 21(3),
1-12.
Retrieved
from
http://link.springer.com/article/10.1007/BF03174719
Doloksaribu, F., Mudzakir, A., Sholihin, H. & Sudargo, F. (2014). Model
education reconstruction (MER) bahan ajar penelitian laboratorium (PL)
konteks Ze-Olit berbasis problem solving-decision making (PSDM).
Jurnal Penelitian Pendidikan, 31(2), 109-116. Retrieved from
journal.unnes.ac.id/nju/index.php/JPP/article/viewFile/5694/4565
Driver, R., Newton, P. & Osborne, J. (2000). Establishing the norms of scientific
argumentation in classrooms. Science Education, 84(1), 287-312.
Retrieved
from
http://biologytransformed.org/wpcontent/uploads/2014/07/Driver2000.pdf
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
103
Duit, R. (2007). Science education research internationally. Conceptions, research
methods, domains of research. Eurasia Journal of Mathematics, Science &
Technology
Education,
3(1),
3-15.
Retrieved
from
http://www.ejmste.org/v3n1/EJMSTEv3n1_Duit.pdf
Duit, R., Gropengiesser, H., Kattmann, U., Komorek, M. & Parchmann, I. (2012).
The Model of educational reconstruction- a framework for improving
teaching and learning science: Science Education Research and Practice
in
Europe.
5
(1),
13-37.
Retrieved
from
https://www.sensepublishers.com/.../1341
Eilks, I. (2001). Teaching ‘Biodiesel’: A sociocritical and problem-oriented
approach to chemistry teaching and students’ first views on it. Chemistry
Education: Research and Practice in Europe, 3(1), 77-85. Retrieved
from http://www.uoi.gr/cerp/2002_February/pdf/07Eilks.pdf
Eilks, I., Marks, R. & Feierabend, T. (2008). Science education research to
prepare future citizens-chemistry learning in a sociocritical and problemoriented approach. Promoting Successfull Science Education, 75-86.
Retrieved from https://www.researchgate.net/publication/255703752
Ekborg, M. & Ottanderr, C. (2013). Working with socio-scientific issues.
Students’ and teachers’ experiences. Paper presented at The XIV
Symposium of the International Organization for Science and
Technology Education (IOSTE). Retrieved from https://dspace.mah.se/
Fang, Z., & Wei, Y. (2010). Improving middle school students’ science literacy
through reading infusion. The Journal of Educational Research, 103(1),
262-273. Retrieved from http://files.eric.ed.gov/fulltext/EJEJ879927
Feierabend, T. & Eilks, I. (2010). Raising students’ perception of the relevance of
science teaching and promoting communication and evaluation
capabilities using authentic and controversial socio-scientific issues in
the framework of climate change. Science Education International,
21(3),
176-196.
Retrieved
from
http://www.icaseonline.net/sei/september2010/p4.docx
Fibonacci, A., & Sudarmin. (2014). Development fun-chem learning materials
integrated socio-science issues to increase students scientific literacy.
International Journal of Science and Research, 11(3), 708-713.
Retrieved from http://www.ijsr.net/
Fowler, S.M., Zeidler, D.L. & Sadler, T.D. (2009). Moral sensitivity in the
context of socioscientific issues in high school science students.
International Journal of Science Education, 31(2), 279-296. Retrieved
from eric.ed.gov/?id=EJ821713
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
104
Fraenkel, J.R., Wallen, N.E. & Hyun, H.H. (2012). How to design and evaluate
research in education. 8th Edition. Boston: McGraw Hill.
Gresch, H., Hasselhorn, M. & Bogeholz, S. (2011). Training in Decision-Making
Strategies: An approach to enhance students’ competences to deal with
socioscientific issues. International Journal of Science Education.
Retrieved from https://www.researchgate.net/.../233325158
Gucluer, E. & Kesercioglu, T. (2012). The effect of using activities improving
scientific literacy on students’ achievemennt in science and technology
lesson. International Online Journal of Primary Education, 1(1).
Retrieved from http://files.eric.ed.gov/fulltext/ED534087.pdf
Gutierez, S.B. (2015). Integrating socio-sientific issues to enhance the bioethical
decision-making skills of high school students. International Education
Studies, 8(1), 142-151. Retrieved from files.eric.ed.gov › fulltext
Hake, R.R. (1998). Analyzing change/gain score. American Educational Research
Association’s Division Measurement and Research Methodology.
Retrieved from www.physics.indiana.edu/
Holbrook, J. & Rannikmae, M. (2009). The meaning of scientific literacy.
International Journal of Environmental & Science Education, 4(3),
275-288.
Retrieved
from
https://www.pegem.net/.../13834020131231103
Hodson, D. (2009). Teaching and learning about science: Language, theories,
methods, history, traditions, and values. Rotterdam: Sense Publishers.
Retrieved from https://www.sensepublishers.com
Hottecke, D., Henke, A., & Riess, F. (2010). Implementing history and
philosophy in science teaching: Strategies, methods, results, and
experiences from the european HIPST project. Science & Education, 21
(1), 1233-1261. Retrieved from www.bu.edu/.../Höttecke-HPS
Kattmann, U., Duit, R., Gropengiesser, H. & Komorek, M. (1996). Educational
reconstruction-bringing together issues of scientific clarification and
students’ conceptions. Paper of Presented at the Annual Meeting of the
National Association of Research in Science Teaching (NARST), St.
Louis. Retrieved from https://www.researchgate.net/
Khasnabis, D. (2008). Developing scientific literacy through classroom
instruction: investigating learning opportunities across three modes of
inquiry-based science instruction. Dissertations, University of Michigan.
Retrieved from http://deepblue.lib.umich.edu/
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
105
Klosterman, M.L., & Sadler, T.D. (2010). Multi-level assessment of scientific
content knowledge gains associated with socioscientific issues-based
instruction. International Journal of Science Education, 32(8),
1017-1043. Retrieved from eric.ed.gov/?id=EJ884177
Kurniawan, K. (T.t). Handout mata kuliah menulis buku ajar/ilmiah. Retrieved
from http://file.upi.edu.
Laherto, A. (2010). An analysis of the educational significance of nanoscience
and nanotechnology in scientific and technological literacy. Science
Education
International,
21(3),
160-175.
Retrieved
from
www.icaseonline.net/sei/september2010/p3.pdf
Laherto, A. (2012). Nanoscience education for scientific literacy. Opportunities
and challenges in secondary school and in out-of-school settings.
(Disertasi). Helsinki: Academic Dissertation. Retrieved from
https://helda.helsinki.fi/bitstream/.../nanoscie.pdf
Laius, A. & Rannikmae, M. (2005). The influence of social issues-based science
teaching on students’ creative thinking. Science Educational
International,
16(4),
281-289.
Retrieved
from
www.icaseonline.net/.../16-04-2005-281_289.pdf
Lawshe. (1975). A quantitative approach to content validity. Journal Personnel
Psycology.
(28),
hlm.
563-575.
Retrieved
from
citeseerx.ist.psu.edu/viewdoc/download
Lederman, N.G., Antink, A., & Bartos, S. (2012). Nature of science, scientific
inquiry, and socio-scientific issues arising from genetics: A pathway to
developing a scientifically literate citizenry. Science & Education.
Retrieved from tl.unlv.edu/.../Lederman_Antink_Bartos_2012.pdf
Lindahl, B., et al. (2011). Socio-scientific issues- A way to improve students’
interest and learning?. US-China Educatin Review B, 3(1), 342-347.
Retrieved from www.diva-portal.org/.../FULLTEXT01.pdf
Lindahl, M.G., & Folkesson, A.M. (2015). Attitudes and language use in group
discussions on socio-scientific issues. Eurasia Journal of Mathematics,
Science & Technology Education, 12(2), 283-301. Retrieved from
http://www.ejmste.com/Makale.aspx?kimlik=2438
Marks, R. & Eilks, I. (2009). Promoting scientific literacy using a sociocritical
and problem-oriented approach to chemistry teaching concept, examples,
experiences. International Journal of Environmental & Science
Education,
4(3),
231-245.
Retrieved
from
www.acarindex.com/.../acarindex-1423903855
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
106
Marks, R., Stuckey, M., Belova, N. & Eilks, I. (2014). The societal dimension in
german science education-from tradition toward selected cases and recent
developments. Eurasia Journal of Mathematics, Science, & Technology
Education, 10(4), 285-296. Retrieved from http://www.ejmste.com/
Nielbert, K. & Gropengiesser, H. (2013). The model of educational
reconstruction: A framework for designof theory-based content specific
content specific interventions. The examples of climate changes.
Educational Design Research-Part B, 511-513. Retrieved from
nternational.slo.nl/bestanden/Ch25.pdf/
Nuangchalerm, P. & Kwuanthong, B. (2010). Teaching “ Global Warming”
through socioscientific issues-based instruction. Asian Social Science,
6(8),
42-47.
Retrieved
from
https://www.researchgate.net/publication/45266211
Nurhayati, H. M. (2014). Pengembangan bahan ajar berkonteks socio scientific
issues (SSI) untuk mengeksplisitkan hakikat sains (NOS) dan berpikir
kritis pada materi pencemaran lingkungan dan pemanasan global.
Abstrak,
Universitas
Negeri
Malang.
Retrieved
from
http://library.um.ac.id/free-contents/index.php/
OECD. (2013). PISA 2012 assessment and analytical framework. Retrieved from
http://www.oecd.org/pisa.
Osborne, J., & Dillon, J. (2008). Science education in Europe: Critical reflections.
London:
The
Nuffield
Fundation.
Retrieved
from
www.nuffieldfoundation.org › sites › files
Ozden, M. (2015). Prospective elementary school teachers’ views about
socioscientific issues: A concurrent parallel design study. International
Electronic Journal of Elementary Education, 7(3), 333-354. Retrieved
from files.eric.ed.gov/fulltext/EJ1068052.pdf
Pinzino, D.W. (2012). Socioscientific issues: a path towards advanced scientific
literacy and improved conceptual understanding of socially controversial
scientific theories. Dissertations, University of South Florida. Retrieved
from http://scholarcommons.usf.edu/cgi/viewcontent.cgi
Raymundus, R. (2015). Empat Bahan Kimia Berbahaya di Jajanan Sekolah.
Retrieved from http://metro.tempo.co/read/news
Raveendran, A., & Chunawala, S. (T.t). Towards an understanding of
socioscientific issues as means to achieve critical scientific literacy.
Proceedings
of
epiSTEME
5,
India.
Retrieved
from
https://www.researchgate.net/publication/256388151_Towards_an_under
standing_of_socioscientific_issues_as_means_to_achieve_critical_scienti
fic_literacy
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
107
Rostikawati, D.A., & Permanasari, A. (2015). Analisis bahan ajar IPA SMP kelas
VIII berbasis socio-scientific issues untuk meningkatkan literasi sains
siswa. Prosiding Seminar Nasional Pendidikan IPA dan Lingkungan
Hidup, Universitas Pakuan. Indonesia.
Sadler, T.D (2004). Informal reasoning regarding socioscientific issues: a critical
review of research. Journal of Research in Science Teaching, 41(1), 513536. Retrieved from http://files.eric.ed.gov/fulltext/EJ1068658.pdf
Sahin, S. (2013). Teaching socio-scientific issues (SSI) in Takhar province,
Afghanistan. Methods of teaching SSI in upper secondary schools.
Dissertation, Karlstads University. Retrieved from http://www.divaportal.org/smash/get/diva2:722641/FULLTEXT01.pdf
Sam, A., Niebert. K., Hanson. R. & Twumasi. A.K. (2015). The model of
educational reconstruction: Scientists’ and students’ conceptual balances
to improve teaching of coordination chemistry in higher education.
International Journal of Academic Research and Reflection, 3(7), 67-77.
Retrieved from www.idpublications.org/
Sari, N.I. (2014). Konstruksi buku ajar senyawa organik SMK program keahlian
agrobisnis rumput laut. Tesis, tidak dipublikasikan. Universitas
Pendidikan Indonesia.
Saunders, K.J. & Rennie, L.J. (2011). A pedagogical model for ethical inquiry
into socioscientific issues in science. Research Science Education.
Retrieved from https://www.researchgate.net/.../257659560
Sugiyono. (2009). Metode penelitian pendidikan. Bandung: Alfabeta.
Sugiyono. (2011). Metode penelitian pendidikan kuantitatif, kualitatif dan R&D.
Cetakan ke-19. Bandung: Alfabeta.
Surapranata, S. (2012). Analisis, validitas, reliabilitas, dan interpretasi hasil tes.
(Cetakan ke-4). Bandung: Remaja Rosda Karya.
Tal, T. & Kedmi, Y. (2006). Teaching socioscientific issues: Classrooms culture
and students’ performances. Culture Science Education. Retrieved from
stwww.weizmann.ac.il › docs › TAL
Tobin, K. (2015). Handbook pengajaran dan pembelajaran sains. Bandung: Nusa
Media.
Toharudin, U., Hendrawati, S. & Rustaman, A. (2011). Membangun literasi sains
peserta didik. Cetakan pertama. Bandung: Humaniora.
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
108
Topcu, M.S., Mugaloglu, E.Z. & Guven, D. (2014). Socioscientific issues in
science education: The case of Turkey. Educational Sciences: Theory &
Practices
4(6),
2340-2348.
Retrieved
from
http://files.eric.ed.gov/fulltext/EJ1050484.pdf
Universitas Brawijaya. (2011). Pedoman umum penulisan bahan ajar PDKLP.
Retrieved from http//ml.scribd.com
Villanueva, M.G. (2010). Integrated teaching strategies model for improved
scientific literacy in second language learners. Dissertations, Nelson
Mandela
Metropolitan
University.
Retrieved
from
http://www.nmmu.ac.za/helpingteachers/GroupProjectWebb/
Webb, P. (2009). Towards an integrated learning strategies approach to promoting
scientific literacy in the south african context. International Journal of
Environmental & Science Education, 4(3), 313-334. Retrieved from
http://files.eric.ed.gov/fulltext/EJ884400.pdf
Willmott, C., & Willis, D. (2008). The increasing significance of ethics in the
bioscience curriculum. Journal of Biological Education, 42 (1), 99-102.
Retrieved from https://www.researchgate.net/.../50294494
Wilson, R., Pan, W. & Schumsky, D.A. (2012). Recalculation of the critical
values for Lawshe’s content validity ratio. Association for Assesment in
Counseling and Education. Retrieved from http://mec.sagepub.com
Yahaya, J.M., Zain. A.N.Md. & Kapurdewan, M. (2012). Understanding
socioscientific issues in a low literate society for achievement of the
millenium development lopment goals. International Scholarly and
Scientific Research & Innovation, 6(12), 3372-3375. Retrieved from
http://waset.org/publications/15900/understanding-socioscientific-issuesin-a-low-literate-society-for-the-achievement-of-the-millenniumdevelopment-goals
Yakob, N., Yunus, H.M. & May, C.Y. (2015). Knowledge and practice in
teaching socio-scientific issues among malaysian primary school science
teachers. US-China Education Review A, 5(9), 634-640. Retrieved from
http://www.davidpublisher.org/Public/uploads/Contribute/5605106320fb
5.pdf
Yuenyong, C. & Nurjaikaew, P. (2009). Scientific literacy and Thailand science
education. International Journal of Environmental & Science Education,
4(3). Retrieved from http://eric.ed.gov/?id=EJ884401
Yusmaita, E. (2013). Konstruksi bahan ajar sel volta berbasis green chemistry
education untuk membangun literasi sains siswa. Tesis, tidak
dipublikasikan. Universitas Pendidikan Indonesia.
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
109
Zeidler, D., & Keefer, M. (2003). The role of moral reasoning and the status of
socioscientific issues and disourse in science education. In D. Zeidler
(Ed.), The role of moral reasoning and the status of sociosientific issues
and discourse in science education (7-38). Dordrecht: Kluwer Academic
Press. Retrieved from www.springer.com/us/book/9781402014116
Zeidler, D.L., Sadler, T.D., Simmons, M.L. & Howes, E.V. (2005). Beyond STS:
A research-based framework for socioscientific issues education. Science
Education,
89(1),
357-377.
Retrieved
from
faculty.education.ufl.edu/tsadler/BeyondSTS.pdf
Zeidler, D.L. & Nichols, B.H. (2009). Socioscientific issues: theory and practices.
Journal of Elementary Science Education, 21(2), 49-58. Retrieved from
http://files.eric.ed.gov/fulltext/EJ849716.pdf
Zo’bi, A.S. (2014). The effect of using socio-scientific issues approach in
teaching environmental issues on improving the students’ ability of
making approriate decision towards these issues. International Education
Studies,
9(8),
113-123.
Retrieved
from
http://files.eric.ed.gov/fulltext/EJ1070436.pdf
Zohar, A., & Nemet, F. (2002). Fostering student’s knowledge and argumentation
skills through dilemmas in human genetics. Journal of Research in
Science
Teaching.
39
(1).
(Abstrak).
Retrieved
from
http://onlinelibrary.wiley.com/doi/10.1002/tea.10008/abstract
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Adisendjaja, Y.H. (2009). Analisis buku ajar biologi SMA kelas X di kota
Bandung berdasarkan literasi sains. Bandung: FPMIPA-Universitas
Pendidikan Indonesia. Retrieved from http://file.upi.edu
Al-Rasa’i, M.S. (2013). Promoting scientific literacy by using ICT in science
teaching. International Education Studies, 6(9), 175-186. Retrieved from
files.eric.ed.gov/fulltext/EJ1068658.pdf
Anwar, S. (2013). Pengolahan bahan ajar. Handout Perkuliahan. Bandung: tidak
diterbitkan.
Arikunto, S. (2013). Dasar-dasar evaluasi pendidikan. (Cetakan ke-3). Jakarta:
Bumi Aksara.
Baker, D.R., Lewis. E.B., Uysal, S., Purzer, S. & Lang, M. (2009). The
communication in science inquiry project (CISIP): a project to enhance
scientific literacy through the creation of science classroom discourse
communities: International Journal of Environmental & Science
Education,
4(3),
259-274.
Retrieved
from
http://files.eric.ed.gov/fulltext/EJ884396.pdf
Belitz, H.D., Grosch, W. & Schieberle, P. (2009). Food chemistry 4th revised and
extended edition. Verlag Berlin Heidelberg: Springer.
Borg, W.R., & Gall, M.D. (1983). Educational research: An introduction. New
York: Longman.
Branen, A.L., Davidson, P.M., Salminen, S. & Thorngate III, J.H. (Editor).
(2002). Food additives second edition revised and expanded. New York:
Marcel Dekker, Inc.
BSNP. (2006). Panduan penyusunan KTSP jenjang pendidikan dasar dan
menengah. Jakarta: Puskurbuk.
BSNP. (2009). Standar penilaian buku teks pelajaran. Jakarta: Puskurbuk.
Burek, K. (2012). The impact of socioscientific issues based curriculum involving
environmental outdoor education for fourth grade students. Dissertations,
University
of
South
Florida.
Retrieved
from
http://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=5193&contex
t=etd
Cahyadi, W. (2012). Analisis dan aspek kesehatan bahan tambahan pangan.
(Edisi Kedua). Jakarta: PT Bumi Aksara.
101
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
102
Cooper, S.J. (2004). Addressing scientific literacy through content area reading
and processes of scientific inquiry: What teachers report. Dissertations,
University
of
Central
Florida.
Retrieved
from
purl.fcla.edu/fcla/etd/CFE0000266
Colthorpe.K., Zimbardi K., Bugarcic, A. & Smith, A. (2015). Progressive
dvelopment of scientific literacy through assessment in inquiry-based
biomedical science curricula. International Journal of Innovation in
Science and Mathematics Education, 23(5), 52-64. Retrieved from
http://openjournals.library.usyd.edu.au
Dawson, V. (2001). Addressing controversial issues in secondary school science.
Australian Science Teachers Journal, 47(4), 38-44.
Dawson, V., & Venville, G.J. (2009). High-school student’s informal reasoning
and argumentation about biotechnology: an indicator of scientific
literacy?. International Journal of Science Education, 31(11), Abstract.
Retrieved from http://www.tandfonline.com/doi/abs/
De Boer, G.E. (2000). Scientific literacy: Another look at its historical and
contemporary meanings and its relationship to science education reform.
Journal of Research in Science Teaching, 37(6), 582-601. Retrieved from
http://web.nmsu.edu/~susanbro/eced440/docs/scientific_literacy_another
_look.pdf
Departemen Pendidikan Nasional. (2008). Panduan pengembangan bahan ajar.
Jakarta: Depdiknas.
Dick, W. & Carey, L. (1996). The systematic design of instruction. (4th Edition).
New York: Harper Collins College Publisher.
Dolan, T.J., Nichols, B.H. & Zeidler, D.L. (2009). Using socioscientific issues in
primary classrooms. Journal of Elementary Science Education, 21(3),
1-12.
Retrieved
from
http://link.springer.com/article/10.1007/BF03174719
Doloksaribu, F., Mudzakir, A., Sholihin, H. & Sudargo, F. (2014). Model
education reconstruction (MER) bahan ajar penelitian laboratorium (PL)
konteks Ze-Olit berbasis problem solving-decision making (PSDM).
Jurnal Penelitian Pendidikan, 31(2), 109-116. Retrieved from
journal.unnes.ac.id/nju/index.php/JPP/article/viewFile/5694/4565
Driver, R., Newton, P. & Osborne, J. (2000). Establishing the norms of scientific
argumentation in classrooms. Science Education, 84(1), 287-312.
Retrieved
from
http://biologytransformed.org/wpcontent/uploads/2014/07/Driver2000.pdf
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
103
Duit, R. (2007). Science education research internationally. Conceptions, research
methods, domains of research. Eurasia Journal of Mathematics, Science &
Technology
Education,
3(1),
3-15.
Retrieved
from
http://www.ejmste.org/v3n1/EJMSTEv3n1_Duit.pdf
Duit, R., Gropengiesser, H., Kattmann, U., Komorek, M. & Parchmann, I. (2012).
The Model of educational reconstruction- a framework for improving
teaching and learning science: Science Education Research and Practice
in
Europe.
5
(1),
13-37.
Retrieved
from
https://www.sensepublishers.com/.../1341
Eilks, I. (2001). Teaching ‘Biodiesel’: A sociocritical and problem-oriented
approach to chemistry teaching and students’ first views on it. Chemistry
Education: Research and Practice in Europe, 3(1), 77-85. Retrieved
from http://www.uoi.gr/cerp/2002_February/pdf/07Eilks.pdf
Eilks, I., Marks, R. & Feierabend, T. (2008). Science education research to
prepare future citizens-chemistry learning in a sociocritical and problemoriented approach. Promoting Successfull Science Education, 75-86.
Retrieved from https://www.researchgate.net/publication/255703752
Ekborg, M. & Ottanderr, C. (2013). Working with socio-scientific issues.
Students’ and teachers’ experiences. Paper presented at The XIV
Symposium of the International Organization for Science and
Technology Education (IOSTE). Retrieved from https://dspace.mah.se/
Fang, Z., & Wei, Y. (2010). Improving middle school students’ science literacy
through reading infusion. The Journal of Educational Research, 103(1),
262-273. Retrieved from http://files.eric.ed.gov/fulltext/EJEJ879927
Feierabend, T. & Eilks, I. (2010). Raising students’ perception of the relevance of
science teaching and promoting communication and evaluation
capabilities using authentic and controversial socio-scientific issues in
the framework of climate change. Science Education International,
21(3),
176-196.
Retrieved
from
http://www.icaseonline.net/sei/september2010/p4.docx
Fibonacci, A., & Sudarmin. (2014). Development fun-chem learning materials
integrated socio-science issues to increase students scientific literacy.
International Journal of Science and Research, 11(3), 708-713.
Retrieved from http://www.ijsr.net/
Fowler, S.M., Zeidler, D.L. & Sadler, T.D. (2009). Moral sensitivity in the
context of socioscientific issues in high school science students.
International Journal of Science Education, 31(2), 279-296. Retrieved
from eric.ed.gov/?id=EJ821713
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
104
Fraenkel, J.R., Wallen, N.E. & Hyun, H.H. (2012). How to design and evaluate
research in education. 8th Edition. Boston: McGraw Hill.
Gresch, H., Hasselhorn, M. & Bogeholz, S. (2011). Training in Decision-Making
Strategies: An approach to enhance students’ competences to deal with
socioscientific issues. International Journal of Science Education.
Retrieved from https://www.researchgate.net/.../233325158
Gucluer, E. & Kesercioglu, T. (2012). The effect of using activities improving
scientific literacy on students’ achievemennt in science and technology
lesson. International Online Journal of Primary Education, 1(1).
Retrieved from http://files.eric.ed.gov/fulltext/ED534087.pdf
Gutierez, S.B. (2015). Integrating socio-sientific issues to enhance the bioethical
decision-making skills of high school students. International Education
Studies, 8(1), 142-151. Retrieved from files.eric.ed.gov › fulltext
Hake, R.R. (1998). Analyzing change/gain score. American Educational Research
Association’s Division Measurement and Research Methodology.
Retrieved from www.physics.indiana.edu/
Holbrook, J. & Rannikmae, M. (2009). The meaning of scientific literacy.
International Journal of Environmental & Science Education, 4(3),
275-288.
Retrieved
from
https://www.pegem.net/.../13834020131231103
Hodson, D. (2009). Teaching and learning about science: Language, theories,
methods, history, traditions, and values. Rotterdam: Sense Publishers.
Retrieved from https://www.sensepublishers.com
Hottecke, D., Henke, A., & Riess, F. (2010). Implementing history and
philosophy in science teaching: Strategies, methods, results, and
experiences from the european HIPST project. Science & Education, 21
(1), 1233-1261. Retrieved from www.bu.edu/.../Höttecke-HPS
Kattmann, U., Duit, R., Gropengiesser, H. & Komorek, M. (1996). Educational
reconstruction-bringing together issues of scientific clarification and
students’ conceptions. Paper of Presented at the Annual Meeting of the
National Association of Research in Science Teaching (NARST), St.
Louis. Retrieved from https://www.researchgate.net/
Khasnabis, D. (2008). Developing scientific literacy through classroom
instruction: investigating learning opportunities across three modes of
inquiry-based science instruction. Dissertations, University of Michigan.
Retrieved from http://deepblue.lib.umich.edu/
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
105
Klosterman, M.L., & Sadler, T.D. (2010). Multi-level assessment of scientific
content knowledge gains associated with socioscientific issues-based
instruction. International Journal of Science Education, 32(8),
1017-1043. Retrieved from eric.ed.gov/?id=EJ884177
Kurniawan, K. (T.t). Handout mata kuliah menulis buku ajar/ilmiah. Retrieved
from http://file.upi.edu.
Laherto, A. (2010). An analysis of the educational significance of nanoscience
and nanotechnology in scientific and technological literacy. Science
Education
International,
21(3),
160-175.
Retrieved
from
www.icaseonline.net/sei/september2010/p3.pdf
Laherto, A. (2012). Nanoscience education for scientific literacy. Opportunities
and challenges in secondary school and in out-of-school settings.
(Disertasi). Helsinki: Academic Dissertation. Retrieved from
https://helda.helsinki.fi/bitstream/.../nanoscie.pdf
Laius, A. & Rannikmae, M. (2005). The influence of social issues-based science
teaching on students’ creative thinking. Science Educational
International,
16(4),
281-289.
Retrieved
from
www.icaseonline.net/.../16-04-2005-281_289.pdf
Lawshe. (1975). A quantitative approach to content validity. Journal Personnel
Psycology.
(28),
hlm.
563-575.
Retrieved
from
citeseerx.ist.psu.edu/viewdoc/download
Lederman, N.G., Antink, A., & Bartos, S. (2012). Nature of science, scientific
inquiry, and socio-scientific issues arising from genetics: A pathway to
developing a scientifically literate citizenry. Science & Education.
Retrieved from tl.unlv.edu/.../Lederman_Antink_Bartos_2012.pdf
Lindahl, B., et al. (2011). Socio-scientific issues- A way to improve students’
interest and learning?. US-China Educatin Review B, 3(1), 342-347.
Retrieved from www.diva-portal.org/.../FULLTEXT01.pdf
Lindahl, M.G., & Folkesson, A.M. (2015). Attitudes and language use in group
discussions on socio-scientific issues. Eurasia Journal of Mathematics,
Science & Technology Education, 12(2), 283-301. Retrieved from
http://www.ejmste.com/Makale.aspx?kimlik=2438
Marks, R. & Eilks, I. (2009). Promoting scientific literacy using a sociocritical
and problem-oriented approach to chemistry teaching concept, examples,
experiences. International Journal of Environmental & Science
Education,
4(3),
231-245.
Retrieved
from
www.acarindex.com/.../acarindex-1423903855
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
106
Marks, R., Stuckey, M., Belova, N. & Eilks, I. (2014). The societal dimension in
german science education-from tradition toward selected cases and recent
developments. Eurasia Journal of Mathematics, Science, & Technology
Education, 10(4), 285-296. Retrieved from http://www.ejmste.com/
Nielbert, K. & Gropengiesser, H. (2013). The model of educational
reconstruction: A framework for designof theory-based content specific
content specific interventions. The examples of climate changes.
Educational Design Research-Part B, 511-513. Retrieved from
nternational.slo.nl/bestanden/Ch25.pdf/
Nuangchalerm, P. & Kwuanthong, B. (2010). Teaching “ Global Warming”
through socioscientific issues-based instruction. Asian Social Science,
6(8),
42-47.
Retrieved
from
https://www.researchgate.net/publication/45266211
Nurhayati, H. M. (2014). Pengembangan bahan ajar berkonteks socio scientific
issues (SSI) untuk mengeksplisitkan hakikat sains (NOS) dan berpikir
kritis pada materi pencemaran lingkungan dan pemanasan global.
Abstrak,
Universitas
Negeri
Malang.
Retrieved
from
http://library.um.ac.id/free-contents/index.php/
OECD. (2013). PISA 2012 assessment and analytical framework. Retrieved from
http://www.oecd.org/pisa.
Osborne, J., & Dillon, J. (2008). Science education in Europe: Critical reflections.
London:
The
Nuffield
Fundation.
Retrieved
from
www.nuffieldfoundation.org › sites › files
Ozden, M. (2015). Prospective elementary school teachers’ views about
socioscientific issues: A concurrent parallel design study. International
Electronic Journal of Elementary Education, 7(3), 333-354. Retrieved
from files.eric.ed.gov/fulltext/EJ1068052.pdf
Pinzino, D.W. (2012). Socioscientific issues: a path towards advanced scientific
literacy and improved conceptual understanding of socially controversial
scientific theories. Dissertations, University of South Florida. Retrieved
from http://scholarcommons.usf.edu/cgi/viewcontent.cgi
Raymundus, R. (2015). Empat Bahan Kimia Berbahaya di Jajanan Sekolah.
Retrieved from http://metro.tempo.co/read/news
Raveendran, A., & Chunawala, S. (T.t). Towards an understanding of
socioscientific issues as means to achieve critical scientific literacy.
Proceedings
of
epiSTEME
5,
India.
Retrieved
from
https://www.researchgate.net/publication/256388151_Towards_an_under
standing_of_socioscientific_issues_as_means_to_achieve_critical_scienti
fic_literacy
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
107
Rostikawati, D.A., & Permanasari, A. (2015). Analisis bahan ajar IPA SMP kelas
VIII berbasis socio-scientific issues untuk meningkatkan literasi sains
siswa. Prosiding Seminar Nasional Pendidikan IPA dan Lingkungan
Hidup, Universitas Pakuan. Indonesia.
Sadler, T.D (2004). Informal reasoning regarding socioscientific issues: a critical
review of research. Journal of Research in Science Teaching, 41(1), 513536. Retrieved from http://files.eric.ed.gov/fulltext/EJ1068658.pdf
Sahin, S. (2013). Teaching socio-scientific issues (SSI) in Takhar province,
Afghanistan. Methods of teaching SSI in upper secondary schools.
Dissertation, Karlstads University. Retrieved from http://www.divaportal.org/smash/get/diva2:722641/FULLTEXT01.pdf
Sam, A., Niebert. K., Hanson. R. & Twumasi. A.K. (2015). The model of
educational reconstruction: Scientists’ and students’ conceptual balances
to improve teaching of coordination chemistry in higher education.
International Journal of Academic Research and Reflection, 3(7), 67-77.
Retrieved from www.idpublications.org/
Sari, N.I. (2014). Konstruksi buku ajar senyawa organik SMK program keahlian
agrobisnis rumput laut. Tesis, tidak dipublikasikan. Universitas
Pendidikan Indonesia.
Saunders, K.J. & Rennie, L.J. (2011). A pedagogical model for ethical inquiry
into socioscientific issues in science. Research Science Education.
Retrieved from https://www.researchgate.net/.../257659560
Sugiyono. (2009). Metode penelitian pendidikan. Bandung: Alfabeta.
Sugiyono. (2011). Metode penelitian pendidikan kuantitatif, kualitatif dan R&D.
Cetakan ke-19. Bandung: Alfabeta.
Surapranata, S. (2012). Analisis, validitas, reliabilitas, dan interpretasi hasil tes.
(Cetakan ke-4). Bandung: Remaja Rosda Karya.
Tal, T. & Kedmi, Y. (2006). Teaching socioscientific issues: Classrooms culture
and students’ performances. Culture Science Education. Retrieved from
stwww.weizmann.ac.il › docs › TAL
Tobin, K. (2015). Handbook pengajaran dan pembelajaran sains. Bandung: Nusa
Media.
Toharudin, U., Hendrawati, S. & Rustaman, A. (2011). Membangun literasi sains
peserta didik. Cetakan pertama. Bandung: Humaniora.
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
108
Topcu, M.S., Mugaloglu, E.Z. & Guven, D. (2014). Socioscientific issues in
science education: The case of Turkey. Educational Sciences: Theory &
Practices
4(6),
2340-2348.
Retrieved
from
http://files.eric.ed.gov/fulltext/EJ1050484.pdf
Universitas Brawijaya. (2011). Pedoman umum penulisan bahan ajar PDKLP.
Retrieved from http//ml.scribd.com
Villanueva, M.G. (2010). Integrated teaching strategies model for improved
scientific literacy in second language learners. Dissertations, Nelson
Mandela
Metropolitan
University.
Retrieved
from
http://www.nmmu.ac.za/helpingteachers/GroupProjectWebb/
Webb, P. (2009). Towards an integrated learning strategies approach to promoting
scientific literacy in the south african context. International Journal of
Environmental & Science Education, 4(3), 313-334. Retrieved from
http://files.eric.ed.gov/fulltext/EJ884400.pdf
Willmott, C., & Willis, D. (2008). The increasing significance of ethics in the
bioscience curriculum. Journal of Biological Education, 42 (1), 99-102.
Retrieved from https://www.researchgate.net/.../50294494
Wilson, R., Pan, W. & Schumsky, D.A. (2012). Recalculation of the critical
values for Lawshe’s content validity ratio. Association for Assesment in
Counseling and Education. Retrieved from http://mec.sagepub.com
Yahaya, J.M., Zain. A.N.Md. & Kapurdewan, M. (2012). Understanding
socioscientific issues in a low literate society for achievement of the
millenium development lopment goals. International Scholarly and
Scientific Research & Innovation, 6(12), 3372-3375. Retrieved from
http://waset.org/publications/15900/understanding-socioscientific-issuesin-a-low-literate-society-for-the-achievement-of-the-millenniumdevelopment-goals
Yakob, N., Yunus, H.M. & May, C.Y. (2015). Knowledge and practice in
teaching socio-scientific issues among malaysian primary school science
teachers. US-China Education Review A, 5(9), 634-640. Retrieved from
http://www.davidpublisher.org/Public/uploads/Contribute/5605106320fb
5.pdf
Yuenyong, C. & Nurjaikaew, P. (2009). Scientific literacy and Thailand science
education. International Journal of Environmental & Science Education,
4(3). Retrieved from http://eric.ed.gov/?id=EJ884401
Yusmaita, E. (2013). Konstruksi bahan ajar sel volta berbasis green chemistry
education untuk membangun literasi sains siswa. Tesis, tidak
dipublikasikan. Universitas Pendidikan Indonesia.
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
109
Zeidler, D., & Keefer, M. (2003). The role of moral reasoning and the status of
socioscientific issues and disourse in science education. In D. Zeidler
(Ed.), The role of moral reasoning and the status of sociosientific issues
and discourse in science education (7-38). Dordrecht: Kluwer Academic
Press. Retrieved from www.springer.com/us/book/9781402014116
Zeidler, D.L., Sadler, T.D., Simmons, M.L. & Howes, E.V. (2005). Beyond STS:
A research-based framework for socioscientific issues education. Science
Education,
89(1),
357-377.
Retrieved
from
faculty.education.ufl.edu/tsadler/BeyondSTS.pdf
Zeidler, D.L. & Nichols, B.H. (2009). Socioscientific issues: theory and practices.
Journal of Elementary Science Education, 21(2), 49-58. Retrieved from
http://files.eric.ed.gov/fulltext/EJ849716.pdf
Zo’bi, A.S. (2014). The effect of using socio-scientific issues approach in
teaching environmental issues on improving the students’ ability of
making approriate decision towards these issues. International Education
Studies,
9(8),
113-123.
Retrieved
from
http://files.eric.ed.gov/fulltext/EJ1070436.pdf
Zohar, A., & Nemet, F. (2002). Fostering student’s knowledge and argumentation
skills through dilemmas in human genetics. Journal of Research in
Science
Teaching.
39
(1).
(Abstrak).
Retrieved
from
http://onlinelibrary.wiley.com/doi/10.1002/tea.10008/abstract
Diana Ayu Rostikawati, 2016
REKONSTRUKSI BAHAN AJAR DENGAN KONTEKS SOCIO-SCIENTIFIC ISSUES PADA MATERI ZAT
ADITIF MAKANAN UNTUK MENINGKATKAN LITERASI SAINS SISWA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu