Indonesia Maritime Culture, as the first pillar in the concept of maritime axis, is being pursued to be realized by the Government of Indonesia through the maritime curriculum in schools. In fact, Indonesia is experiencing delays in the implementation of marine education (maritime education) compared to countries that have other long shorelines, such as Canada, Japan and the UK. Knowledge of the sea becomes a starting point in marine education (learning and teaching of ocean and aquatic science). This knowledge of the sea is universally agreed upon as ocean literacy, which can be nurtured in marine education. Very little publication of the results of thought and research on Indonesian ocean literacy in national journals, and none in international journals is evidence of Indonesia has not been serious in marine education. In the next maritime curriculum, all subjects required can be integrated with the ocean science. While the subjects closest to ocean science are science learning, especially biology, then geography, physics, and chemistry. Research trends in science learning and teaching in the future should also be oriented to ocean literacy. In addition, socio-scientific issues are also found in marine and coastal life, so student must master of ocean literacy is absolutely done. The study in this article suggests using a system-based approach in teaching science based on ocean literacy. While systemic thinking is the ability to understand and interpret complex systems, and consists of different types and levels of thinking skills. The next suggestion is the application of teaching methods that facilitate systemic thinking skills. Three main suggestions are also given to the marine education community. While the instructional tool that can be adopted to implement marine education is the Ocean Literacy Scope and Squence for Grades K-12. Thus, it is expected that the Indonesian people will be ocean literate.

Bar, V., and I. Galili. (1994). Stages of children’s views about evaporation. International Journal of Science Education 16(2): 157-174.

Ben-zvi-Assarf, O., and N. Orion. (2005). Development of system thinking skills in the context of Earth system education. Journal of Research in Science Teaching 42(5): 518-560.

Cava, F., Schrodinger, S., Strang, C., & Tuddenham, P. (2005). Science content and standards for ocean literacy: A report on ocean literacy. Retrieved Desember 10, 2017, from http://www.coexploration.org/oceanliteracy/documents/OLit200405_Final_Report.pdf.

Costa, S., & Caldeira, R. (2018). Bibliometric analysis of ocean literacy : An underrated term in the scienti fi c literature, 87(July 2017), 149–157. https://doi.org/10.1016/j.marpol.2017.10.022.

Cummins, S. Dan Snively, G. (2000). The Effect of Instruction on Children’s Knowledge of Marine Ecology, Attitude Toward the Ocean, and Stances toward Marine Resource Issues. Can J Environ Edc: 5(1): 305-24.

Edelson, D. C. (2002). Design research: What we learn when we engage in design. The Journal of the Learning Science 11(1): 105-121.

Falk J.H. dan Storksdieck, M. (2010). Science Learning in A Leisure Setting. J Res Sci Teach: 47(2): 194-212.

Grotzer, T. A. (2003). Learning to understand the forms of causality implicit in scientifically accepted explanations Studies in Science Education 39: 1-74.

Guest, H., Lotze, H.K. dan D. Wallace. (2015). Youth and The Sea: Ocean Literacy in Nova Scotia, Canada. Marine Policy 58: 98-107.

Johnson, P. (1998). Progression in children’s understanding of a ‘basic’ particle theory: A longitudinal study. International Journal of Science Education 20(4): 393-412.

Hoffman, M., and D. Barstow. (2007). Revolutionizing Earth System Science Education for the 21st Century, Report and Recommendations from a 50-state Analysis of Earth Science Education Standards. Cambridge, MA: TERC.

Marrero, M. 2010. Uncovering Student Interest in The Ocean. Current: Journal of Marine Education. 26(3): 2-5.

Matsumoto, K., Takeno K., Urata M., Matsubara M., Kato T., Suzuki N., and Hayakawa K. 2017. Evaluation of Marine Education’s Effect in Elementary and junio high Schools—Analysis of the Value Consciousness Using Text Mining. American Journal of Educational Research 2017, 5 (1): 76-81.

NOAA (National Oceanic and Atmospheric Administration). (2013). Ocean Literacy: The Essential Principles and Fundamental Concepts of Ocean Sciences for Learners of All Ages. Washington, DC: NOAA.

National Research Council (NRC). (1996). National Science Education Standards. Washington, D.C.: National Academy Press.

Payne, D. L., and T. D. Zimmerman. (2010). “Beyond Terra Firma: Bringing Ocean and Aquatic Sciences to Environmental and Science Teacher Education.” In The Inclusion of Environmental Education in Science Teacher Education, edited by A. M. Bozdin, et al., 81–94. Dordrecht: Springer.

Richmond, B. (1993). Systems thinking: critical thinking skills for the 1990s and beyond. System Dynamics Review 9(2): 113-133.

Sattler, Sabrina & Bogner, Franz X. (2016). Short- and long term outreach at the zoo: cognitive learning about marine ecological and conservation issues. Environmental Education Research.

Strang, C., DeCharon, A., & Schoedinger, S. (2007). Can you be science literate without being ocean literate? Current: The Journal of Marine Education, 23(1), 7–9.

The Ocean Project. (2009). America, the ocean, and climate change: Key findings. Retrieved from http://www.theoceanproject.org/resources/America_the_Ocean_and_Climate_Change.php.

Tran, L. U., Payne, D. L., & Whitley, L. (2010). Research on learning and teaching ocean and aquatic sciences. NMEA Special Report #3: The Ocean Literacy Campaign, 22–26.

Tytler, R. (2000). A comparison of Year 1 and Year 6 students’ conceptions of evaporation and condensation: Dimensions of conceptual progression. International Journal of Science Education 22(5): 447-467.

Wilensky, U., and M. Resnick. (1999). Thinking in levels: A dynamic systems approach to making sense of the world. Journal of Science Education and Technology 8(1): 3-19.

Wyles, K. J., Pahl, S., White, M., Morris, S., Cracknell, D., & Thompson, R. C. (2013). Towards a Marine Mindset: Visiting an Aquarium Can Improve Attitudes and Ittentions Regarding Marine Sustainability. Visitor Studies 16(1): 95-110.

Yeung, S. (1998). “Environmental Consciousness among Students in Senior Secondary Schools: The Case of Hong Kong.” Environmental Education Research 4: 251–268.