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Ng Mui Leng

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Physical Geography Education

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Ng Mui Leng (Dunman High School, Singapore) Keywords Geography Junior College Secondary School Physical Geography Education Citizenship Education When the new Lower Secondary Geography Syllabus was launched in 2014, there was much talk among teachers that there seemed to be a downplaying of “pure” physical geography topics. Units on the traditional four spheres of physical geography […]

Ng Mui Leng (Dunman High School, Singapore)

Keywords
Geography
Junior College
Secondary School
Physical Geography Education
Citizenship Education

When the new Lower Secondary Geography Syllabus was launched in 2014, there was much talk among teachers that there seemed to be a downplaying of “pure” physical geography topics. Units on the traditional four spheres of physical geography (i.e. biosphere, lithosphere, atmosphere and hydrosphere) were taken out, though physical geography topics are still represented at the upper secondary level. This leads us, as geography educators, to ponder – is physical geography’s position in Singapore’s school geography curriculum at risk?

This paper draws on Duncan Hawley’s chapter “What is the rightful place of physical geography?” in Debates in Geography Education (Lambert & Jones, 2013). It appositely explores the “rightful place of physical geography” by presenting the different arguments about physical geography’s position with regard to other disciplines (especially the sciences) and within the discipline itself. It also critically reflects on the implications of Hawley’s arguments on the teaching and learning of geography in the Singapore context.

Earth Science – Geography or Science?
With the use of Earth science as an example, Hawley (2013) presents the various viewpoints on the debate of whether Earth science should be positioned in the geography or science curriculum. Physical geography topics such as climatology and weather, geology and ecosystems, which can be collectively known as Earth science, often overlap in content with the sciences (biology, chemistry and physics), leading to academics like Gregory (2002, cited in Hawley, 2013, p. 90) to question the appropriateness of physical geography within geography. Hawley also acknowledges King’s argument (2011) that Earth science’s “rightful place” in education should be in the science curriculum as international test data has shown that students in countries where Earth science is an established science subject taught by teachers who specialise in Earth science, performed much better than the students who are from countries where “Earth science is not so strongly demarcated” (cited in Hawley, 2013 p. 91).

For this part of the debate on physical geography’s position with regard to the sciences, Hawley concurs with the complementary approach to understanding the physical aspects of the Earth, as advocated by the Geographical Association (2013, p. 91). He draws on the Geographical Association’s justification of how the “commonalities of earth science in physical geography and ‘deep’ earth science do not duplicate learning but are complementary, and both perspectives are advantageous and essential for effective learning” (Hawley, 2013 p. 92). Though Hawley (2103) does not openly state his stand, he seems to be supportive of this approach as he argues that it differentiates itself from the “conventional sciences” and is less generic than the usual Earth System science (p. 92).

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Norfarahin Binte Abdul Rahim (National Institute of Education, Singapore) Bing Sheng Wu (National Institute of Education, Singapore) Keywords Geography Junior College Secondary School Physical Geography Education Introduction Earthquakes can have significant and catastrophic consequences to populations and the areas where they live and work. One way to mitigate the negative effect of the hazard on lives is […]

Norfarahin Binte Abdul Rahim (National Institute of Education, Singapore)
Bing Sheng Wu (National Institute of Education, Singapore)

Keywords
Geography
Junior College
Secondary School
Physical Geography Education

Introduction
Earthquakes can have significant and catastrophic consequences to populations and the areas where they live and work. One way to mitigate the negative effect of the hazard on lives is by building the preparedness of people in at-risk areas (Panić, Kovačević, Miljanović,  2012). However, the level of preparedness for earthquakes in not only developing but also developed countries is still problematic (Shaw, Shiwaku, & Kobayashi, 2004). Traditional approaches such as lecturing or book-reading about natural disasters rarely equip students with the skills and attitude of preparedness to respond effectively and survive future disasters (Panić, Kovačević, Miljanović,  2012). Effective education is especially important for earthquake-prone countries to reduce the vulnerability to death when a disaster strikes (Chang & Lin, 2012).

Ranked by the World Bank as the fifth highest risk country in the world in terms of full-spectrum disaster risk, the social, economic and geologic environment of Taiwan is highly volatile to the real threat of earthquakes (Lai, Lei, Fang, Chen, & Chen, 2012). The destructive impact of the 921 earthquake in 1999 led to 2415 people killed, 11305 injured, and monetary damage that totalled $300 billion (Seplaki, Goldman, Weinstein, & Lin, 2006). The 921 earthquake along with the recognition that earthquakes have been occurring so frequently in Taiwan has motivated the Ministry of Education (MOE) to revamp its definition of what the achievement of disaster prevention literacy should encompass. Instead of teaching earthquake prevention through textbooks, Taiwan’s educational effort focused on the development of skills to act and respond appropriately during natural disaster and attitudes to improve people’s preparedness for disaster in the future (Chen & Lee, 2012). Disaster education in Taiwan now begins in elementary school (Sharpe, 2009). Once taught to students through mere theories in the school curricula, this crucial component has been infused into experiential learning processes which put drills at the centre of the learning cycle (Sharpe, 2009). In addition, all schools are required by MOE to conduct mandatory drills at least once in a semester (Chang & Lin, 2012). This ensures that all students are equipped with the skills needed to respond to an upcoming earthquake disaster, should it occur on school grounds.

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