Climate change has severely affected water resources (WRs) today, highlighting the importance of promoting education on WR adaptation (WRA). The goal of WRA education is to cultivate learners’ cross-oriented system knowledge (COSK), responsibility for WR environment (RWRE), value of public benefits (VPB), and empathy and negotiating thinking (EaNT). This study developed an issue-situation-based board game, namely Water Ark, to enhance participants’ WR knowledge. In this study, participants were divided into four groups with each playing the role of a WR-related organization: the government, agricultural sector, industrial sector and public guild. Scales and interviews were used to assess participants’ performance. The findings revealed that during the game, participants gradually changed from profit-oriented self-interest strategies to altruistic strategies based on social public benefit. Furthermore, after playing Water Ark, participants’ COSK, RWRE, VPB, and EaNT were found to have improved substantially. Thus, Water Ark is believed to be a useful tool for assisting WRA education.
This research uses board games as teaching material to develop students’ decision-making ability and basic scientific literacy and to foster students’ value for nature and social caring by working with socioscientific issues. The board game structure contains four perspective systems: ecological, economic, cultural, and political. In the game processing, students must handle, consider, and understand the different role players’ positions and face different missions that involve socioeconomic and environmental conflicts. When making any decisions, students affect the follow-up game behaviors and develop tendencies. The board game instruction was field-tested with 38 high-school students from two different high schools. Students played the board game for a total of 200 minutes. Students’ scientific conceptions concerning biodiversity (closed-ended) and perspectives on socioscientific issues (open-ended) were assessed before and after the board game lesson. The results showed that students in both high schools significantly increased their understanding of biodiversity concepts, with a high level of effect size (Cohen's d equal to 1.40 and 1.06, respectively, for the two schools). In the semistructured interviews, the interviewed students were able to reflect on the value of animals and provide various opinions about animal conservation and economic development. Keywords: board game, decision making, descriptive research, game base learning, socioscientific issue.
This article reports the design of a scientific board game, named “Element Enterprise Tycoon” (EET), which creates a scenario combining chemical elements, techniques, and products in daily life. The game cards are designed to motivate students not only to retrieve information about chemical elements, but also to be proficient in chemistry. Moreover, the game creates opportunities for group interactions and competitions to engage students in learning chemical elements as they do in regular science curricula. The EET has been field-tested with a group of middle school students to evaluate its applicability. Empirical data show that students improve their understanding of chemistry concepts with a median level of effect size. In particular, students achieve better performance in terms of chemistry-related technique concepts. The follow-up interviews reflect students’ positive feedback and attitudes toward science learning through board game playing and their willingness to continue to play the game. It is suggested that learning through science games can indeed help students learn new chemical knowledge.
Examining and developing courses of education for sustainable development (ESD) is the goal of this study. Building on the theory of game-based learning, this study develops teaching strategies that employ board games for ESD. The design context of the board game, entitled “Be Blessed Taiwan”, is situated in the dilemma between biological conservation and economic development. It incorporates four core systemic concepts: the economy, policies, society, and ecology. Students from two high schools played the game for 200 min and 400 min, respectively (100 min per week). The study collected complete pre-game and post-game data from 34 high school students, including the test of scientific concepts, interviews, and gameplay results. The research results indicate that students’ test scores significantly increased after the gameplay with a medium effect size; specifically, a large effect on the dimension of biodiversity concepts and a medium effect on the dimension of biological conservation concepts. The analysis of students’ gameplay results shows the difficulty for high-school students to achieve all four ESD goals.
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