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面向生物学专业学生的基于操作工具的实验室——一种通过实践来理解呼吸作用和光合作用的方法。

Manipulatives-based laboratory for majors biology - a hands-on approach to understanding respiration and photosynthesis.

作者信息

Boomer Sarah M, Latham Kristin L

机构信息

Department of Biology, Western Oregon University, Monmouth OR 97361.

出版信息

J Microbiol Biol Educ. 2011 Dec 1;12(2):127-34. doi: 10.1128/jmbe.v12i2.245. Print 2011.

Abstract

The first course in our year-long introductory series for Biology majors encompasses four learning units: biological molecules and cells, metabolism, genetics, and evolution. Of these, the metabolism unit, which includes respiration and photosynthesis, has shown the lowest student exam scores, least interest, and lowest laboratory ratings. Consequently, we hypothesized that modeling metabolic processes in the laboratory would improve student content learning during this course unit. Specifically, we developed manipulatives-based laboratory exercises that combined paper cutouts, movable blocks, and large diagrams of the cell. In particular, our novel use of connecting LEGO blocks allowed students to move model electrons and phosphates between molecules and within defined spaces of the cell. We assessed student learning using both formal (content indicators and attitude surveys) and informal (the identification of misconceptions or discussions with students) approaches. On the metabolism unit content exam, student performance improved by 46% over pretest scores and by the end of the course, the majority of students rated metabolism as their most-improved (43%) and favorite (33%) subject as compared with other unit topics. The majority of students rated manipulatives-based labs as very helpful, as compared to non-manipulatives-based labs. In this report, we will demonstrate that students made learning gains across all content areas, but most notably in the unit that covered respiration and photosynthesis.

摘要

我们为生物学专业学生开设的为期一年的入门系列课程的第一门课程包含四个学习单元

生物分子与细胞、新陈代谢、遗传学和进化。其中,包括呼吸作用和光合作用的新陈代谢单元,学生的考试成绩最低、兴趣最少、实验评分也最低。因此,我们假设在实验室中模拟代谢过程将提高学生在本课程单元中的内容学习效果。具体而言,我们开发了基于教具的实验室练习,将剪纸、可移动积木和细胞的大幅示意图结合起来。特别是,我们对乐高积木的新颖使用让学生能够在分子之间以及细胞的特定空间内移动模型电子和磷酸盐。我们使用正式(内容指标和态度调查)和非正式(识别误解或与学生讨论)方法评估学生的学习情况。在新陈代谢单元的内容考试中,学生的成绩比预测试成绩提高了46%,到课程结束时,与其他单元主题相比,大多数学生将新陈代谢评为进步最大(43%)和最喜欢(33%)的科目。与非基于教具的实验室相比,大多数学生认为基于教具的实验室非常有帮助。在本报告中,我们将证明学生在所有内容领域都取得了学习进步,但最显著的是在涵盖呼吸作用和光合作用的单元中。

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