In 2014, evolution through natural selection was introduced to the primary science National Curriculum in England for year 6 (ages 10-11). As teachers had little prior experience of teaching this concept, it provided a rare opportunity to study the effectiveness of different approaches. A study was developed to investigate the impact of…

This article describes a self-guided, story-like game with creative drawing for grades 3-5 that teaches the evolution concepts of adaptation, natural selection, ecosystem dynamics, inheritance, and mutation following the "Next Generation Science Standards" ("NGSS"). Drawing reinforces concepts through emphasis on students'…

When Chris Hatcher joined the Primary Evolution Project team at the University of Reading, his goal was to find effective strategies to teach evolution in a way that keeps children engaged and enthused. Hatcher has collaborated with colleagues at the University's Institute of Education to break the evolution unit down into distinct topics and…

"Evolution" is an area of the curriculum in which children show great interest and enthusiasm to learn more. They also bring considerable prior (though incomplete) knowledge from their informal "life worlds". Most children have encountered the term "evolution" from an early age and tend to define it in terms of…

In practice, in the classroom, teachers are still faced with the issue of what to say to children if they believe that evolution conflicts with their own or other people's religious faith. When asked how they plan to respond, most teacher trainees and teachers respond that they will be a neutral chair and try to give children a balanced view.…

We present a collection of analogies that are intended to help students better understand the foreign and often nuanced vocabulary of the genetics curriculum. Why is it called the "wild type"? What is the difference between a locus, a gene, and an allele? What is the functional (versus a rule-based) distinction between dominant and…

Evolution and inheritance appear in the new National Science Curriculum for England, which comes into effect from September 2014. In the curriculum documents, it is expected that pupils in year 6 (ages 10-11) should be taught to: (1) recognise that living things have changed over time; (2) recognise that living things produce offspring of the same…

Biological evolution still lacks representation in school, especially below high school level. In order to find new implications that could help achieve significant improvement in teaching evolution, twelve expert interviews with both renowned researchers and experienced science teachers were conducted. Results of the comparison between the…

Although the core work of science is oriented toward constructing, revising, applying, and defending models of the natural world, models appear only rarely in school science, and usually only as illustrations, rather than theory building tools. We describe the rationale and structure for a learning progression to understand the development of…

Although children often characterize animals by the animals' color or pattern, the children seldom understand the evolutionary and ecological factors that favor particular colors. In this article, we describe two activities that help students understand the distinct evolutionary strategies of warning coloration and camouflage. Because both of…

"Approaches and Strategies in Next Generation Science Learning" examines the challenges involved in the development of modern curriculum models, teaching strategies, and assessments in science education in order to prepare future students in the 21st century economies. This comprehensive collection of research brings together science educators,…

This study explores pre-service elementary school teachers' understandings of evolutionary science and their feelings and concerns about teaching evolution in Canadian elementary schools. Data were collected through a questionnaire and semi-structured interviews. Most participants reported acceptance of evolution as a scientifically factual…

Suggests instructional strategies for biology teachers confronted with creationism in the classroom and ways of dealing with the literal view of the public regarding the Bible. Supporting documentation (such as Christian ideas supporting scientific spirit and inquiry and definitions of the earth) is included in appendices. (JN)

Discusses books and materials published by creationist organizations to promote creation-science interpretations on the demise of the dinosaur. Compares many creationist theories with current evolution theories and geological records. (MVL)

Provides background information on how scientists have learned about the history of the Earth, including studying fossils, dating rocks, and tracing geological movements. Included are teaching activities about prehistoric animals, state fossils, tracing animal movement and evolution, and discovering fossils. Contains reproducible handouts and…