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1.
This study explores the perceptions of culturally relevant science teaching of 35 teachers of American Indian students. These teachers participated in professional development designed to help them better understand climate change science content and teaching climate change using both Western science and traditional and cultural knowledge. Teacher perceptions of practices using culturally relevant instruction were evaluated. The data were analyzed both quantitatively and qualitatively. The results from the survey analysis show that the teachers’ existing practices of culturally relevant science teaching were limited in choosing topics relevant to American Indian culture. We found three common themes from the teachers’ perceptions of culturally relevant science teaching, meaning of culturally relevant science teaching, teaching strategies, and purpose of culturally relevant science teaching from the qualitative data. We also found that teachers with higher survey scores perceive culturally relevant science teaching differently than teachers with lower survey scores, specifically for the purposes and teaching strategies of culturally relevant science teaching. The results show that teachers with higher survey scores tended to perceive culturally relevant science teaching as a two-way learning process between teachers and students where the teachers can learn traditional science knowledge from the students. They also tend to perceive using concrete traditional science examples as effective teaching strategy for culturally relevant science teaching and building strong relationships with American Indian students as the most important purpose of culturally relevant science teaching. We also discuss common challenges faced by science teachers when trying to implement culturally relevant science teaching with American Indian students.  相似文献   

2.
Despite decades of precollege science education programs, African Americans, Latinos, and Native Americans remain critically underrepresented in science and health professions. This report describes college and career outcomes among graduates of the Stanford Medical Youth Science Program (SMYSP), a 5-week summer residential program for low-income high school students among whom 97% have been followed for up to 21 years. Approximately 24 students are selected annually, with participation limited to low-income students who have faced substantial personal hardships. Undergraduate and medical students provide key program leadership and training. The curriculum is based on science inquiry education and includes hospital internships, anatomy practicums, research projects, faculty lectures, college admissions/standardized test preparation, and long-term college and career guidance. A total of 476 high school students participated between 1988 and 2008, with 61% from underrepresented ethnic minority groups. Overall, 78% of African American, 81% of Latino, and 82% of Native American participants have earned a 4-year college degree (among those admitted to college, and excluding those currently attending college). In contrast, among 25–34-year old California adults, 16% of African Americans, 8% of Latinos, and 10% of Native Americans earn a 4-year college degree. Among SMYSP’s 4-year college graduates, 47% are attending or have completed medical or graduate school, and 43% are working as or training to become health professionals. SMYSP offers a model that expands inquiry-based science education beyond the classroom, and recognizes the role of universities as “high school interventionists” to help diversify health professions.  相似文献   

3.
In this study, two middle‐school teachers who participated in a professional development program utilizing the transformative professional development (TPD) model are followed as they embarked upon becoming culturally relevant science teachers of Hispanic students. Using Ladson‐Billings (1994) theory of culturally relevant pedagogy, teacher interviews, focus groups, journals, and field notes are examined to reveal aspects of culturally relevant pedagogy that the participants translate into their daily science instructional practice in this longitudinal case study. Findings revealed TPD enabled participants to transform their practice to focus on culturally relevant science pedagogy resulting in a more effective instructional environment for their Hispanic students. Implications for further research on professional development and other supports for teachers integrating culturally relevant pedagogy are discussed. © 2010 Wiley Periodicals, Inc., J Res Sci Teach 48: 170–198, 2011  相似文献   

4.
Abstract

This article focuses on the impact of culturally relevant teaching and learning during a summer enrichment program for high school students. Culturally relevant science instruction and curriculum helped students to foster a more positive interest in science and STEM careers as it provided students the opportunity to do science in meaningful and relevant ways. Students were able to see themselves represented in the curriculum and recognized their own strengths; as a result, they were more validated and affirmed in and transformed by, their learning. We use this case to warrant increased support for summer learning programs focused on providing African American youth with access to high quality, culturally relevant/responsive science education.  相似文献   

5.
Due to the growing number of students from populations underrepresented in the sciences, there is an intensified need to consider alternatives to traditional science instruction. Inquiry-based instructional approaches provide promise and possibility for engaging underrepresented students in the activities of science. However, inquiry-based instruction without culturally relevant pedagogy and instructional congruency, may not be sufficient to support non-mainstream students in science learning, and may even serve to challenge students’ cultural ways of knowing. This conceptual paper suggests that aligning reform efforts in science education to the field of multicultural education would buttress efforts to reach underrepresented student groups in science. This includes providing culturally relevant instruction and instruction toward making the assumptions of science explicit, in particular. To this end, this paper draws from literature in multicultural education to propose that deconstructing science through instruction in NOS may support Latino, African American and English language learning students in science learning.  相似文献   

6.
This article addresses the impact of race and ethnicity on students' science learning in US schools. Specifically, it discusses (a) the constructs of race, ethnicity, and culture, and the racial and ethnic student composition in US public schools; (b) effective classroom practices for curriculum, instruction, and assessment related to race and ethnicity; and (c) future policy and practice regarding race and ethnicity in science education. We discuss the science learning and teaching of African American, Latino, and Asian American students. Even though Asian American students are viewed as the model minority, some struggle with science learning, because their languages and cultures are seen as hurdles. As there is little defendable science education research related to Native Americans at the precollege level, we remain silent in this area.  相似文献   

7.
Ridgeway and Yerrick’s paper, Whose banner are we waving?: exploring STEM partnerships for marginalized urban youth, unearthed the tensions that existed between a local community “expert” and a group of students and their facilitator in an afterschool program. Those of us who work with youth who are traditionally marginalized, understand the importance of teaching in culturally relevant ways, but far too often—as Ridgeway and Yerrick shared—community partners have beliefs, motives, and ideologies that are incompatible to the program’s mission and goals. Nevertheless, we often enter partnerships assuming that the other party understands the needs of the students or community; understands how in U.S. society White is normative while all others are deficient; and understands how to engage with students in culturally relevant ways. This forum addresses the underlying assumption, described in the Ridgeway and Yerrick article, that educators—despite their background and experiences—are able to teach in culturally relevant ways. Additionally, I assert based on the finding in the article that just as Ladson-Billings and Tate (Teach Coll Rec 97(1):47–68, 1995) asserted, race in the U.S. society, as a scholarly pursuit, was under theorized. The same is true of science education; race in science education is under theorized and the use of culturally relevant pedagogy and critical race theory as a pedagogical model and analytical tool, respectively, in science education is minimal. The increased use of both would impact our understanding of who does science, and how to broaden participation among people of color.  相似文献   

8.
The battle of the Little Big Horn in 1876 was one of the last great wars fought by Native Americans on a grassy battlefield. The battle was fought over territory and the right to live in the Dakota and Montana territories. The Native Americans won the battle of Little Big Horn but eventually lost the war and were forced to live on a reservation away from their homeland. Today another great battle involving Native Americans is taking place, not on a grassy plain somewhere out West, but in courtrooms, classrooms, and tribal meetings across the country. The battle is over the use of historical Native American images and traditions as mascots and nicknames of higher education institutions. The research reported in this paper identified seven institutions of higher learning (not a complete list) which have abolished the use of Native American mascots on their campuses. Although these seven schools do not include a community college, much food for thought is presented for the benefit of community college educators who respect the thoughts and feelings of Native American Indians. The need is for this study to be replicated among community colleges with Native American mascots.  相似文献   

9.
It has been suggested that culturally relevant literature can be beneficial to elementary school students' learning. Yet, less research has focused on African American students' perspectives of that literature, including aspects of that engagement that may benefit their learning. Therefore, the main goal centred on US elementary school students' perspectives of African American children's literature in an after-school book club. There were 15 second- and third-grade African American students from a low-income area who participated in the 6-week book club. The book club sessions were recorded, student artefacts were collected and a focus group was held with students. Following the book club, there were two classroom teachers interviewed along with an after-school teacher facilitator. Based on the analysis, four themes were found. These focused on increased reading motivation, the role of cultural and personal associations with literature for comprehending, engagement in communal learning and improved access to culturally relevant texts. The results extend previous research on the importance of social collaboration and culturally relevant books to promote motivation and reading comprehension among learners and highlight the value of collaborative and culturally based learning for Black children in the American context.  相似文献   

10.
This study explored how teachers' prior experiences, beliefs about knowledge, and schooling contexts collectively influenced their ability to implement classroom curricula that were culturally relevant to their students and that were constructivist in orientation. Using a case study design, this paper presents a 4-year longitudinal study of Dan, a second-career teacher who entered teaching after being a field scientist for an international corporation for 6 years, and Amy, who became an English teacher after being a floral designer for 10 years. Using the theoretical perspective of world view as described by Shuell (1992) [Teaching and Teacher Education, 8(1), 83–90] and Cobern (1993) [The practice of constructivism in science education, Washington, DC: American Association for the Advancement of Science], I explored the professional development of Dan and Amy, who differed in their world views. Specifically, I examined how their world views gave shape to their classroom learning environments, including their classroom curricula and their interactions with students during their initial years of becoming teachers. Multiple sources of data were gathered throughout the 4 year study from formal and informal interviews, observations of classroom teaching, stimulated recall interviews, and biographical interviews. Using the constant comparative method of data analysis, salient themes emerged from the data, including beliefs about teaching content knowledge, beliefs about learners, and influences on classroom curriculum. Implications for creating constructivist and culturally relevant classroom curricula are discussed.  相似文献   

11.
This three year study of P-12 professional development is grounded in sociocultural theories that hold that building knowledge and relationships among individuals from different cultural backgrounds entails joint activity toward common goals and cultural dialogues mediated by cultural translators. Sixty P-12 pre and in-service teachers in a year long interdisciplinary science curriculum course shared the goal of developing culturally relevant, standards-based science curricula for Native Hawai'ian students. Teachers and Native Hawai'ian instructors lived and worked together during a five day culture-science immersion in rural school and community sites and met several times at school, university, and community sites to build knowledge and share programs. Teachers were deeply moved by immersion experiences, learned to connect cultural understandings, e.g., a Hawai'ian sense of place and curriculum development, and highly valued collaborating with peers on curriculum development and implementation. The study finds that long term professional development providing situated learning through cultural immersion, cultural translators, and interdisciplinary instruction supports the establishment of communities of practice in which participants develop the cross-cultural knowledge and literacy needed for the development of locally relevant, place and standards-based curricula and pedagogy.  相似文献   

12.
When evaluating equity, researchers often look at the “achievement gap.” Privileging knowledge and skills as primary outcomes of science education misses other, more subtle, but critical, outcomes indexing inequitable science education. In this comparative ethnography, we examined what it meant to “be scientific” in two fourth‐grade classes taught by teachers similarly committed to reform‐based science (RBS) practices in the service of equity. In both classrooms, students developed similar levels of scientific understanding and expressed positive attitudes about learning science. However, in one classroom, a group of African American and Latina girls expressed outright disaffiliation with promoted meanings of “smart science person” (“They are the science people. We aren't like them”), despite the fact that most of them knew the science equally well or, in one case, better than, their classmates. To make sense of these findings, we examine the normative practice of “sharing scientific ideas” in each classroom, a comparison that provided a robust account of the differently accessible meanings of scientific knowledge, scientific investigation, and scientific person in each setting. The findings illustrate that research with equity aims demands attention to culture (everyday classroom practices that promote particular meanings of “science”) and normative identities (culturally produced meanings of “science person” and the accessibility of those meanings). The study: (1) encourages researchers to question taken‐for‐granted assumptions and complexities of RBS and (2) demonstrates to practitioners that enacting what might look like RBS and producing students who know and can do science are but pieces of what it takes to achieve equitable science education. © 2011 Wiley Periodicals, Inc., Inc. J Res Sci Teach 48: 459–485, 2011  相似文献   

13.
We conducted a laboratory‐based randomized control study to examine the effectiveness of inquiry‐based instruction. We also disaggregated the data by student demographic variables to examine if inquiry can provide equitable opportunities to learn. Fifty‐eight students aged 14–16 years old were randomly assigned to one of two groups. Both groups of students were taught toward the same learning goals by the same teacher, with one group being taught from inquiry‐based materials organized around the BSCS 5E Instructional Model, and the other from materials organized around commonplace teaching strategies as defined by national teacher survey data. Students in the inquiry‐based group reached significantly higher levels of achievement than students experiencing commonplace instruction. This effect was consistent across a range of learning goals (knowledge, reasoning, and argumentation) and time frames (immediately following the instruction and 4 weeks later). The commonplace science instruction resulted in a detectable achievement gap by race, whereas the inquiry‐based materials instruction did not. We discuss the implications of these findings for the body of evidence on the effectiveness of teaching science as inquiry; the role of instructional models and curriculum materials in science teaching; addressing achievement gaps; and the competing demands of reform and accountability. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47:276–301, 2010  相似文献   

14.
The study sought to determine the effects of teacher-introduced multimodal representations and discourse on students’ task engagement and scientific language during cooperative, inquiry-based science. The study involved eight Year 6 teachers in two conditions (four very effective teachers and four effective teachers) who taught two units of inquiry-based science across two school terms. The results show that the very effective teachers spent significantly more time engaged in using embodied representations to illustrate points or communicate information. They also spent significantly more time engaged in interrogating students’ understandings and scaffolding and challenging their thinking than the effective teachers. In turn, the students in the very effective teachers’ classes spent significantly more time on-task and used significantly more relevant basic and scientific language to explain the phenomena they were investigating than their peers in the effective teachers’ classes. These are behaviours and language that are associated with successful learning in science.  相似文献   

15.
This paper presents results of research that explored students' constructs about energy. During the implementation of a constructivist learning approach, constructs from students in three classes were elicited using a repertory grid method, both before and after completing a module of work dealing with energy. Results from repertory grids showed that students who experienced the constructivist approach provided significantly more constructs, and of a wider, nature, than students who were taught in their usual fashion. Results from a school test administered to all three classes and the differences found between the results from the repertory grid techniques and the school test are then discussed. This paper concludes that students taught with the constructivist approach had much increased personal knowledge concerning energy, more so than those students taught in the traditional manner, and also that students taught with the constructivist approach learnt the school science equally as well as those students taught in the usual fashion.  相似文献   

16.
This study investigates the efficacy of an integrated science and literacy approach at the upper‐elementary level. Teachers in 94 fourth grade classrooms in one Southern state participated. Half of the teachers taught the treatment unit, an integrated science–literacy unit on light and energy designed using a curriculum model that engages students in reading text, writing notes and reports, conducting firsthand investigations, and frequent discussion of key concepts and processes to acquire inquiry skills and knowledge about science concepts, while the other half of the teachers taught a content‐comparable science‐only unit on light and energy (using materials provided by their districts) and provided their regular literacy instruction. Students in the treatment group made significantly greater gains on measures of science understanding, science vocabulary, and science writing. Students in both groups made comparable gains in science reading comprehension. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 631–658, 2012  相似文献   

17.
Reading is a communication process that is crucial to students in science. Printed text materials are the most widely used teacher aids in the classroom. But reading as a major focus of science instruction has been out of favor with the mainstream of science education since the late 1950s. Despite this, few would deny the value of reading skills in a science class. The purpose of the present investigation was to determine how the use of Newsday's Science Education Series Program affected selected ninth-grade students' comprehension of science reading material. Analysis of covariance showed that students with standardized reading and mathematics scores at least two years above grade level who were taught using newspaper science articles alone had Degrees of Reading Power posttest scores higher at the 0.05 level of significance compared to students taught using Newsday's Science Education Series Program or using only the science article's content as part of class lessons. Students with standardized reading and mathematics scores on grade level taught using Newsday's Science Education Series Program had Degrees of Reading Power posttest scores higher at the 0.01 level of significance compared to students taught by either of the other methods.  相似文献   

18.
We propose a process of contextualization based on seven empirically derived contextualization principles, aiming to provide opportunities for Indigenous Mexican adolescents to learn science in a way that supports them in fulfilling their right to an education aligned with their own culture and values. The contextualization principles we empirically derived account for Nahua students' cultural cognition, socialization, and cultural narratives, thus supporting Indigenous students in navigating the differences between their culture and the culture and language of school while learning complex science concepts such as natural selection. The process of curricular contextualization we propose is empirically driven, taking culture and socialization into account by using multiples sources (cognitive tasks to explore teleology, ethnographic observation of students' community and classroom, and interviews with students and community members) and builds on the scholarship in Culturally Relevant Pedagogy and Indigenous Education. We used these principles to redesign a middle school biology unit on natural selection to make it more culturally relevant for Nahua students. The enactment of this unit resulted in students being engaged in science learning and achieving significant learning gains. The significance of this study lies in presenting evidence that learning science in culturally relevant ways supports the learning of challenging biology concepts. We provide evidence that Western science can be learned in ways that are more aligned with Indigenous students' Traditional Indigenous Knowledge, thus informing the implementation of educational policies aiming to improve the quality of secondary education for Indigenous adolescents. Our proposed contextualization principles can benefit students of all cultural identities who feel that their religion, language, or traditional knowledge are not aligned with school science, facilitating their access to culturally relevant science education.  相似文献   

19.
This article describes a research and early intervention project that involves parents and Head Start teachers who live and work in geographically isolated areas of the Navajo Reservation. Social and environmental characteristics of life in remote areas are considered as "risk factors" that impact upon the child's probable success in school. Two promising lines of intervention are reported comprehensive instruction in child development for Head Start teachers and working with parents as children's "first teachers." The teacher education approach involves innovative methods that build upon the Native American oral tradition. The approach to parents as "first teachers" involves Navajo parents in a structured reading approach with culturally relevant materials, where children are encouraged to reconstruct story content in a variety of representational media. Preliminary results include a dramatic rise in the number of CDA credentialed teachers and major improvements in teaching skills and satisfaction with teaching.  相似文献   

20.
A view of science as a culturally‐mediated way of thinking and knowing suggests that learning can be defined as engagement with scientific practices. How students engage in school science is influenced by whether and how students view themselves and whether or not they are the kind of person who engages in science. It is therefore crucial to understand students' identities and how they do or do not overlap with school science identities. In this paper, we describe four middle school African American girls' engagement with science. They were selected in the 7th grade because they expressed a fondness for science in school or because they had science‐related hobbies outside of school. The data were collected from the following sources: interviews of students, their parents and their teachers; observations in science classes; journal writing; and focus groups. These girls' stories provide us with a better understanding of the variety of ways girls choose to engage in science and how this engagement is shaped by their views of what kind of girl they are. © 2000 John Wiley & Sons, Inc. J Res Sci Teach 37: 441–458, 2000.  相似文献   

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