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With Larry Ferlazzo

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Science Opinion

Ten Culturally Responsive Teaching Strategies for the Science Classroom

By Larry Ferlazzo 鈥 February 14, 2021 13 min read
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The new question-of-the-week is:

What are specific ways educators can make teaching science more culturally responsive?

When we talk about making school culturally responsive, science is not usually the first subject that comes to mind. But that doesn鈥檛 mean it can鈥檛 be done.

Today鈥檚 column will explore ways to make it happen.

Teachers Autumn Kelly, Tara C. Dale, Mandi S. White, and Anthony Nesbit share their suggestions. Autumn and Tara were also guests on my . You can also find a list of, and links to,

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Making science 鈥榬elatable鈥

A Washingtonian, a happy member of the D.C. public school system, with graduate degrees from the Harvard School of Education and Johns Hopkins University, Autumn Kelly鈥檚 digital island of resources can be found at :

Science starts with a journey of discovery. Connecting culturally diverse students to a body of knowledge that can promote safe interactions with the natural environment, good health, and a chemical and biological understanding of the world around them will enhance their life outcomes. Students from diverse backgrounds, particularly Black students along with other racial minorities, are underrepresented and poorly served within the scientific community. As teachers, we can break this cycle by promoting and incorporating culturally inclusive methods as we present science content.

Use Stories and Personifications of Diverse People and Life Experiences

The context of a story can be a culturally rich backdrop to present scientific problems and concepts. Using a historical, current, or fictional character that shares the same ethnicity of life experience of your students will enhance their willingness to engage in science instruction. Invite local professionals in the scientific field from local hospitals, laboratories, or pharmacies to share about their journey in the sciences as a minority student.

Connect to the Community

Classroom research and problem solving in the sciences should focus on culturally relevant elements in the students鈥 local or broader community. For example: If there is a specific disease such as high blood pressure or diabetes that disproportionately affects individuals of certain ethnic or racial backgrounds, use these elements in examples and research topics for students to learn about the principles of science. Have students interview or watch YouTube footage of individuals facing health or science problems that affect their communities. Have students understand disease and treatment statistics from local hospitals and clinics to connect them to ways that science can solve problems in the local world around them.

Break Down Knowledge Barriers: Create Safe Places for Background Questions

Many students have not had the benefit of early formal or informal exposure to the language, vocabulary, and methodology used in the scientific fields of chemistry or biology. When these students attempt to learn concepts and ideas in these areas of science, they are hesitant to try because they lack an understanding of the foundational principals within these areas of study.

One way to support these students is to create a 鈥渟afe space鈥 in the classroom where students can ask anonymous questions about vocabulary and terms during course instruction. This can be done virtually through an email address sent to the teacher where students can send questions they need to ask, a phone number to the teacher where students can text questions, or done on a whiteboard or Post-it note area in the classroom teaching space. The teacher can designate a time during the class period to address these areas of academic need prior to students working on class projects or assignments. This support creates an authentic dialogue of understanding between the student learner and the instructor.

Connect to Personal Experience

Help students connect their life experiences to learning science. Question students to find out if they know anyone with a disease or health experience that is being studied in the science class. Teachers can share first-person accounts from YouTube or other sources of culturally diverse people who might be facing science-based challenges. Empowered by science instruction using these strategies, students can connect new knowledge to personal experiences.

Making science a relatable feature in the lives of culturally diverse students involves integrating culturally relevant elements into daily instruction.

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Looking 鈥榯hrough the lens of assets鈥

Tara C. Dale is currently a high school science teacher and instructional coach. Mandi S. White works as an academic and behavior specialist who was a classroom teacher for nine years prior. They are co-authors of the book, :

Culturally responsive teaching isn鈥檛 a specific set of strategies to be used within classrooms. So, then, how is it achieved? Culturally responsive teaching is a shift in mindset that motivates how we plan for every aspect of learning and overall classroom experiences. It is student-centered and focuses on high achievement for all learners. Culturally responsive classrooms can increase student engagement, a student鈥檚 sense of belonging, and academic achievement.

Highlighting Student Experiences

The classroom becomes enriched for everyone when students are looked at through the lens of assets and not deficits. For example, when students are raised in rural agricultural communities, they likely have a deep knowledge of the natural world and its many interactions. These students are assets in the classroom because they may provide a unique perspective that can be leveraged as they and their peers are learning about agriculture, ecology, earth science, and biology.

An example of student diversity enriching our classroom occurred during a lesson about invasive species (introduced species that cause harm to the environment and/or human populations). Knowing that two of our students were from Uganda, we chose to teach about the harm of the Nile perch in Lake Victoria. Prior to the lesson, we met with both students and their parents to learn why the British government decided to introduce Nile perch to the lake. The history of this case study differs greatly depending on who tells the story. The ecologists and biologists explain that it was an ineffective solution because they knew that Nile perch would overpopulate and destroy the lake鈥檚 ecological balance. The government officials justify their decision by explaining that the lake had been overfished and the only way to avoid an economic depression was to populate the lake with a large, fast-reproducing fish species that would support the fishermen and their families.

Neither of the families made their living through fishing, but both had family members or friends who fished commercially. Through these discussions, we were able to document both sides of history, which were then presented to our students. After listening to the audio tapes (while also reading the manuscripts), students participated in a debate. Half of the class posed as scientists and the other half as government officials who were responsible for their country鈥檚 economy.

By knowing about our students and honoring their unique experiences and cultural differences, all of our students benefit. Student uniqueness is an asset and never a deficit.

Highlighting Student Interests

When the Flint, Mich., water crisis first surfaced in the news, many of our students had questions about how such a crisis could happen in the United States.

We designed a biology unit examining the lead contamination in Flint, not simply as a case study of how lead affects children but also as a study of how society and science are connected. We began by providing students with a glance at the cultural and economic makeup of Flint. Forty percent of the population was living below the poverty line, and 57 percent of the residents were African American.

Then we defined 鈥渆nvironmental racism,鈥 which is a term that was coined in the 1970s that refers to environmental injustices that harm people of color.

To help students understand the connection between society and science and to provide an example of how 鈥渆nvironmental racism鈥 exists, we provided them with two articles: one written by a local Flint resident and another written by a Flint politician.

Although the two authors told a story about the same event, they had two very different perspectives regarding the safety of the water today. Local residents insisted their water was not lead-free, but the politicians resolved that the contamination has been corrected and the water is safe to drink.

When presenting a story to students, it鈥檚 important that they don鈥檛 receive the subtle message that both sides are equal. To avoid this perception of equality, we led a class discussion about who had the power in this case study: the politicians or the residents? Then we discussed the impacts of the pollution, asking how the residents were affected and how the politicians were affected.

Students then debated if the residents should trust the politicians鈥 message that the water could be safely consumed.

Highlighting Student Voices

Students are encouraged to participate in discourse every day in the science classroom in a variety of ways, such as discussing their personal experiences and backgrounds, planning and executing scientific experiments and outcomes, debating hot topics within a field of science, and many more. Through these activities, diverse opinions emerge, which allow for students to increase their understanding of each other and different backgrounds.

Another way to build this community of learners is through cooperative learning (e.g., jigsaw, think-pair-share, and round robin). Cooperative learning lends itself to what is known as the contact hypothesis. The contact hypothesis centers around the idea that prejudices are naturally reduced when diverse groups of people are required to work together. Thus, by creating diverse groups of students within our classroom, students are being exposed to other cultures and learning from each other. This can break down the prejudices that occur in order to solidify a classroom of respect and acceptance so that all learners feel supported and safe.

Another way to build a community of respect is by honoring the beliefs of all students and cultures. For example, in some Native American cultures, students are not permitted to be present for dissections. In order to create an environment that is accepting and respectful of this belief, we find a safe space for them to go and work during this time. We also invite them to teach other students about the history and basis of their traditions. We can make these kinds of modifications in advance because we make an effort to know our students and their backgrounds.

Culturally responsive classrooms shift the focus away from the teacher and onto the students. When students can relate to the content while sharing their experiences with others, they can feel respected and safe. These positive feelings can increase student engagement and offer all students social and cognitive benefits.

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鈥楩unds of knowledge鈥

Anthony Nesbit began his teaching career in Seville, Spain, teaching English. He has taught Spanish and English to speakers of other languages for more than 20 years. He holds a BA in Spanish and an MA in TESOL. Currently, he teaches English-learners in grades K-12:

One of my favorite books is Seedfolks, by Paul Fleischman. The book is a frame story about a community garden created out of a vacant lot by a group of immigrants in Cleveland. Each person brings just a little bit from his or her culture to make the garden unique and special. My favorite chapter in that book is titled, 鈥淕onzalo.鈥 In it, Gonzalo, who is caring for his 鈥渢铆o Juan鈥欌 (a recent arrival from Guatemala), discovers that his uncle is a master gardener. Gonzalo treated him 鈥渓ike a baby.鈥 He often said that he doesn鈥檛 know English and gets lost in the city. But, in the garden, Gonzalo鈥檚 uncle can show his knowledge.

Perhaps, if science educators incorporated more of the students鈥 funds of knowledge into the science curriculum, science would be more culturally responsive. Just as t铆o Juan found himself at home in the garden, our students might find themselves more at home if science teachers incorporated more of the background knowledge that their diverse students bring to the science class. For recently arrived students, this could include things such as geographical references or pictures and names of species of plants and animals endemic to students鈥 native countries. I will never forget the excitement of one of my students recognizing and describing the blossoms and fruit of the cacao tree in the interlanguage of English and Spanish. I think this excitement and later engagement happened because of the relevant example of the cacao blossom that was incorporated into the explanation of the life cycle of a plant.

Additionally, students need to see themselves as scientists to make science more culturally responsive. If educators seek out diverse science role models, this may help break down barriers and beliefs that students from marginalized backgrounds can鈥檛 do science. The internet is a great resource for connecting with scientists from all backgrounds. The site: , matches minority scientists with minority-dominated classrooms to give students role models that 鈥渓ook like them鈥 or come from a similar income group.

Finally, making science more culturally responsive is going to involve a larger systemic change in the way science educators assess students. Too much of science knowledge is based on 鈥渏ust the facts.鈥 Until science educators have a system that evaluates science knowledge based on what students can create using science, rather than just the facts they know, then the ability of a large portion of underrepresented students to do science will go unrecognized.

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Thanks to Autumn, Tara, Mandi, and Anthony for their contributions!

Please feel free to leave a comment with your reactions to the topic or directly to anything that has been said in this post.

Consider contributing a question to be answered in a future post. You can send one to me at lferlazzo@epe.org. When you send it in, let me know if I can use your real name if it鈥檚 selected or if you鈥檇 prefer remaining anonymous and have a pseudonym in mind.

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