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Before we talk about achievement gaps, let’s look at a couple of success stories
MODEL PROGRAMS ALL OVER THE NATION HAVE ACHIEVED GREAT RESULTS. THE KEY IS TO ANALYZE WHAT THEY HAVE IN COMMON.
Local Initiatives Show:Integrating authentic,
interesting and relevant learning (especially in
STEM) with language has strong results.
Cleveland, Ohio Mathematics and Science Partnership: Science and Literacy Project
Integrating language arts and science in inner city schools, the Seeds of Science/Roots of Reading program led to higher student performance on assessments of science knowledge, vocabulary, and writing. Teachers also found the program usable, effective, and engaging.
Goldschmidt, P., and Jung, H. (2010). Evaluation of Seeds of Science/Roots of Reading: Effective Tools for Developing Literacy through Science in the Early Grades (PDF).
Student GainsGain S.E.VocabularyTreatment 0.69 0.086 ***Control 0.39 0.079 ***
ReadingTreatment 2.38 0.104 ***Control 1.18 0.090 ***
*** p < .01, ** p <.05, * p< .10
Integrated Taught Alone0
0.5
1
1.5
2
2.5
VocabularyReading
Texas Turn-around for At Risk Students
In 2012 the Texas basic skills tests changed. All districts saw a drop. This graph compares improvements in 2013 for at risk students in basic skills for the entire state (black) and four districts that embedded their mathematics and science instruction into STEM/Citizen Science through JASON Learning.
Southwest Schools/Texas
All Students
Hispanic
SPED
ELL
0 10 20 30 40 50 60 70 80 90
Closing the Achievement Gap - Reading
20132012
This district integrated middle level Citizen Science with language acquisition in 2013. They found strong gains for economically disadvantaged, White, Hispanic, African American, and All Students.
“Although STEM is specific for fields of study in science, technology, engineering, and mathematics, we realize the significance of literacy (Reading) in the success of all subjects for our students.”
Numbers, Operations, and Quantitative Reasoning0 10 20 30 40 50 60
Student Achievement for STAAR 8th grade
math
2013 2012
% of students scores for the STAAR 8th grade math
When we teach science, we are also teaching English, not just teaching in English.
Opportunities and Challenges for ELLs in the Science Inquiry Classroom (Part 1) Rusty Bresser and Sharon Fargason (2014)
The use of guided inquiry (beginning with a more structured approach and then gradually developing to a more open-ended approach to learning) that builds on students’ prior knowledge and science content provides English language learners with opportunities to learn the practice of science (Amaral, Garrison, and Klentschy 2002; Fradd and Lee 1999; Vanosdall et al. 2007; Warren and Rosebery 2008).NSTA Position Science for English Language Learners http://www.nsta.org/about/positions/ell.aspx
But in most communities the path to such progress
is illusive.What will make a program
work?How do individual districts
find models?
Empowerment
[NGSS] PRACTICES MAKE PERFECT…paths to literacy
1. Asking questions (for science) and defining problems (for engineering) 2. Developing and using models 3. Planning and carrying out investigations 4. Analyzing and interpreting data 5. Using mathematics and computational thinking 6. Constructing explanations (for science) and designing solutions (for engineering) 7. Engaging in argument from evidence 8. Obtaining, evaluating, and communicating information
STUDENTS MUST BEGIN TO SEE THEMSELVES AS ENTITLED TO BECOME SCIENTISTS, NOT AS OBSERVERS. THEY MUST BE MENTORED TO BELIEVE IN THEMSELVES.
CULTURALLY RELEVANT ROLE MODELS ARE VITAL.
SO ARE NON-SCIENTISTS WHO TELL THEM THEY CAN.
Enfranchisement
Key idea from successful programs: Reading and mathematics taught in the context of science are
more effective than when taught in isolation.
The practices of science are not simply tools for experimenting; they enable students to solve problems in all areas of their lives.
Lessons must have personal and cultural relevance
Lessons must extend to problem solving (engineering integration)
Language, reading and mathematics are learned most quickly when they are in relevant contexts.
Reading and mathematics scores go up when the skills are learned in context
When students see themselves as problem-solvers, they are able to see themselves as success.
Culturally relevant role models
Involvement of the community
Barriers in average schools:Siloing
The perception that language must be taught intensively and separately
Top-Down attitude toward curriculum development
Lack of access to appropriate facilities and materials
Lack of culturally-appropriate role models and literature
Lack of cultural sensitivity
Lack of ammunition!
To change school cultures, we must empower teachers and administrators as well.
We must look carefully at the factors in their positions for which they are rewarded, and make sure they are coherent with what we want in the end.
From NSTA’s Learning Center, a community of over 450,000 educators each year, we hear real stories of promise, practice and problems:
•High emphasis on testing--only the middle students get attention
•Lack of facilities to do authentic (STEM) learning safely (especially for students with limited language facility)
•Little access to information on cultural differences• Examples: Reluctance to participate in scientific argumentation• Cultural traditions that may conflict with scientific investigations
•No trade books that are culturally relevant
•Few culturally relevant role models or real historical background
But we hope to do better!Next month NSTA brings together representatives from a dozen national educational groups to chart a path toward a nationally accessible database so that barriers can be overcome.
Ideas?
Questions?
www.nsta.org