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1. Experiential and Real-World Learning for Teachers in the Billion Oyster Project and Curriculum and Community Enterprise (BOP-CCERS) for the Restoration of New York Harbor with New York City Public Schools Program

   https://doi.org/10.5430/jct.v8n4p30  

   Birney, Lauren B. ; Kong, Joyce ; Evans, Brian R. ; Ceritelli, Samantha ; Danker, Macey ( October 2019 , Journal of Curriculum and Teaching)

   The Billion Oyster Project and Curriculum and Community Enterprise for the Restoration of New York Harbor withNew York City Public Schools (BOP-CCERS) seeks to integrate harbor restoration activities with science teachers inorder to provide their students with experiential learning through environmental impact in New York City with thevision that public school students in New York City can benefit from environmental science and experiential learningwork through authentic research, data collection, and experimentation. The purpose is to engage science teachers withexperiential learning opportunities in the New York Harbor that helps them create engaging lessons for their ownstudents. It was found that teachers responded most positively to workshops that included hands-on activities,specifically the oyster restoration station trainings, classroom oyster tank setups and activities with scientists. Teachersreported that the BOP-CCERS program prepared them to support student learning of the program content and scientificresearch activities. Students who engage in real-world science are more likely to see the relevance of science and seethemselves working toward a career pathway in STEM. 

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2. Curriculum and Community Enterprise for Restoration Sciences: The Expansion and Future of the Model

   Birney, Lauren ; McNamara, Denise ; Catherine Sanders, Catherine ; Luintel, Hari ; Penman, Joshua ( December 2018 , International research in higher education)

   Abstract The CCERS partnership includes collaborators from universities, foundations, education departments, community organizations, and cultural institutions to build a new curriculum. As reported in a study conducted by the Rand Corporation (2011), partnerships among districts, community-based organizations, government agencies, local funders, and others can strengthen learning programs. The curriculum merged project-based learning and Bybee’s 5E model (Note 1) to teach core STEM-C concepts to urban middle school students through restoration science. CCERS has five interrelated and complementary programmatic pillars (see details in the next section). The CCERS curriculum encourages urban middle school students to explore and participate in project-based learning activities restoring the oyster population in and around New York Harbor. In Melaville, Berg and Blank’s Community Based Learning (2001) there is a statement that says, “Education must connect subject matter with the places where students live and the issues that affect us all”. Lessons engage students and teachers in long-term restoration ecology and environmental monitoring projects with STEM professionals and citizen scientists. In brief, partners have created curriculums for both in-school and out-of-school learning programs, an online platform for educators and students to collaborate, and exhibits with community partners to reinforce and extend both the educators’ and their students’ learning. Currently CCERS implementation involves: • 78 middle schools • 127 teachers • 110 scientist volunteers • Over 5000 K-12 students In this report, we present summative findings from data collected via surveys among three cohorts of students whose teachers were trained by the project’s curriculum and findings from interviews among project leaders to answer the following research questions: 1. Do the five programmatic pillars function independently and collectively as a system of interrelated STEM-C content delivery vehicles that also effectively change students’ and educators’ disposition towards STEM-C learning and environmental restoration and stewardship? 2. What comprises the "curriculum plus community enterprise" local model? 3. What are the mechanisms for creating sustainability and scalability of the model locally during and beyond its five-year implementation? 4. What core aspects of the model are replicable? Findings suggest the program improved students’ knowledge in life sciences but did not have a significant effect on students’ intent to become a scientist or affinity for science. Published by Sciedu Press 1 ISSN 2380-9183 E-ISSN 2380-9205 http://irhe.sciedupress.com International Research in Higher Education Vol. 3, No. 4; 2018 Interviews with project staff indicated that the key factors in the model were its conservation mission, partnerships, and the local nature of the issues involved. The primary mechanisms for sustainability and scalability beyond the five-year implementation were the digital platform, the curriculum itself, and the dissemination (with over 450 articles related to the project published in the media and academic journals). The core replicable aspects identified were the digital platform and adoption in other Keystone species contexts. 

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3. The Billion Oyster Project and Curriculum and Community Enterprise for Restoration Science Curriculum: The Digital Platform and Student Symposium Presentations

   https://doi.org/10.5430/jct.v11n8p53  

   Birney, Lauren B. ; Evans, Brian R. ; Kong, Joyce ; Solanki, Vibhakumari ; Mojica, Elmer-Rico ( October 2022 , Journal of Curriculum and Teaching)

   The Billion Oyster Project and Curriculum and Community Enterprise for the Restoration of New York Harbor (BOP-CCERS) program is a National Science Foundation (NSF) supported initiative and collaboration of multiple institutions and organizations led by Pace University and is in collaboration with New York City Public Schools. This large-scale project, Innovative Technology Experiences for Students and Teachers (ITEST), generated a large amount of data through programming that engaged both teachers and students. This article presents the third part to the study with focus on the Digital Platform and results from the student Symposium presentations. Part 1 focused on Underrepresented Minority (URM) student interest in STEM as motivated by the original project. Part 2 focused on URM student engagement with teachers to support students in teaching science through experiential learning and lessons that connect science to the real world, particularly through science in the New York Harbor. Moreover, the second part of the study focused on teacher engagement in the program, and what the researchers had learned in the process. The third aspect of the study, and primary focus on this paper, had found additional positive results cited by the teachers in the study both using the Digital Platform and after the project outcomes from the student Symposium presentations. 

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4. The Billion Oyster Project and Curriculum and Community Enterprise for Restoration Science Curriculum Impact on Underrepresented Student Motivation to Pursue STEM Careers

   https://doi.org/10.5430/jct.v10n4p47  

   Birney, Lauren B. ; Evans, Brian R. ; Kong, Joyce ; Solanki, Vibhakumari ; Mojica, Elmer-Rico ; Scharff, Christelle ; Kaoutzanis, Dimitrios ; Kondapuram, Guarav ( October 2021 , Journal of Curriculum and Teaching)

   The Billion Oyster Project and Curriculum and Community Enterprise for the Restoration of New York Harbor with New York City Public Schools (BOP-CCERS) program is a National Science Foundation (NSF) supported initiative and collaboration of multiple institutions and organizations led by Pace University. The NSF project, Innovative Technology Experiences for Students and Teachers (ITEST), had generated a large amount of data through engagement with teachers and students throughout New York City public schools. One purpose of this project is to engage with middle and high school science teachers to assist them in using project-based learning and real-world data collection in their classrooms with their students through harbor restoration initiatives. It was found that Underrepresented Minority (URM) students reported having higher levels of interest in STEM and science than did the non-URM students. While this is a success, it was found that the URM students had lower expectations for success in STEM courses and interest in STEM careers. It was concluded that URM students may need additional support in order to build their confidence and help them to become aware of opportunities in STEM education and careers. 

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5. The Billion Oyster Project and Curriculum and Community Enterprise for Restoration Science Curriculum Impact on Teacher Engagement

   https://doi.org/10.5430/jct.v11n4p53  

   Birney, Lauren B. ; Evans, Brian R. ; Kong, Joyce ; Solanki, Vibhakumari ; Mojica, Elmer-Rico ; Scharff, Christelle ( April 2022 , Journal of Curriculum and Teaching)

   The Billion Oyster Project and Curriculum and Community Enterprise for the Restoration of New York Harbor with New York City Public Schools (BOP-CCERS) program is a National Science Foundation (NSF) supported initiative and collaboration of multiple institutions and organizations led by Pace University. The NSF project, Innovative Technology Experiences for Students and Teachers (ITEST), had generated a large amount of data through engagement with teachers and students throughout New York City public schools. This article presents the second part to a large data collection study with focus on Underrepresented Minority (URM) student interest in STEM and engagement with teachers to support them in teaching science through experiential learning and lessons that connect science to the real world, particularly through science in the New York Harbor. The first component of the study focused on URM student interest in STEM. This second component of the study focuses on teacher engagement in the program, and what the researchers had learned in the process. Overall, teachers reported very favorable options on the impact of the BOP-CCERS activities as ways to generate student interest in STEM majors and careers. Teacher participants were generally positive about the amount of support and resources they received as members of the project, as well as the oyster-related knowledge and practices they learned to use with their own students in oyster field research. Data from the study provided evidence that the teacher activities were successful and met the project’s goals to provide support and resources for teachers to engage students in oyster restoration research. 

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