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1. Billion Oyster Project: Linking Public School Teaching and Learning to Ecological Restoration of New York Harbor Using Innovative Applications of Environmental and Digital Technologies

   Janis, Samuel ; Birney, Lauren ; Newton, Robert ( January 2016 , International journal of digital content technology and its applications)

   
Research consistently shows that children who have opportunities to actively investigate natural settings and engage in problem-based learning greatly benefit from the experiences. They gain skills, interests, knowledge, aspirations, and motivation to learn more. But how can we provide these rich opportunities in densely populated urban areas where resources and access to natural areas are limited? This project will develop and test a model of curriculum and community enterprise to address that issue within the nation's largest urban school system. Middle school students will study New York harbor and the extensive watershed that empties into it, and they will conduct field research in support of restoring native oyster habitats. The project builds on the existing Billion Oyster Project, and will be implemented by a broad partnership of institutions and community resources, including Pace University, the New York City Department of Education, the Columbia University Lamont-Doherty Earth Observatory, the New York Academy of Sciences, the New York Harbor Foundation, the New York Aquarium, and others.
The project focuses on an important concept in the geological, environmental, and biological sciences that typically receives inadequate attention in schools: watersheds. This project builds on and extends the Billion Oyster Project of the New York Harbormore »School. The project model includes five interrelated components: A teacher education curriculum, a student learning curriculum, a digital platform for project resources, an aquarium exhibit, and an afterschool STEM mentoring program. It targets middle-school students in low-income neighborhoods with high populations of English language learners and students from groups underrepresented in STEM fields and education pathways. The project will directly involve over forty schools, eighty teachers, and 8,640 students over a period of three years. A quasi-experimental, mixed-methods research plan will be used to assess the individual and collective effectiveness of the five project components. Regression analyses will be used to identify effective program aspects and assess the individual effectiveness of participation in various combinations of the five program components. Social network mapping will be used to further asses the overall "curriculum plus community" model.« less
2. Computational Thinking Integration Strategy for the Urban Middle School Classroom

   https://doi.org/10.5430/irhe.v3n3p51  

   Birney, Lauren ; McNamara, Denise ( July 2018 , International Research in Higher Education)

   This article provides an overview of the work pioneered by the consortium of collaborators in the Billion Oyster Curriculum and Community Enterprise for Restoration Science Project (BOP-CCERS). The BOP-CCERS are working to support computational thinking in the New York City public school classrooms by creating curriculum which combines:1. The Field Station Research (Oyster Restoration Stations) and data collection2. The Billion Oyster Project Digital Platform and data input and storage 3. The New York State Science Intermediate Level Learning Standards. 4. The Computer Science Teachers Association K-12 Computer Science StandardsThe integration of computational thinking in the STEM middle school classroom is showcased through the intertwining of these dimensions into a trans-disciplinary learning experience that is rich in both content and practice. Students will be able to explain real-world phenomena found in their own community and design possible solutions through the key components of computational thinking.The Curriculum and Community Enterprise for Restoration Science Project digital platform and curriculum will be the resources that provide the underpinnings of the integration of computational thinking in the STEM middle school classroom. The primary functions of the platform include the collection and housing of the data pertaining to the harbor and its component parts, both abioticmore »and biotic and the storage of the curriculum for both the classroom and the field stations.« less
3. If You Give a Kid an Oyster: Refections on Collaborations in PlaceBased STEM Education Through Oyster Restoration Science in New York City

   https://doi.org/10.15695/jso.v1i2.4510  

   Elisa Caref, Sarah Lawrence ( April 2018 , Journal of STEM outreach)

   Many urban New Yorkers believe that the Hudson River is so polluted that nothing could possibly live there. In reality, the estuary is thriving, and The River Project (TRP), a marine science field station in lower Manhattan, exists to showcase its vast biodiversity through place-based education. In 2014, TRP began collaborating on a city-wide initiative with the Billion Oyster Project and nine other partner organizations to integrate restoration science into Title I middle school curricula through the Curriculum and Community Enterprise for Restoration Science (CCERS). Teachers in the fellowship program attend science workshops and professional developments opportunities to bring the locally relevant topic of oyster restoration into their classrooms. Through this partnership, TRP has expanded its reach beyond the typical 90-minute field trip experience, fostering relationships with teachers through professional developments workshops and in-classroom lessons to support their students’ project-based learning explorations. This confluence of educational activities created a richer, more meaningful learning experience for teachers, students, and TRP educators.
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.
5. The Curriculum and Community Enterprise for Restoration Science S.T.E.M. + C Professional Learning Model: Expansion and Enhancement

   https://doi.org/10.5430/jct.v8n3p122  

   Birney, Lauren ; McNamara, Denise ( July 2019 , Journal of Curriculum and Teaching)

   Professional Development in the field of education has undergone several shifts in focus. Currently, teacher contentknowledge and the ability to disseminate this knowledge is the focus in professional learning communities. Theimportance of creating a thriving STEM workforce in the United States has been promoted for the last decade.Studies have shown that capturing students’ interest must occur before they enter high school, ideally in the middleschool years (Blotnicky, Franz-Odendaal, French, & Phillip, 2018). Teachers are the conduits for encouragingstudents to explore STEM-related career options. Student engagement is piqued when there is a strong real-worldconnection to the content being presented. Students find relevance through actual experience with the concepts andskills incorporated in projects that are community-based. The Curriculum and Community Enterprise for RestorationScience STEM + C Project is the marriage of these two components. The professional development of the New YorkCity middle school teachers involved in the CCERS STEM +C Project furnishes these educators with the tools tostimulate students’ interest by tackling a problem in their local community using STEM-related content andcomputational thinking. The hope is that authenticity of the learning experience will entice all students, especiallythose under-represented populations in the STEM workforce, to consider this as a viable career pathway. Theanalysismore »of this project is intended to highlight the significant inroads made and the value of self-reflection andre-design in strengthening the work as it continues.« less