1 / 1

A. Ecological Networks – An Introduction to Networks

Transforming high school science education through unique partnerships, inquiry based modules and ocean systems studies. Professional Development Institutes. Classroom Pilots. 1. 2. Cell density.

marcus
Download Presentation

A. Ecological Networks – An Introduction to Networks

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Transforming high school science education through unique partnerships, inquiry based modules and ocean systems studies Professional Development Institutes Classroom Pilots 1 2 Cell density Principal Investigators: Monica V. Orellana1, Nitin S. Baliga1, Manager and Investigator: Claudia Ludwig1 Active Contributors: J. Ashworth1, A. Lee1, M. Herbert2, E. Muhs2, A. Boleda3, H. Kuestner3, A. Valauri-Orton3, W. Palmer2, S. Reeve2, L. George2, E. Wright4, R. Yan5, D. Kovaric6, J. Chowning6, Tami Caraballo2 1 Institute for Systems Biology, 2 Teacher or Curriculum Lead, 3 Undergraduate Intern, 4 University of WA, 5 DigiPen Institute of Technology, 6 Northwest Association for Biomedical Research 4 Salinity (M) Finding Creative Solutions for Developing andImplementingNew Curriculum Program Architecture: an Integrative Approach to Knowledge Transfer Curriculum Development Kit Development There is an urgent need for current, hands-on, interdisciplinary curriculum addressing the changing carbon cycle and its impact on oceans. Monica Orellana’s systems biology research on diatoms and ocean acidification is a terrific venue for students to learn about this interdisciplinary and complex situation. However, the current model for curriculum development was not possible with a tightened budget. Thus we found ways to leverage other grants and programs. The University of WA, WA STEM Center, Sammamish High School and several partner organizations received several awards to implement Project Based Learning in Bellevue, WA. Using this opportunity, we brought our education program, including draft ocean acidification materials and a conceptual framework, to 240 9th grade Biochemistry students. Over 2 years, for 5 weeks each year, students were tasked with building curricular and kit materials needed to allow other students throughout the country to complete this module. Their teachers oversaw their individual and group projects, CL designed and managed the overall goals and outcomes, MVO, JA, AL managed the science and techniques, and EW provided assistance with correctly implementing Project Based Learning. Teaching and student draft materials shown. Goal: Students build a curriculum kit to demonstrate how rising CO2 levels directly alter ocean chemistry and may have reverberating biological and societal impacts. Student Teams: Lesson Plan Design, Experiment Groups (Chromatography, Diatom Growth, CO2 Chamber), Data Analysis and Integration, Marketing, Videography, Materials Prep, Web Design • HS teachers develop concept networks, lesson plans, teaching materials and align curriculum to standards • Complex systems can be visualized as a graph • Nodes depict parts of a system • Edges denote interactions among system parts • A complex system is more than the sum of its parts • Network architecture explains system properties such as robustness Creative Solutions for Implementation Sustained implementation of curriculum beyond a grant cycle is a large hurdle to overcome. Finding avenues for using state funding and leveraging other public and private grants has offered great success to bring non-episodic training, support, and opportunities for teachers and students. Our 2011-2013 partnership with DigiPen Institute of Technology, WA Network for Innovative Careers, and Northwest Association for Biomedical Research has allowed us to collaboratively train teachers and provide for-credit courses for WA State high school students. 3 C. Observing Beyond Our Senses: Inquiry Drives Technology Three kits developed so far… A. Ecological Networks – An Introduction to Networks B. Environmental Influence on Gene Networks Design: An Iterative Process Define the Problem Or Need Identify Criteria & Restraints Devise A Plan Research Brainstorm Solutions Weigh Tradeoffs Carry OutBest Approach Evaluate & Refine Test & Interpret Data Recommend Improvements Communicate Results AGU 2012 Fall Meeting. See www.systemsbiology.org and http://baliga.systemsbiology.net for more information. Project supported by grants from the National Science Foundation and the NIH/NIGMS Center for Systems Biology.

More Related