Aligning Needs: Integrating Citizen Science Efforts into Schools Through Service Requirements.

Citizen science is an increasingly valuable tool for both scientists and educators. For researchers, citizen science is a means of more quickly investigating questions which would otherwise be time-consuming and costly to study. For educators, citizen science offers a means to engage students in actual research and improve learning outcomes. Since most citizen science projects are usually designed with research goals in mind, many lack the necessary educator materials for successful integration in a formal science education (FSE) setting. In an ideal world, researchers and educators would build the necessary materials together; however, many researchers lack the time, resources, and networks to create these materials early on in the life of a citizen science project. For resource-poor projects, we propose an intermediate entry point for recruiting from the educational setting: community service or service learning requirements (CSSLRs). Many schools require students to participate in community service or service learning activities in order to graduate. When implemented well, CSSLRs provide students with growth and development opportunities outside the classroom while contributing to the community and other worthwhile causes. However,  CSSLRs take time, resources, and effort to implement well. Just as citizen science projects need to establish relationships to transition well into formal science education, schools need to cultivate relationships with community service organizations. Students and educators at schools with CSSLRs where implementation is still a work in progress may be left with a burdensome requirement and inadequate support. With the help of a volunteer fulfilling a CSSLR, we investigated the number of students impacted by CSSLRs set at different levels of government and explored the qualifications needed for citizen science projects to fulfill CSSLRs by examining the explicitly-stated justifications for having CSSLRs, surveying how CSSLRs are verified, and using these qualifications to demonstrate how an online citizen science project, Mark2Cure, could use this information to meet the needs of students fulfilling CSSLRs.

[1]  Jinho Kim,et al.  Long-term consequences of youth volunteering: Voluntary versus involuntary service. , 2017, Social science research.

[2]  Jing Lei,et al.  Digital Divide: How Do Home Internet Access and Parental Support Affect Student Outcomes? , 2012 .

[3]  Lynn A. Bryan,et al.  The Future of Citizen Science , 2012 .

[4]  Allison B. Dymnicki,et al.  A Meta-Analysis of the Impact of Service-Learning on Students , 2011 .

[5]  Francisco Brasileiro,et al.  Cell Spotting: educational and motivational outcomes of cell biology citizen science project in the classroom , 2016 .

[6]  L. Bode Feeling the pressure: Attitudes about volunteering and their effect on civic and political behaviors. , 2017, Journal of adolescence.

[7]  I. Macgregor,et al.  Globe: Science and Education , 2003 .

[8]  R. Bonney,et al.  Thinking scientifically during participation in a citizen‐science project , 2000 .

[9]  Benjamin M. Good,et al.  Citizen Science for Mining the Biomedical Literature , 2016, bioRxiv.

[10]  Yurong He Andrea Wiggins Implementing an Environmental Citizen Science Project: Strategies and Concerns from Educators’ Perspectives , 2017 .

[11]  Jennifer A. Schmidt,et al.  Associations of Participation in Service Activities with Academic, Behavioral, and Civic Outcomes of Adolescents at Varying Risk Levels , 2012, Journal of youth and adolescence.

[12]  Luis R. Martinez,et al.  Current Approaches in Implementing Citizen Science in the Classroom , 2016, Journal of microbiology & biology education.

[13]  Rebecca Jordan,et al.  Lessons Learned from Citizen Science in the Classroom , 2012 .

[14]  S. West,et al.  Recruiting and Retaining Participants in Citizen Science: What Can Be Learned from the Volunteering Literature? , 2016 .

[15]  Involuntary volunteering: The impact of mandated service in public schools , 2013 .

[16]  Robert Atkins,et al.  Urban America as a Context for the Development of Moral Identity in Adolescence , 2010 .

[17]  J. Youniss,et al.  Two Systems of Youth Service: Determinants of Voluntary and Required Youth Community Service , 2003 .

[18]  Jessica L. Cappadonna,et al.  Citizen Science Terminology Matters: Exploring Key Terms , 2017, Citizen Science: Theory and Practice.

[19]  D. Hoare,et al.  Barriers to voluntary participation in sport for children: a systematic review , 2018, BMC Pediatrics.

[20]  Anne M. Land-Zandstra,et al.  Citizen science on a smartphone: Participants’ motivations and learning , 2016, Public understanding of science.

[21]  Robert D. Shumer Community-based learning: humanizing education , 1994 .

[22]  R. Bonney,et al.  Citizen Science: A Developing Tool for Expanding Science Knowledge and Scientific Literacy , 2009 .

[23]  Anita Greenhill,et al.  Science Learning via Participation in Online Citizen Science , 2016, ArXiv.

[24]  Andrew Furco A Conceptual Framework for the Institutionalization of Youth Service Programs in Primary and Secondary Education. , 1994 .

[25]  Haim Eshach,et al.  Bridging In-school and Out-of-school Learning: Formal, Non-Formal, and Informal Education , 2007 .

[26]  R. Bonney,et al.  Scientific knowledge and attitude change: The impact of a citizen science project , 2005 .

[27]  S. Anderson Mandatory Community Service: Citizenship Education or Involuntary Servitude? , 1999 .

[28]  N. Vangeepuram,et al.  Smartphone ownership and perspectives on health apps among a vulnerable population in East Harlem, New York. , 2018, mHealth.

[29]  Sally A. Raskoff,et al.  Community Service Programs in High Schools , 1999 .

[30]  Molly Schauffler,et al.  Participatory science and education: bringing both views into focus , 2012 .