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1. How to close the loop with citizen scientists to advance meaningful science

   https://doi.org/10.1007/s11625-024-01532-3  

   Hall, Damon_M; Avellaneda-Lopez, Pedro_M; Ficklin, Darren_L; Knouft, Jason_H; Lowry, Christopher (August 2024, Sustainability Science)

   Abstract Citizen science yields increased scientific capacity in exchange for science literacy and promises of a more responsive science to society’s needs. Yet, citizen science projects are criticized for producing few scientific outputs and having exploitative relationships with the citizens who participate. In the eagerness to capture new data, scientists can fail to see the value of citizen scientists’ expertise beyond data generation and can forget to close the loop with outputs that benefit the public interest. Citizen scientists are experts in their local environments who, when asked, can improve scientific processes and products. To the degree that citizen scientists are relegated to data collection, we shortchange opportunities to advance science. Rather than merely critique, we present an evidence-based engagement approach for listening to citizen scientist participants and incorporating their input into science processes and products that can be retrofitted onto existing citizen science projects or integrated from a project’s inception. We offer this adaptable blueprint in four steps and illustrate this approach via a crowdsourced hydrology project on the Boyne River, USA. We show how engaging voices of citizen scientists at key points in the project improves both the products of science (a real-time ecohydrological model) and the process of conducting the science (adaptations to help improve data collection). Distinct from outreach or education, considering citizen scientists as an equally interesting site of inquiry can improve the practice and outputs of science. 

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2. Embracing inclusivity: the case against the term 'citizen science'

   https://doi.org/10.3897/rio.10.e137412  

   Christian, Christine; Gwilliam_III, Gilbert; von_Konrat, Matt; Ahn, June; Bailey, Colleen; Dodinval, Daniel; Ellwood, Elizabeth R; Golembiewski, Kate; Higgins, Lila; Jones, Camille; et al (December 2024, Research Ideas and Outcomes)

   Participatory science and amateur participation in scientific data collection and work has been common for hundreds of years, but has become a more formalised field of practice in recent decades. The inclusion and reliance on informally trained members of the public in scientific endeavours has especially helped connect natural history collections to the general public. In recent decades, the term used to describe these participants — citizen scientists — was intended to unite formal and informal scientists as global citizens working towards a common goal. However, the term 'citizen' today has negative connotations for many members of the public and can have a polarising effect on certain individuals. Given that the nature of participatory science is to be inclusive and inviting, it is time to change this terminology. The term 'community' science has been suggested as an alternative by some practitioners and programmes. This self-awareness within the scientific community is important, but lacks impact without input from the community members potentially participating in these programmes. We addressed this knowledge gap by posing the question of term preference to groups of volunteers who have attended participatory science activities from the Field Museum of Natural History (Chicago, Illinois, USA) and the Natural History Museum of Los Angeles County (Los Angeles, California, USA) from 2019 to 2023. A majority of respondents showed a clear preference for the term 'community' over 'citizen' science. This was especially true for younger individuals and those who belong to ethnic groups other than White. This information can impact which terms are used for specific programme populations and supports community involvement in selecting terminology and in project design. We advise stopping use of the term 'citizen' in all participatory science programmes and adopting terminology that is most appropriate depending on region, research, audience and activity. Moreover, participant populations should be solicited to hear their voices. 

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3. The Critical Importance of Citizen Science Data

   https://doi.org/10.3389/fclim.2021.650760  

   de Sherbinin, Alex; Bowser, Anne; Chuang, Tyng-Ruey; Cooper, Caren; Danielsen, Finn; Edmunds, Rorie; Elias, Peter; Faustman, Elaine; Hultquist, Carolynne; Mondardini, Rosy; et al (March 2021, Frontiers in Climate)

   null (Ed.)

   Citizen science is an important vehicle for democratizing science and promoting the goal of universal and equitable access to scientific data and information. Data generated by citizen science groups have become an increasingly important source for scientists, applied users and those pursuing the 2030 Agenda for Sustainable Development. Citizen science data are used extensively in studies of biodiversity and pollution; crowdsourced data are being used by UN operational agencies for humanitarian activities; and citizen scientists are providing data relevant to monitoring the sustainable development goals (SDGs). This article provides an International Science Council (ISC) perspective on citizen science data generating activities in support of the 2030 Agenda and on needed improvements to the citizen science community's data stewardship practices for the benefit of science and society by presenting results of research undertaken by an ISC-sponsored Task Group. 

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4. Citizen science across ages, cultures, and learning environments in Alaska

   Spellman, K.V.; Shaw, J.D.; Villano, C.P.; Mulder, C.P.H.; Sparrow, E.B.; Cost, D. (May 2019, Rural connections)

   Building community with rural and underrepresented groups has been a challenge in the field of citizen science. At the University of Alaska Fairbanks, a team of scientists, educators, Extension professionals, and evaluators have joined efforts to take on this challenge across Alaska. The goals for Arctic Harvest-Public Participation in Scientific Research are to: 1) investigate how shifts in environmental conditions affect the fate of subsistence berries and timing of berry loss from plants in fall and winter across Alaska; and 2) improve the participation in and effectiveness of citizen science across diverse audiences, particularly at high latitudes where a high proportion of communities have populations underrepresented in STEM. We present the assets that collaboration across a land grant university brought to the table, and the Winterberry Citizen Science program design elements we have developed to engage our 1080+ volunteer berry citizen scientists ages three through elder across urban and rural, Indigenous and non-Indigenous, and formal and informal learning settings. Our interdisciplinary team developed and implemented a program that provides in-person or online support for berry monitoring and data collection, and accommodates different age levels and settings. We also developed and tested an innovative program model that weaves storytelling throughout the citizen science learning cycle, from berries stories from the larger community, to stories of the citizen science process, to stories developed from berry data being collected and applied to future scenarios in a changing climate. The variety of program modifications we created have been highly effective helping reach a variety of settings and age levels. In both informal and formal learning environments in our first two years of the program we have had 568 pre-K and elementary-aged (age 3-12), 424 secondary-aged (age 12-18) youth participants and 107 adults (ages 18+), with 44% of participants coming from groups underrepresented in STEM, and 100% of groups completing berry monitoring throughout the fall. These results highlight the importance of designing the citizen science program with cultural relevance, program delivery options, and relationships between participants and scientists, while remaining committed to making a substantial scientific contribution. 

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5. K. Le, T. Butterfield, K.E. Kelly, Citizen scientist engagement in air quality monitoring, Proc. ASEE Annual Meeting, June 23 – 27, Salt Lake City, UT.

   Le, K.; Butterfield, T.; Kelly, K.E. (July 2018, Review & directory - American Society for Engineering Education)

   Citizen scientist efforts, wherein members of the public who are not professional scientists participate in active research, have been shown to effectively engage the public in STEM fields and result in valuable data, essential to answering pressing research questions. However, most citizen scientist efforts have been centered in colleges of science, and a limited number have crossed into research areas important to chemical engineering fields. In this work we report on the results of a project to recruit high school and middle school students across Utah’s Salt Lake Valley as citizen scientists and potential engineering students who work in partnership with chemical engineering researchers in an effort to create a distributed online network of air quality sensors. Middle and high school students were trained by undergraduate mentors to monitor and maintain their own outdoor air quality sensor with the help of teaching materials that were co-developed with Breathe Utah, a local community group concerned with air quality. With the help of these tailored teaching modules, students learned about the science behind air quality research and the difficulties common to physical measurements to better prepare them to analyze their data. Once trained, students are expected to become semi-independent researchers in charge of monitoring and maintaining their piece of a larger air quality map. We describe in this work the hurdles inherent in citizen science engagement within a chemical engineering research program and the means to address them. We describe successful means of engaging classrooms, training citizen scientists, obtaining faculty buy-in within the confines of state curricular demands, and addressing school administration concerns. With this model, we have directly engaged over 1,000 high school and over 3,000 middle school students. The project has resulted in a growing network of citizen-maintained sensors that contributes to a real-time air quality map. Student scientists may also use the sensors to participate in active research or conduct science fair projects. Student response to this citizen scientist project, where it may be measured, has been enthusiastic and almost wholly positive. 

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