2016
DOI: 10.1007/s10956-016-9678-5
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Growing Plants and Scientists: Fostering Positive Attitudes toward Science among All Participants in an Afterschool Hydroponics Program

Abstract: This study examines an out-of-school time program targeting elementary-aged youth from populations that are typically underrepresented in science fields (primarily African-American, Hispanic, and/or English Language Learner participants). The program aimed to foster positive attitudes toward science among youth by engaging them in growing plants hydroponically (in water without soil). Participants' attitudes toward science, including anxiety, desire, and self-concept, were examined through pre-post survey data… Show more

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Cited by 9 publications
(10 citation statements)
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References 48 publications
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“…We briefly describe one garden-lantern prototype created by the first author in order to illustrate the kind of learning experience we thought was possible for teachers and their students. After researching various hydroponic options, we created an ebb and flow (Patchen, Zhang, & Barnett, 2017) hydroponic garden (Figure 3) as a testbed for investigative questions like how different plants grow, taste, and change at a cellular level under different light, water, or nutrient conditions. We programmed sensors to capture fine-grained environmental conditions (e.g., humidity, temperature, water level, light, carbon dioxide), collected physical data, and created a timelapse video of the garden's life by showing growth, infection (by mold), death, and then desiccation.…”
Section: Materials and Toolsmentioning
confidence: 99%
“…We briefly describe one garden-lantern prototype created by the first author in order to illustrate the kind of learning experience we thought was possible for teachers and their students. After researching various hydroponic options, we created an ebb and flow (Patchen, Zhang, & Barnett, 2017) hydroponic garden (Figure 3) as a testbed for investigative questions like how different plants grow, taste, and change at a cellular level under different light, water, or nutrient conditions. We programmed sensors to capture fine-grained environmental conditions (e.g., humidity, temperature, water level, light, carbon dioxide), collected physical data, and created a timelapse video of the garden's life by showing growth, infection (by mold), death, and then desiccation.…”
Section: Materials and Toolsmentioning
confidence: 99%
“…In the field of science education, there is limited research on ways in which indoor agriculture can support science learning in informal and formal contexts. Patchen et al (2017) designed an afterschool hydroponics program for elementary-aged, marginalized youth and found that participation reduced students' anxiety about science, increased their desire to do science, and fostered improved self-conception in science. They assert that hydroponics specifically brings technology and engineering into relation with science, effectively creating an integrated STEM educational experience (Patchen et al, 2017).…”
Section: Indoor Agriculture and Educationmentioning
confidence: 99%
“…For example, the group asked questions in trying to solve authentic problems as they arose in the Pod. Harnessing the engineering aspects of indoor agriculture (Patchen et al, 2017), students defined problems, such as how to grow plants in a confined space and how to set up projects in hydroponics and companion planting. They informally used models in designing the layout of the pod and in experiments to maximize growing potential in a small space.…”
Section: Science Learning Through Growing Plants Indoorsmentioning
confidence: 99%
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“…Historically, DBIR has been used to refine educational programs implemented in traditional school settings. At the time of this writing, the authors could identify only two studies to date that have used DBIR to make enhancements to informal learning programs (Patchen et al, 2017;Subramaniam et al, 2021).…”
Section: Introductionmentioning
confidence: 99%