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Does school participatory budgeting (SPB) increase students’ political efficacy? SPB, which is implemented in thousands of schools around the world, is a democratic process of deliberation and decision-making in which students determine how to spend a portion of the school’s budget. We examined the impact of SPB on political efficacy in one middle school in Arizona. Our participants’ (n = 28) responses on survey items designed to measure self-perceived growth in political efficacy indicated a large effect size (Cohen’s d = 1.46), suggesting that SPB is an effective approach to civic pedagogy, with promising prospects for developing students’ political efficacy.
School participatory budgeting has the potential, at least, to offer students an opportunity to experience deliberative democratic decision-making and thus enhance those capabilities critical for effective citizenship. More ambitiously, school participatory budgeting presents an opportunity to delicately and steadily transform school governance to give real decision-making power to students.
The four stand-alone articles that make up this dissertation are four facets of a single case study on the first large-scale instance of school participatory budgeting in the United States. They began with the question: What were the accomplishments and challenges of school participatory budgeting in a large secondary school district in the Southwestern United States in its initial implementation?
This question was interpreted and answered differently in each article. The first article examines aspects of process design and how participatory budgeting might contribute not only to citizenship learning but also the expansion of student voice. The experiences of students, in the second article, and those of teachers and administrators, in the third article, are explored through analysis of interview data. The final article addresses this question by drawing on my own experience of implementing school participatory budgeting using analytic autoethnography. This dissertation presents school participatory budgeting from multiple perspectives and recommends more empirical research on the structure of the process before, during, and after implementation.
This dissertation examines this approach to citizenship learning dynamically by using various methodologies and bringing together the literature on student voice, citizenship learning, participatory budgeting, and curriculum studies in order to enrich the discussions and provide actionable knowledge for advocates and practitioners.
These videos depict two miscible liquids with different densities and viscosities coming into contact. This study explores how a swellable test pad can be deployed for measuring urea in saliva by partially prefilling the pad with a miscible solution of greater viscosity and density. The resultant Korteweg stresses and viscous fingering patterns are analyzed using solutions with added food color through video analysis and image processing. Image analysis is simplified using the saturation channel after converting RGB image sequences to HSB. These videos are conjunction to an article submission to MDPI Bioengineering journal as supplementary files to enhance the breadth and depth of the content therein.
Agassiz’s desert tortoise (Gopherus agassizii) is a long-lived species native to the Mojave Desert and is listed as threatened under the US Endangered Species Act. To aid conservation efforts for preserving the genetic diversity of this species, we generated a whole genome reference sequence with an annotation based on deep transcriptome sequences of adult skeletal muscle, lung, brain, and blood. The draft genome assembly for G. agassizii has a scaffold N50 length of 252 kbp and a total length of 2.4 Gbp. Genome annotation reveals 20,172 protein-coding genes in the G. agassizii assembly, and that gene structure is more similar to chicken than other turtles. We provide a series of comparative analyses demonstrating (1) that turtles are among the slowest-evolving genome-enabled reptiles, (2) amino acid changes in genes controlling desert tortoise traits such as shell development, longevity and osmoregulation, and (3) fixed variants across the Gopherus species complex in genes related to desert adaptations, including circadian rhythm and innate immune response. This G. agassizii genome reference and annotation is the first such resource for any tortoise, and will serve as a foundation for future analysis of the genetic basis of adaptations to the desert environment, allow for investigation into genomic factors affecting tortoise health, disease and longevity, and serve as a valuable resource for additional studies in this species complex.
Data Availability: All genomic and transcriptomic sequence files are available from the NIH-NCBI BioProject database (accession numbers PRJNA352725, PRJNA352726, and PRJNA281763). All genome assembly, transcriptome assembly, predicted protein, transcript, genome annotation, repeatmasker, phylogenetic trees, .vcf and GO enrichment files are available on Harvard Dataverse (doi:10.7910/DVN/EH2S9K).