Matching Items (5)
Description

This research paper assesses the effectiveness of a remote garden-based learning curriculum in teaching elementary students’ basic systems thinking concepts. Five remote lessons were designed, covering different garden topics, and in order to integrate systems thinking concepts, the Systems Thinking Hierarchical Model was used. This model includes eight emergent characteristics

This research paper assesses the effectiveness of a remote garden-based learning curriculum in teaching elementary students’ basic systems thinking concepts. Five remote lessons were designed, covering different garden topics, and in order to integrate systems thinking concepts, the Systems Thinking Hierarchical Model was used. This model includes eight emergent characteristics of systems thinking necessary for developing systems thinking competency. Five students were given the remote garden-based learning lessons. Student work was evaluated for systems thinking understanding and student outcomes were compared to anticipated learning outcomes. Results suggest that elementary students are able to understand basic systems thinking concepts because student work met anticipated outcomes for four systems thinking characteristics and exceeded anticipated outcomes for one characteristic. These results are significant because they further confirm that elementary-aged students do have the ability to understand systems thinking and they contribute to a growing movement to integrate sustainability education into elementary curriculum.

ContributorsDussault, Ashley (Author) / Weinberg, Andrea (Thesis director) / Schoon, Michael (Committee member) / School of Sustainability (Contributor) / Division of Teacher Preparation (Contributor) / School of Geographical Sciences and Urban Planning (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
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Description

As climate change continues to escalate natural hazards around the globe, certain communities feel the impacts of these disasters more so than others. After Hurricane Maria devastated communities in 2017, Puerto Rico struggled to respond to the needs of its citizens, particularly those in rural areas. Many of the regions

As climate change continues to escalate natural hazards around the globe, certain communities feel the impacts of these disasters more so than others. After Hurricane Maria devastated communities in 2017, Puerto Rico struggled to respond to the needs of its citizens, particularly those in rural areas. Many of the regions affected did not have resilient community structures in place to be able to withstand the systemic ripple effects of the hurricane. However, various community endeavors have developed post-Hurricane Maria to foster community collaboration and resiliency, including the development of agricultural tourism, otherwise known as agritourism. <br/>Although agritourism has begun to develop in rural regions of Puerto Rico, including the municipalities of Utuado, Ciales, Florida, and Jayuya, a systems-understanding is lacking of the current agritourism situation in the region and its related capacities, limitations, and opportunities of agritourism. To address this gap, a spatially explicit understanding and map of the underlying tourism infrastructure is needed to support the development of sustainable agritourism in Utuado, Jayuya, Ciales, and Florida municipalities in Puerto Rico. <br/>This report spatially represents the current state of tourism opportunities in the region as a result of asking “What are the spatial networks of gastronomy, accommodations, farms, and attractions that support the development of agritourism in Utuado, Jayuya, Ciales and Florida municipalities in Puerto Rico?” Three steps lead to the spatial representation starting with developing a comprehensive inventory. Second, we visualize the spatial map through Google Maps. Lastly, we explore the larger context of the report through an ArcGIS Storymap. The inventory will help with better understanding the number and variety of tourism resources available. The spatial visualization will help with understanding the distribution of resources and explore potential connections between resources and what relationships could be fostered in the future. Lastly, the ArcGIS Storymap will serve as a framework for outlining the future development of the SARE project. Overall, this report outlines the spatial maps of tourism resources and provides a tool to be used by community partners, tourists, and project partners.

ContributorsCretors, Kasey Ann (Author) / Brundiers, Katja (Thesis director) / Holladay, Patrick (Committee member) / Lazaro, Pablo Mendez (Committee member) / School of International Letters and Cultures (Contributor) / School of Sustainability (Contributor) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
Description
This course will cover the history, ethics and impact of the fair trade movement for a variety of stakeholders in the Global South and Global North. We will be participating in various activities that will acquaint us with different topics, including globalization, the gender wage gap, environmental degradation and supply

This course will cover the history, ethics and impact of the fair trade movement for a variety of stakeholders in the Global South and Global North. We will be participating in various activities that will acquaint us with different topics, including globalization, the gender wage gap, environmental degradation and supply chain management. Guest speakers from the fair trade community will contribute their perspectives regarding the movement. Students will gain an understanding of the tradeoffs of the fair trade movement for the different actors throughout the length of the supply chain. Students will describe the purpose of the fair trade movement and who it seeks to serve. Students will explain what the Fair Trade certification entails for the actors who engage in the system. Students will debate the tradeoffs of the fair trade movement, incorporating the perspectives of multiple stakeholders from both the Global South and Global North. Finally, students will evaluate Fair Trade as a tool for sustainability both socially and economically.
ContributorsSimari, Daniella Jayne (Author) / Eakin, Hallie (Thesis director) / Walters, Molina (Committee member) / School of Life Sciences (Contributor) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
As an aspiring educator pursuing a degree in education, hours have been spent observing, visiting, and working in classrooms of elementary schools. In this time, it has become apparent that social studies and science are not a priority within classrooms or even schools as a whole. This dilemma caused extreme

As an aspiring educator pursuing a degree in education, hours have been spent observing, visiting, and working in classrooms of elementary schools. In this time, it has become apparent that social studies and science are not a priority within classrooms or even schools as a whole. This dilemma caused extreme disconnect, amongst students, throughout the common and crucial science and social studies standards that should be taught and implemented daily by law. These content experiences, especially in science, expose students to skill sets and themes that are highly desired throughout higher education, the career world, and for the well-being and longevity of planet Earth.
As a solution to this problem, I created an after school program to provide staff and myself additional time to implement such curriculum and expand the depth of knowledge that students are exposed to. This positive additional time to the educational day, was able to come to life through a grant that I wrote and received to transport students from their elementary school to a local greenhouse. At the greenhouse, I was able to create a series of lessons focused on the resources needed for gardens and plant production. Through these lessons, I utilized inquiry based lesson plans to provide me with a template that was unique from typical lessons taught at school. Through these hands on experiences in our club, students were able to work at their own pace and learn about resources, soil, water, pollinators, and parts of a flower.
ContributorsRafidi, Kaitlynn (Author) / Merritt, Eileen (Thesis director) / Walters, Molina (Committee member) / Division of Teacher Preparation (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
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Description
Teamwork and project management (TPM) tools are important components of sustainability science curricula designed using problem- and project-base learning (PPBL). Tools are additional materials, beyond lectures, readings, and assignments, that structure and facilitate students' learning; they can enhance student teams' ability to complete projects and achieve learning outcomes and, if

Teamwork and project management (TPM) tools are important components of sustainability science curricula designed using problem- and project-base learning (PPBL). Tools are additional materials, beyond lectures, readings, and assignments, that structure and facilitate students' learning; they can enhance student teams' ability to complete projects and achieve learning outcomes and, if instructors can find appropriate existing tools, can reduce time needed for class design and preparation. This research uses a case study approach to evaluate the effectiveness of five TPM tools in two Arizona State University (ASU) sustainability classes: an introductory (100-level) and a capstone (400-level) class. Data was collected from student evaluations and instructor observations in both classes during Spring 2013 and qualitatively analyzed to identify patterns in tool use and effectiveness. Results suggest how instructors might improve tool effectiveness in other sustainability classes. Work plans and meeting agendas were the most effective TPM tools in the 100-level class, while work plans and codes of collaboration were most effective at the 400 level. Common factors in tool effectiveness include active use and integration of tools into class activities. Suggestions for improving tool effectiveness at both levels include introducing tools earlier in the course, incorporating tools into activities, and helping students link a tool's value to sustainability problem-solving competence. Polling students on prior use and incorporating tool use into project assignments may increase 100 level tool effectiveness; and at the 400 level, improvements may be achieved by introducing tools earlier and coaching students to select, find, and develop relevant tools.
ContributorsTrippel, Dorothy (Author) / Redman, Charles L. (Thesis advisor) / Pijawka, K. David (Committee member) / Walters, Molina (Committee member) / Arizona State University (Publisher)
Created2013