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1. Ethical considerations of urban ecological design and planning experiments

   https://doi.org/10.1002/ppp3.10204  

   Pataki, Diane E.; Santana, Carlos G.; Hinners, Sarah J.; Felson, Alexander J.; Engebretson, Jesse (June 2021, PLANTS, PEOPLE, PLANET)

   Societal Impact Statement It is increasingly common for plant scientists and urban planning and design professionals to collaborate on interdisciplinary teams that integrate scientific experiments into public and social urban spaces. However, neither the procedural ethics that govern scientific experimentation, nor the professional ethics of urban design and planning practice, fully account for the possible impacts of urban ecological experiments on local residents and communities. Scientists that participate in design and planning teams act as decision‐makers, and must expand their domain of ethical consideration accordingly. Conversely, practitioners who engage in ecological experiments take on the moral responsibilities inherent in generation of knowledge. To avoid potential harm to human and non‐human inhabitants of cities while maintaining scientific and professional integrity in research and practice, an integrated ethical framework is needed for urban ecological planning and design. SummaryWhile there are many ethical and procedural guidelines for scientists who wish to inform decision‐making and public policy, urban ecologists are increasingly embedded in planning and design teams to integrate scientific measurements and experiments into urban landscapes. These scientists are not just informing decision‐making – they are themselves acting as decision‐makers. As such, researchers take on additional moral obligations beyond scientific procedural ethics when designing and conducting ecological design and planning experiments. We describe the growing field of urban ecological design and planning and present a framework for expanding the ethical considerations of socioecological researchers and urban practitioners who collaborate on interdisciplinary teams. Drawing on existing ethical frameworks from a range of disciplines, we outline possible ways in which ecologists, social scientists, and practitioners should expand the traditional ethical considerations of their work to ensure that urban residents, communities, and non‐human entities are not harmed as researchers and practitioners carry out their individual obligations to clients, municipalities, and scientific practice. We present an integrated framework to aid in the development of ethical codes for research, practice, and education in integrated urban ecology, socioenvironmental sciences, and design and planning. 

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2. Social Responsibility Attitudes Among Undergraduate Computer Science Students: An Empirical Analysis

   Kreth, Quintin; Schiff, Daniel; Lee, Jeonghyun; Zegura, Ellen; Borenstein, Jason (August 2022, 2022 ASEE Annual Conference & Exposition)

   Scholars and public figures have called for improved ethics and social responsibility education in computer science degree programs in order to better address consequential technological issues in society. Indeed, rising public concern about computing technologies arguably represents an existential threat to the credibility of the computing profession itself. Despite these increasing calls, relatively little is known about the ethical development and beliefs of computer science students, especially compared to other science and engineering students. Gaps in scholarly research make it difficult to effectively design and evaluate ethics education interventions in computer science. Therefore, there is a pressing need for additional empirical study regarding the development of ethical attitudes in computer science students. Influenced by the Professional Social Responsibility Development Model, this study explores personal and professional social responsibility attitudes among undergraduate computing students. Using survey results from a sample of 982 students (including 184 computing majors) who graduated from a large engineering institution between 2017 and 2021, we compare social responsibility attitudes cross-sectionally among computer science students, engineering students, other STEM students, and non-STEM students. Study findings indicate computer science students have statistically significantly lower social responsibility attitudes than their peers in other science and engineering disciplines. In light of growing ethical concerns about the computing profession, this study provides evidence about extant challenges in computing education and buttresses calls for more effective development of social responsibility in computing students. We discuss implications for undergraduate computing programs, ethics education, and opportunities for future research. 

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3. Empowering Graduate Students to Address Ethics in Research Environments

   https://doi.org/10.1017/S096318011900046X  

   HILDT, ELISABETH; LAAS, KELLY; MILLER, CHRISTINE; TAYLOR, STEPHANIE; BREY, ERIC M. (July 2019, Cambridge Quarterly of Healthcare Ethics)

   Abstract: In this article, we present an educational intervention that embeds ethics education within research laboratories. This structure is designed to assist students in addressing ethical challenges in a more informed way, and to improve the overall ethical culture of research environments. The project seeks (a) to identify factors that students and researchers consider relevant to ethical conduct in science, technology, engineering, and math (STEM) and (b) to promote the cultivation of an ethical culture in experimental laboratories by integrating research stakeholders in a bottom-up approach to developing context-specific, ethics-based guidelines. An important assumption behind this approach is that direct involvement in the process of developing laboratory specific ethical guidelines will positively influence researchers’ understanding of ethical research and practice issues, their handling of these issues, and the promotion of an ethical culture in the respective laboratory. The active involvement may increase the sense of ownership and integration of further discussion on these important topics. Based on the project experiences, the project team seeks to develop a module involving the bottom-up building of codes-of-ethics-based guidelines that can be used by a broad range of institutions and that will be distributed widely. 

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4. Curriculum Design for a Professional Development Program to Enhance STEM Researchers’ Capacity to Identify and Address the Ethical Dimensions of Their Work

   https://doi.org/10.18260/1-2--56189  

   Clancy, Rockwell; Zhu, Qin; Lee, Lisa; Jenkins, Iris (June 2025, ASEE Conferences)

   It is emphasized in national legislation, such as the America COMPETES Act and the more recent CHIPS and Science Act, that research integrity is considered essential to the competitiveness and innovation of the U.S. economy. Various stakeholders, particularly research universities, have been developing interventions and programs to foster an ethical culture in STEM (science, technology, engineering, and mathematics) research and practice among faculty and students. Dominant approaches to research ethics education have historically been shaped by biomedical ethics and the broader ethics of science, placing significant emphasis on misconduct of individual researchers, including the falsification, fabrication, and plagiarism (FFP) of research results. Although these approaches have contributed to promoting ethical conduct among individual researchers, we argue that they still face several challenges. Most notably, due to their narrow scope, traditional research ethics education approaches fail to consider the role of disciplinary cultures in shaping research ethics issues. Additionally, they do not leverage the agency of STEM researchers to identify and address these issues or to generate scalable and sustainable impacts within institutions. To address these issues, this paper introduces the IREI (Innovative Research and Ethical Impact) project, which provides an institutional transformation approach to research ethics education for faculty in STEM fields. This approach aims to transform the institutional culture for ethical STEM research by helping faculty develop and enhance their capacity to identify and address ethical issues in their daily work, while generating scalable and sustainable impacts by leveraging their social networks. More specifically, this paper introduces the curriculum design for a professional development workshop for STEM faculty, which is a key component of the IREI project. This faculty development workshop begins by broadening the understanding of ethics, shifting the focus from aligning the conduct of individual researchers with predetermined ethical principles to the impacts of their actions on the lives of others, as well as on the broader environment and society. This expanded definition is used for two main reasons. First, it emphasizes that it is the actions themselves that ultimately affect others, rather than merely a researcher’s intent or the ethical justification of their behavior. Second, it highlights that future potential impacts are as crucial in research as present, actual impacts—if not more so—since research is intrinsically novel and often future-oriented. Based on this definition, researchers are introduced to steps in the research process, from formulating questions to disseminating results. Participants are then provided with reflective tools and hands-on activities to enhance their ethical sensitivity and expertise throughout the entire research process. This enables them to identify (1) who is affected by their research at various stages and how they are impacted, and (2) strategies to maximize positive effects while minimizing any negative consequences. Finally, faculty are provided with mentoring opportunities to incorporate these reflective insights into broader impacts statements of their own research proposals and projects. Given that these statements directly pertain to their research, we hope that participants will view this workshop as both significant and relevant, as they have a natural interest in making their statements as clear and compelling as possible. 

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5. Data Integration as Coordination: The Articulation of Data Work in an Ocean Science Collaboration

   https://doi.org/10.1145/3432955  

   Neang, Andrew B.; Sutherland, Will; Beach, Michael W.; Lee, Charlotte P. (January 2021, Proceedings of the ACM on Human-Computer Interaction)

   Recent CSCW research on the collaborative design and development of research infrastructures for the natural sciences has increasingly focused on the challenges of open data sharing. This qualitative study describes and analyzes how multidisciplinary, geographically distributed ocean scientists are integrating highly diverse data as part of an effort to develop a new research infrastructure to advance science. This paper identifies different kinds of coordination that are necessary to align processes of data collection, production, and analysis. Some of the hard work to integrate data is undertaken before data integration can even become a technical problem. After data integration becomes a technical problem, social and organizational means continue to be critical for resolving differences in assumptions, methods, practices, and priorities. This work calls attention to the diversity of coordinative, social, and organizational practices and concerns that are needed to integrate data and also how, in highly innovative work, the process of integrating data also helps to define scientific problem spaces themselves. 

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