An official website of the United States government
Given the existential threat of climate change, we urge the heliophysics scientific community to consider ways in which we might further contribute to global efforts to address climate change. Whole atmosphere studies reveal that climate change processes impact even the uppermost regions of the atmosphere. The heliophysics research community now has models spanning the surface through the upper thermosphere and a diversity of observational datasets of the middle and upper atmosphere that span multiple decades. These studies indicate that the middle and upper atmosphere provide multiple vertical footprints for climate change and thus can contribute to an understanding of whole atmosphere climate change processes in the complex atmosphereland- ocean system. This white paper outlines recommendations for expansion of long-term data sets; simulations of climate with whole atmosphere models; engagement in collaborations with the tropospheric research community; and exploration of the possibility of heliophysics contributions to climate assessment efforts. Additionally, we recommend education and outreach efforts to help members of the wider community become more knowledgeable about climate change; support for efforts to increase the diversity of the heliophysics science community; support for international collaborations, and climate mitigation measures that our science community can implement to reduce greenhouse gas emissions from our research, education, and outreach activities.
more »
« less
The importance of recruitment and retention in Heliophysics: it’s not just a pipeline problem
A major obstacle in cultivating a robust Heliophysics (and broader scientific) community is the lack of diversity throughout science, technology, engineering, and mathematics (STEM) fields. For many years, this has been understood as a “leaky pipeline” analogy, in which predominately minority students initially interested in STEM gradually fall (or are pushed) out of the field on their way to a scientific research position. However, this ignores critical structural and policy issues which drive even later career Ph.D.s out of a career in Heliophysics. We identify here several systemic problems that inhibit many from participating fully in the Heliophysics community, including soft money pressure, lack of accessibility and equity, power imbalances, lack of accountability, friction in collaboration, and difficulties in forming mentorship bonds. We present several recommendations to empower research-supporting organizations to help create a culture of inclusion, openness, and innovative science.
more »
« less
- Award ID(s):
- 1663770
- PAR ID:
- 10480364
- Publisher / Repository:
- Frontiers
- Date Published:
- Journal Name:
- Frontiers in Astronomy and Space Sciences
- Volume:
- 10
- ISSN:
- 2296-987X
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
More Like this
-
-
While many institutions are focusing on increasing STEM belonging for students, we argue that supporting faculty will increase STEM belonging and build social capital, which is vital for career growth and collaboration, creating stability for student success. Faculty at small and large institutions may struggle to find a community of STEM professionals where they feel they belong. Faculty members may struggle with the lack of connections to others in their field and miss out on support that helps them succeed in their careers. When faculty lack support, they may even leave an institution because of failure to get promotion or tenure. This in turn causes problems for students relying on the faculty for guidance and identity. We contend that the improvement science initiatives and other activities of the First2 Network, an NSF funded project, build connections in the STEM community in WV, help STEM students persist in their given field and build STEM belonging and social capital for the faculty members involved. Thus, providing a more stable environment for students to flourish. We surveyed faculty and found that the First2 Network had a positive influence on faculty members’ STEM Belonging, and on their development of social capital to further their academic careers. The faculty also provided examples of how their participation in improvement science work has contributed to their professional growth and benefited students at their institution.more » « less
-
Objective/Research Question: This research explores how community college students, who are underrepresented in science, technology, engineering, and mathematics (STEM) fields and aspire to vertical transfer in STEM make choices about majors and transfer destinations. The question is important to advancing equity in STEM, which continues to perpetuate disparities in attainment for minoritized, first-generation, and financially disadvantaged students, who disproportionately enter higher education in community colleges. Methods: Using a longitudinal, qualitative research design, the study relied on semi-structured interviewing to generate in-depth evidence about student experiences. Results: Findings showed that career goals were uniformly influential to students, yet career information was unevenly available or comprehensible during community college. Students’ choices about what to major in and where to transfer were iterative and intertwined, with these choices deeply connected to students’ families and lifetime priorities. Delays in student decision-making tended to have less to do with uncertain individual preferences than to lack of information about a specific STEM major and its alignment with possible future degrees, transfer destinations, and career pathways, as well as contingencies associated with the transfer admission process. Conclusions/Contributions: This research demonstrated STEM-specific nuance in how underrepresented community college students navigate major, career, and transfer destination decision-making as well as the influence of family and location-based priorities in student choices. Future research should investigate how to best provide directional support for students’ major and transfer destination decisions, including major-to-career awareness and the academic and personal dimensions of transfer.more » « less
-
In a 1‐credit evolving STEM Community and Identity course, low‐income and neurodivergent students participate in cohort activities to build community and develop their professional STEM portfolios. The strengths‐based Birkman Method personality survey is used to enhance STEM identity and clarify communication and work styles. This course involves collaboration between STEM faculty, education faculty, and career counselors. Many neurodivergent students entering college lack confidence and struggle to identify and communicate their strengths, which can affect their academic performance and professional growth. This study documents the benefits of using a common language, based on the Birkman Method, for students, mentors, and career counselors. The language is integrated into the course, mentoring sessions, and students' professional portfolios. As a result, students feel a stronger sense of belonging within their cohort and build more meaningful connections with mentors and career counselors. The Birkman Method also helps neurodivergent students take a more informed approach to job searching, improving their morale, mental health, and employment retention. This paper outlines activities designed to foster a community of scientific thinkers and support professional development at all academic levels of postsecondary education.more » « less
-
Abstract STEM technician and technologist careers can be accessible options for students; however, the historical devaluing of technical careers combined with a lack of awareness and familiarity with the specific options within this career cluster have resulted in a shortage of trained and prepared professionals. Grounded in social cognitive career theory, this survey study explores college students' knowledge of technical STEM careers, their high school career exploration experiences, and the relationship between science interest, career decision‐making, and technical career knowledge. Results from this survey indicate there is little to no familiarity with the majority of the STEM technician and technologist careers presented. However, results also show students are engaging in career exploration, and many are using more than one resource for exploration in their high school years. Implications for school counselors, teachers, family members, and community members are presented to specifically address the noted concerns.more » « less
- Free Publicly Accessible Full Text
-
Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.3389/fspas.2023.1216449
