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1. Local climate change velocities and evolutionary history explain multidirectional range shifts in a North American butterfly assemblage

   https://doi.org/10.1111/1365-2656.14132  

   da_Silva, Carmen_R_B; Diamond, Sarah_E (June 2024, Journal of Animal Ecology)

   Abstract Species are often expected to shift their distributions either poleward or upslope to evade warming climates and colonise new suitable climatic niches. However, from 18‐years of fixed transect monitoring data on 88 species of butterfly in the midwestern United States, we show that butterflies are shifting their centroids in all directions, except towards regions that are warming the fastest (southeast).Butterflies shifted their centroids at a mean rate of 4.87 km year⁻¹. The rate of centroid shift was significantly associated with local climate change velocity (temperature by precipitation interaction), but not with mean climate change velocity throughout the species' ranges.Species tended to shift their centroids at a faster rate towards regions that are warming at slower velocities but increasing in precipitation velocity.Surprisingly, species' thermal niche breadth (range of climates butterflies experience throughout their distribution) and wingspan (often used as metric for dispersal capability) were not correlated with the rate at which species shifted their ranges.We observed high phylogenetic signal in the direction species shifted their centroids. However, we found no phylogenetic signal in the rate species shifted their centroids, suggesting less conserved processes determine the rate of range shift than the direction species shift their ranges.This research shows important signatures of multidirectional range shifts (latitudinal and longitudinal) and uniquely shows that local climate change velocities are more important in driving range shifts than the mean climate change velocity throughout a species' entire range. 

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2. Professorial intentions of engineering PhDs from historically excluded groups: The influence of graduate school experiences

   https://doi.org/10.1002/jee.20607  

   Fleming, Gabriella_Coloyan; Cobb, Sydni_Alexa; Borrego, Maura (July 2024, Journal of Engineering Education)

   Abstract BackgroundIn addition to the benefits of a diverse faculty, many institutions are under pressure from students and administrators to increase the number of faculty from historically excluded backgrounds. Despite increases in the numbers of engineering PhD earners from these groups, the percentages of Black/African American and Hispanic/Latino tenure‐track faculty have not increased, and the percentage of women remains low. PurposeThe purpose of this study is to identify how experiences in graduate school encourage or deter PhD earners from historically excluded groups in pursuing an engineering academic career. MethodWe conducted 20 semi‐structured interviews with engineering PhD students and recent graduates, with half of participants interested and half disinterested in pursuing an academic career after graduation. ResultsThree key factors emerged as strongly influential on participants' desire to pursue an academic career: their relationship with their advisor, their perception of their advisor's work–life balance, and their perception of the culture of academia. Participants extrapolated their experiences in graduate school to their imagined lives as faculty. The results illuminate the reasons why engineering PhD earners from historically underrepresented groups remain in or leave the academic career pathway after graduate school. ConclusionsThe findings of this study have important implications for how graduate students' and postdoc's relationships with their advisors as well as perceptions of their advisors' work–life balances and the culture of academia affect future faculty. We make recommendations on what students, faculty, and administrators can do to create a more inclusive environment to encourage students from historically excluded groups to consider academic careers. 

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3. Comprehending multiple identities as minoritized students in engineering: How can diverse developmental networks grow meaning‐making capacity?

   https://doi.org/10.1002/jee.70008  

   Ghosh, Rajashi; Montgomery, Alene (July 2025, Journal of Engineering Education)

   Abstract BackgroundMentoring is an important developmental relationship that can positively impact student growth, specifically, students' capacity to make sense of their own selves through addressing any possible incongruence between their social identities and emerging professional identity as engineers. This need is even more pronounced for students who have one or more identities that are minoritized in the field of engineering. PurposeAlthough prior literature has reported mentoring to have contributed to students' professional identity development as engineers, we lack an understanding of how multiple developers in students' developmental networks can offer complementary support. To address this gap, we sought to understand how diverse developers in students' networks enabled them to filter stereotypes that make their minoritized social identities incongruent with their evolving engineering identity. Design/MethodsWe used an idiographic case study methodology and paired interpretative phenomenological analysis (IPA) with intersectionality to analyze data from 10 undergraduate minoritized engineering students. ResultsWe offer three cases in this paper to illustrate minoritized students experiences at the intersections of their identities and how different developers offered three types of holding behaviors (e.g., empathic acknowledgment/confirmation, enabling perspective/contradiction, containment/continuity) that enabled the student mentees to grow their meaning‐making capacity (from formulaic to foundational) so that they could align their social identities with their emerging professional identity as engineers. ConclusionWe conclude the paper with a discussion of both research and practice implications about utilizing diverse developmental networks for growing students' meaning‐making capacities needed for them to better comprehend their multiple identities. 

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4. From Ln ₂ O ₂ S to Ln ₁₀ OS ₁₄ : exploring the sulphur spectrum of trivalent lanthanoid oxysulphides

   https://doi.org/10.1039/D4DT00294F  

   Wuille_Bille, Brian A; Velázquez, Jesús M (April 2024, Dalton Transactions)

   Lanthanoid oxysulphides exhibit great versatility in their chemical compositions which allow for their optoelectronic properties to be tuned by the relative amounts of oxygen and sulphur present in their crystal structures. 

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5. Give and gain: Black engineering students as near‐peer mentors

   https://doi.org/10.1002/jee.20520  

   Taylor, Jr., Leonard; Mastrogiovanni, Margaret; Lakin, Joni M.; Davis, Virginia (April 2023, Journal of Engineering Education)

   Abstract BackgroundEngineering‐oriented bridge programs and camps are popular strategies for broadening participation. The students who often serve as counselors and mentors in these programs are integral to their success. PurposePredicated on the belief that mentoring contributes to positive outcomes for the mentors themselves, we sought to understand how undergraduate student mentors approached and experienced their work with a 6‐day overnight, NSF‐sponsored youth engineering camp (YEC). This study was guided by the question: How did YEC camp counselors approach and experience their roles as mentors? Design/MethodsWe conducted an exploratory qualitative study of four Black undergraduate engineering students' experiences with and approaches to near‐peer mentorship in the YEC program. Data consisted of transcripts from two post‐program interviews and one written reflection from each participant. We analyzed data through abductive coding and the funds of knowledge framework. ResultsThrough subsequent interpretation of code categories, we found YEC mentors: (1) engaged in altruistic motivations as YEC mentors, (2) leveraged previous experiences to guide their approaches to mentorship, and (3) engaged in self‐directed learning and development. ConclusionsThis study highlights the knowledge and strategies that YEC mentors drew upon in their roles, and how they sought and achieved various personal, academic, and professional benefits. Insights from this study illustrate how near‐peer mentors can support their and others' engineering aspirations. 

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