Both individual sex and population sex ratio can affect lifetime reproductive success. As a result, multiple mechanisms have evolved to regulate sexual phenotype, including adult sex change in fishes. While adult sex change is typically socially regulated, few studies focus on the non‐chromosomal mechanisms regulating primary sex allocation. We investigated primary sex determination in the bluebanded goby (
Despite their evolutionary and biomedical importance, studies of the morphology and function of female genitalia have continued to lag behind those of male genitalia. While studying female genitalia can be difficult because of their soft, deformable and internal nature, recent advances in imaging, geometric analyses of shape and mechanical testing have been made, allowing for a much greater understanding of the incredible diversity of form and function of female genitalia. Here, we summarize some of these methods, as well as discuss some big questions in the field that are beginning to be examined now, and will continue to benefit from further work, especially a comparative approach. Topics of further research include examination of the morphology of female genitalia in situ, in-depth anatomical work in many more species, studies of the interplay between natural and sexual selection in influencing features of vaginal morphology, how these diverse functions influence the mechanical properties of tissues, and studies of clitoris morphology and function across amniotes. Many other research topics related to female genitalia remain largely unexplored, and we hope that the papers in this issue will continue to inspire further research on female genitalia.
more » « less- Award ID(s):
- 2042260
- NSF-PAR ID:
- 10371812
- Publisher / Repository:
- Oxford University Press
- Date Published:
- Journal Name:
- Integrative And Comparative Biology
- Volume:
- 62
- Issue:
- 3
- ISSN:
- 1540-7063
- Page Range / eLocation ID:
- p. 521-532
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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SUMMARY Lythrypnus dalli ), a bidirectionally sex‐changing fish. Of the studies investigating primary sex determination in species with adult sex change, this is the first to incorporate the roles of social status and size, key factors for determining adult sex allocation. ForL. dalli , adult sex is regulated by social status: dominants are male; subordinates are female. In social groups of laboratory‐reared juveniles, we demonstrate that status also predicts primary sex. Dominant juveniles developed male‐typical genitalia, and their gonads contained significantly less ovarian tissue than subordinates, which developed female‐typical genitalia. To better understand natural development, we quantified the distribution of juveniles and adults on the reef and analyzed genital papilla and gonad morphology in a sample of wild‐caught juveniles. Juveniles were observed in various social environments, and most grouped with other juveniles and/or adults. The majority of field‐caught juveniles had female‐typical genitalia and bisexual, female‐biased gonads. These data are consistent with a single mechanism that regulates sexual phenotype throughout life. Social status could first cause and then maintain through adulthood a female‐biased population, allowing individuals to regulate sex based on local conditions, which is important for optimizing lifetime reproductive success. -
Despite increased calls for the need for more diverse engineers and significant efforts to “move the needle,” the composition of students, especially women, earning bachelor’s degrees in engineering has not significantly changed over the past three decades. Prior research by Klotz and colleagues (2014) showed that sustainability as a topic in engineering education is a potentially positive way to increase women’s interest in STEM at the transition from high school to college. Additionally, sustainability has increasingly become a more prevalent topic in engineering as the need for global solutions that address the environmental, social, and economic aspects of sustainability have become more pressing. However, few studies have examined students’ sustainability related career for upper-level engineering students. This time point is a critical one as students are transitioning from college to industry or other careers where they may be positioned to solve some of these pressing problems. In this work, we answer the question, “What differences exist between men and women’s attitudes about sustainability in upper-level engineering courses?” in order to better understand how sustainability topics may promote women’s interest in and desire to address these needs in their future careers. We used pilot data from the CLIMATE survey given to 228 junior and senior civil, environmental, and mechanical engineering students at a large East Coast research institution. This survey included questions about students’ career goals, college experiences, beliefs about engineering, and demographic information. The students surveyed included 62 third-year students, 96 fourth-year students, 29 fifth-year students, and one sixth-year student. In order to compare our results of upper-level students’ attitudes about sustainability, we asked the same questions as the previous study focused on first-year engineering students, “Which of these topics, if any, do you hope to directly address in your career?” The list of topics included energy (supply or demand), climate change, environmental degradation, water supply, terrorism and war, opportunities for future generations, food availability, disease, poverty and distribution of resources, and opportunities for women and/or minorities. As the answer to this question was binary, either “Yes,” or “No,” Pearson’s Chi-squared test with Yates’ continuity correction was performed on each topic for this question, comparing men and women’s answers. We found that women are significantly more likely to want to address water supply, food availability, and opportunities for woman and/or minorities in their careers than their male peers. Conversely, men were significantly more likely to want to address energy and terrorism and war in their careers than their female peers. Our results begin to help us understand the particular differences that men and women, even far along in their undergraduate engineering careers, may have in their desire to address certain sustainability outcomes in their careers. This work begins to let us understand certain topics and pathways that may support women in engineering as well as provides comparisons to prior work on early career undergraduate students. Our future work will include looking at particular student experiences in and out of the classroom to understand how these sustainability outcome expectations develop.more » « less
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Earth system models (ESMs) are the primary tool used to understand and project changes to the climate system. ESM projections underpin analyses of human dimensions of the climate issue, yet little is known about how ESMs are used in human dimensions research. Such foundational information is necessary for future critical assessments of ESMs. We review applications of a leading ESM, the National Center for Atmospheric Research (NCAR) Community Earth System Model (CESM), to human dimensions topics since 2004. We find that this research has grown substantially over this period, twice as fast as CESM research overall. Although many studies have primarily addressed long‐term impacts on physical systems with societal relevance, applications to managed, societal, and ecological systems have grown quickly and now make up more than half of CESM human dimensions work. CESM applications focused nearly equally on global and regional analyses, most often using multimodel ensembles, although the use of single simulations remains prevalent. Downscaling and bias correction of output was infrequent and most common for regional studies. U.S.‐based, university‐affiliated authors primarily drove human dimensions work using CESM, with only 12% of authors based at NCAR. Our findings identify important questions that warrant further investigation, such as reasons for the infrequent use of downscaling and bias correction techniques; motivations to continue to use older model versions after newer model versions have been released; and model development needs for improved human dimensions applications. Additionally, our synthesis provides a baseline and framework that enables continued tracking of CESM and other ESMs.
This article is categorized under:
Assessing Impacts of Climate Change > Evaluating Future Impacts of Climate Change
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Many animal species, including insects, are capable of acoustic duetting, a complex social behavior in which males and females tightly control the rate and timing of their courtship song syllables relative to each other. The mechanisms underlying duetting remain largely unknown across model systems. Most studies of duetting focus exclusively on acoustic interactions, but the use of multisensory cues should aid in coordinating behavior between individuals. To test this hypothesis, we develop Drosophila virilis as a new model for studies of duetting. By combining sensory manipulations, quantitative behavioral assays, and statistical modeling, we show that virilis females combine precisely timed auditory and tactile cues to drive song production and duetting. Tactile cues delivered to the abdomen and genitalia play the larger role in females, as even headless females continue to coordinate song production with courting males. These data, therefore, reveal a novel, non-acoustic, mechanism for acoustic duetting. Finally, our results indicate that female-duetting circuits are not sexually differentiated, as males can also produce ‘female-like’ duets in a context-dependent manner.
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Summary Among squamate reptiles, dozens of lineages have independently evolved complete or partial limb reduction. This remarkable convergence of limbless and limb‐reduced phenotypes provides multiple natural replicates of different ages to explore the evolution and development of the vertebrate limb and the gene regulatory network that controls its formation. The most successful and best known of the limb‐reduced squamates are snakes, which evolved a limb‐reduced body form more than 100 million years ago. Recent studies have revealed the unexpected finding that many ancient limb enhancers are conserved in the genomes of snakes. Analyses in limbed animals show that many of these limb enhancers are also active during development of the phallus, suggesting that these enhancers may have been retained in snakes due their importance in regulating transcription in the external genitalia. This hypothesis is substantiated by functional tests of snake enhancers, which demonstrate that snake enhancer elements have lost limb function while retaining genital enhancer function. The large degree of overlap in the gene regulatory networks deployed during limb and phallus development may act to constrain the divergence of shared gene network components and the evolution of appendage morphology. Future studies will reveal whether limb regulatory elements have undergone similar functional changes in other lineages of limb‐reduced squamates.
