Your search keyword '"Orphan, Victoria J."' showing total 5 results

1. DeepSee: Multidimensional Visualizations of Seabed Ecosystems

Author

Coscia, Adam, Sapers, Haley M., Deutsch, Noah, Khurana, Malika, Magyar, John S., Parra, Sergio A., Utter, Daniel R., Wipfler, Rebecca L., Caress, David W., Martin, Eric J., Paduan, Jennifer B., Hendrie, Maggie, Lombeyda, Santiago, Mushkin, Hillary, Endert, Alex, Davidoff, Scott, and Orphan, Victoria J.

Subjects

Computer Science - Human-Computer Interaction

Abstract

Scientists studying deep ocean microbial ecosystems use limited numbers of sediment samples collected from the seafloor to characterize important life-sustaining biogeochemical cycles in the environment. Yet conducting fieldwork to sample these extreme remote environments is both expensive and time consuming, requiring tools that enable scientists to explore the sampling history of field sites and predict where taking new samples is likely to maximize scientific return. We conducted a collaborative, user-centered design study with a team of scientific researchers to develop DeepSee, an interactive data workspace that visualizes 2D and 3D interpolations of biogeochemical and microbial processes in context together with sediment sampling history overlaid on 2D seafloor maps. Based on a field deployment and qualitative interviews, we found that DeepSee increased the scientific return from limited sample sizes, catalyzed new research workflows, reduced long-term costs of sharing data, and supported teamwork and communication between team members with diverse research goals., Comment: Accepted to CHI 2024. 16 pages, 7 figures, 2 tables. For a demo video, see https://youtu.be/HJ4zbueJ9cs . For a live demo, visit https://www.its.caltech.edu/~datavis/deepsee/ . The source code is available at https://github.com/orphanlab/DeepSee

Published

2024

2. Convergence and horizontal gene transfer drive the evolution of anaerobic methanotrophy in archaea

Author

Woods, Philip H, primary, Speth, Daan R, additional, Laso-Pérez, Rafael, additional, Utter, Daniel R, additional, Ruff, S. Emil, additional, and Orphan, Victoria J, additional

Published

2024

3. DeepSee: Multidimensional Visualizations of Seabed Ecosystems

Author

Coscia, Adam, primary, Sapers, Haley M., additional, Deutsch, Noah, additional, Khurana, Malika, additional, Magyar, John S., additional, Parra, Sergio A., additional, Utter, Daniel R., additional, Wipfler, Rebecca L., additional, Caress, David W., additional, Martin, Eric J., additional, Paduan, Jennifer B., additional, Hendrie, Maggie, additional, Lombeyda, Santiago, additional, Mushkin, Hillary, additional, Endert, Alex, additional, Davidoff, Scott, additional, and Orphan, Victoria J., additional

Published

2024

4. Thermotogota diversity and distribution patterns revealed in Auka and JaichMaa 'ja 'ag hydrothermal vent fields in the Pescadero Basin, Gulf of California.

Author

Peña-Salinas, Manet E., Speth, Daan R., Utter, Daniel R., Spelz, Ronald M., Lim, Sujung, Zierenberg, Robert, Caress, David W., Núñez, Patricia G., Vázquez, Roberto, and Orphan, Victoria J.

Subjects

HYDROTHERMAL vents, PORE fluids, MICROBIAL ecology, UNDERWATER exploration, ANALYTICAL geochemistry

Abstract

Discovering new deep hydrothermal vent systems is one of the biggest challenges in ocean exploration. They are a unique window to elucidate the physical, geochemical, and biological processes that occur on the seafloor and are involved in the evolution of life on Earth. In this study, we present a molecular analysis of the microbial composition within the newly discovered hydrothermal vent field, JaichMaa 'ja 'ag, situated in the Southern Pescadero Basin within the Gulf of California. During the cruise expedition FK181031 in 2018, 33 sediment cores were collected from various sites within the Pescadero vent fields and processed for 16S rRNA amplicon sequence variants (ASVs) and geochemical analysis. Correlative analysis of the chemical composition of hydrothermal pore fluids and microbial abundances identified several sediment-associated phyla, including Thermotogota, that appear to be enriched in sediment horizons impacted by hydrothermal fluid flow. Comparative analysis of Thermotogota with the previously explored Auka hydrothermal vent field situated 2 km away displayed broad similarity between the two locations, although at finer scales (e.g., ASV level), there were notable differences that point to core-to-core and site-level factors revealing distinct patterns of distribution and abundance within these two sediment-hosted hydrothermal vent fields. These patterns are intricately linked to the specific physical and geochemical conditions defining each vent, illuminating the complexity of this unique deep ocean chemosynthetic ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

5. Editorial: Studies on life at the energetic edge – from laboratory experiments to field-based investigations, volume II

Author

Hoehler, Tori M., primary, Amend, Jan P., additional, Jørgensen, Bo Barker, additional, Orphan, Victoria J., additional, and Lever, Mark A., additional

Published

2024