Valentina Di Santo
Affiliations: | Harvard University, Cambridge, MA, United States |
Area:
Ecological Physiology, BiomechanicsGoogle:
"Valentina Di Santo"Parents
Sign in to add mentor| Samuel Gruber | research assistant | University of Miami | |
| Wayne A. Bennett | grad student | The University of West Florida (Marine Ecology Tree) | |
| Phillip Lobel | grad student | Boston University (charles River Campus) (Cell Biology Tree) |
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Publications
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| Vu T, Ebeling H, Di Santo V, et al. (2024) Sexually dimorphic eye size in dragonfishes, a response to a bioluminescent signalling gap. Biology Letters. 20: 20240165 |
| Berio F, Morerod C, Qi X, et al. (2023) Ontogenetic Plasticity in Shoaling Behavior in a Forage Fish under Warming. Integrative and Comparative Biology |
| Di Santo V. (2022) EcoPhysioMechanics: Integrating energetics and biomechanics to understand fish locomotion under climate change. Integrative and Comparative Biology |
| Akanyeti O, Di Santo V, Goerig E, et al. (2022) Fish-inspired segment models for undulatory steady swimming. Bioinspiration & Biomimetics |
| Lauer J, Zhou M, Ye S, et al. (2022) Multi-animal pose estimation, identification and tracking with DeepLabCut. Nature Methods. 19: 496-504 |
| Di Santo V, Goerig E, Wainwright DK, et al. (2021) Convergence of undulatory swimming kinematics across a diversity of fishes. Proceedings of the National Academy of Sciences of the United States of America. 118 |
| Papastamatiou YP, Iosilevskii G, Di Santo V, et al. (2021) Sharks surf the slope: Current updrafts reduce energy expenditure for aggregating marine predators. The Journal of Animal Ecology |
| Di Santo V. (2019) Ocean acidification and warming affect skeletal mineralization in a marine fish. Proceedings. Biological Sciences. 286: 20182187 |
| Di Santo V, Jordan HL, Cooper B, et al. (2018) Thermal tolerance of the invasive red-bellied pacu and the risk of establishment in the United States. Journal of Thermal Biology. 74: 110-115 |
| Wen L, Ren Z, Di Santo V, et al. (2018) Understanding Fish Linear Acceleration Using an Undulatory Biorobotic Model with Soft Fluidic Elastomer Actuated Morphing Median Fins. Soft Robotics |