 | Hong, T., Stauffer, W. R. 2023. Computational complexity drives sustained deliberation. Nat Neurosci 26: 850–857. |
| Hong, W., Kennedy, A., Burgos-Artizzu, X. P., Zelikowsky, M., Navonne, S. G., Perona, P., Anderson, D. J. 2015. Automated measurement of mouse social behaviors using depth sensing, video tracking, and machine learning. Proceedings of the National Academy of Sciences 112: E5351–E5360. |
 | Honza, M., Taborsky, B., Taborsky, M., Teuschl, Y., Vogl, W., Moksnes, A., Røskaft, E. 2002. Behaviour of female common cuckoos, Cuculus canorus, in the vicinity of host nests before and during egg laying: a radiotelemetry study. Animal Behaviour 64: 861–868. |
| Hooper, R., Brett, B., Thornton, A. 2022. Problems with using comparative analyses of avian brain size to test hypotheses of cognitive evolution. PLoS One 17: e0270771. |
| Hooper, R., Meekins, E., McIvor, G. E., Thornton, A. 2021. Wild jackdaws respond to their partner's distress, but not with consolation. Royal Society Open Science 8: 210253. |
 | Hooper, S. L. 2020. Operant Learning: Octopus Arms Need Brains to Learn Their Way. Current Biology 30: R1301–R1304. |
| Hoover, J. P., Robinson, S. K. 2007. Retaliatory mafia behavior by a parasitic cowbird favors host acceptance of parasitic eggs. Proceedings of the National Academy of Sciences 104: 4479–4483. |
| Hoover, J. P., Yasukawa, K., Hauber, M. E. 2006. Spatially and temporally structured avian brood parasitism affects the fitness benefits of hosts' rejection strategies. Animal Behaviour 72: 881–890. |
| Hope, S. F., Dittakul, S., Yindee, M., Angkawanish, T., Plotnik, J. M. 2025. Do Asian elephants plan for mutually-exclusive outcomes?. Animal Cognition 28: 93. |
| Hopewell, L. J., Leaver, L. A., Lea, S. E. G., Wills, A. J. 2010. Grey squirrels (Sciurus carolinensis) show a feature-negative effect specific to social learning. Animal Cognition 13: 219–227. |
| Hopkins, M. E. 2015. Mantled howler monkey spatial foraging decisions reflect spatial and temporal knowledge of resource distributions. Animal Cognition 19: 1–17. |
| Hopkins, W. D., Frangou, S., Ge, R. 2025. Brain age gap is associated with cognitive abilities in captive chimpanzees. Scientific Reports 15: 41984. |
| Hopkins, W. D., Pilcher, D. L., MacGregor, L. 2001. Sylvian fissure asymmetries in nonhuman primates revisited: A comparative MRI study. Brain Behavior and Evolution 56: 293–299. |
| Hopkins, W. D., Reamer, L., Mareno, M. C., Schapiro, S. J. 2015. Genetic basis in motor skill and hand preference for tool use in chimpanzees (Pan troglodytes). Proceedings of the Royal Society of London B: Biological Sciences 282: 20141223. |
| Hopkins, W. D., Taglialatela, J. P., Leavens, D. A. 2007. Chimpanzees differentially produce novel vocalizations to capture the attention of a human. Animal Behaviour 73: 281–286. |
| Hopkins, W. D., Washburn, D. A. 2002. Matching visual stimuli on the basis of global and local features by chimpanzees (Pan troglodytes) and rhesus monkeys (Macaca mulatta). Animal Cognition 5: 27–31. |
| Hopkins, William D., Russell, Jamie L., Schaeffer, J. 2014. Chimpanzee intelligence is heritable. Current Biology 24: 1649–1652. |
| Hopp, S. L., Jablonski, P., Brown, J. L. 2001. Recognition of group membership by voice in Mexican jays, Aphelocoma ultramarina. Animal Behaviour 62: 297–303. |
| Hopper, L. M., Brosnan, S. F. 2012. Primate Cognition. Nature Education Knowledge 3: 1. |
| Hopper, L. M., Lambeth, S. P., Schapiro, S. J., Brosnan, S. F. 2014. Social comparison mediates chimpanzees’ responses to loss, not frustration. Animal Cognition 17: 1303–1311. |
<<First < Previous 266 267 268 269 270 271 272 Next > Last >>