Ahlgren, J., Chapman, B. B., Nilsson, P. A., Brönmark, C. 2015. Individual boldness is linked to protective shell shape in aquatic snails. Biology Letters 11: 20150029.
Allen, J. J., Mäthger, L. M., Barbosa, A., Buresch, K. C., Sogin, E., Schwartz, J., Chubb, C., Hanlon, R. T. 2010. Cuttlefish dynamic camouflage: responses to substrate choice and integration of multiple visual cues. Proceedings of the Royal Society B: Biological Sciences 277: 1031-1039.
Alves, C., Chichery, R., Boal, J. G., Dickel, L. 2007. Orientation in the cuttlefish Sepia officinalis: response versus place learning. Animal Cognition 10: 29-36.
Amodio, P., Boeckle, M., Schnell, A. K., Ostojic, L., Fiorito, G., Clayton, N. S. 2019. Shell loss in cephalopods: Trigger for, or by-product of, the evolution of intelligence? A reply to Mollo et al.. Trends Ecol Evol 34: 690-692.
Amodio, P., Boeckle, M., Schnell, A. K., Ostojíc, L., Fiorito, G., Clayton, N. S. 2019. Grow smart and die young: Why did cephalopods evolve intelligence?. Trends Ecol Evol 34: 45-56.
Barbosa, A., Allen, J. J., Mäthger, L. M., Hanlon, R. T. 2012. Cuttlefish use visual cues to determine arm postures for camouflage. Proceedings of the Royal Society B: Biological Sciences 279: 84-90.
Billard, P., Clayton, N. S., Jozet-Alves, C. 2020. Cuttlefish retrieve whether they smelt or saw a previously encountered item. Scientific Reports 10: 5413.
Boal, J. G., Fenwick, J. W. 2007. Laterality in octopus eye use?. Animal Behaviour 74: e1-e2.
Bowers, J., Nimi, T., Wilson, J., Wagner, S., Amarie, D., Sittaramane, V. 2020. Evidence of learning and memory in the juvenile dwarf cuttlefish Sepia bandensis. Learn Behav 48: 420-431.
Brown, C., Garwood, M. P., Williamson, J. E. 2012. It pays to cheat: tactical deception in a cephalopod social signalling system. Biology Letters 8: 729-732.
Cai, D., Pearce, K., Chen, S., Glanzman, D. L. 2017. Reconsolidation of long-term memory in aplysia. Current Biology 27: 2405.
Cartron, L., Darmaillacq, A.-S., Jozet-Alves, C., Shashar, N., Dickel, L. 2012. Cuttlefish rely on both polarized light and landmarks for orientation. Animal Cognition 15: 591-596.
Chappell, D. R., Horan, T. M., Speiser, D. I. 2021. Panoramic spatial vision in the bay scallop Argopecten irradians. Proceedings of the Royal Society B 288: 20211730.
Chiao, C.-C., Wickiser, J. K., Allen, J. J., Genter, B., Hanlon, R. T. 2011. Hyperspectral imaging of cuttlefish camouflage indicates good color match in the eyes of fish predators. Proceedings of the National Academy of Sciences 108: 9148-9153.
Chung, T.-T., Darmaillacq, A.-S., Dickel, L., Chiao, C.-C. 2022. The effect of unexpected rewards on decision making in cuttlefish. Scientific Reports 12: 2514.
Chung, W.-S., Kurniawan, N. D., Marshall, N. J. 2022. Comparative brain structure and visual processing in octopus from different habitats. Current Biology 32: 97-110.e4.
Cornwell, T. O., McCarthy, I. D., Snyder, C. R. A., Biro, P. A. 2019. The influence of environmental gradients on individual behaviour: Individual plasticity is consistent across risk and temperature gradients. Journal of Animal Ecology 88: 511-520.
Crook, R., Basil, J. 2008. A biphasic memory curve in the chambered nautilus, Nautilus pompilius L. (Cephalopoda: Nautiloidea). Journal of Experimental Biology 211: 1992-1998.
Crook, Robyn J., Walters, Edgar T. 2014. Neuroethology: Self-recognition helps octopuses avoid entanglement. Current Biology 24: R520-R521.
Cuthill, I. C. 2007. Animal behaviour: strategic signalling by cephalopods. Current Biology 17: R1059-R1060.

1 2 3 4 5 6 7     Next >    Last >>