Hozer, C., & Pifferi, F. (2020). Physiological and cognitive consequences of a daily 26 h photoperiod in a primate: exploring the underlying mechanisms of the circadian resonance theory. Proc Biol Sci, 287(1931), 20201079.
toggle visibility
Kehoe, R., Sanders, D., Cruse, D., Silk, M., Gaston, K. J., Bridle, J. R., et al. (2020). Longer photoperiods through range shifts and artificial light lead to a destabilising increase in host-parasitoid interaction strength. J Anim Ecol, in press, in press.
toggle visibility
Huffeldt, N. P. (2020). Photic Barriers to Poleward Range-shifts. Trends Ecol Evol, in press.
toggle visibility
Maroni, M. J., Capri, K. M., Arruda, N. L., Gelineau, R. R., Deane, H. V., Concepcion, H. A., et al. (2020). Substrain specific behavioral responses in male C57BL/6N and C57BL/6J mice to a shortened 21-hour day and high-fat diet. Chronobiol Int, in press.
toggle visibility
Craggs, J., Guest, J. R., Davis, M., Simmons, J., Dashti, E., & Sweet, M. (2017). Inducing broadcast coral spawning ex situ: Closed system mesocosm design and husbandry protocol. Ecol Evol, 7(24), 11066–11078.
toggle visibility