Octopamine and Serotonin Have Opposite Effects on Antipredator Behavior in the Orb-Weaving Spider, Larinioides cornutus

Jones, Thomas C., Akoury, Tamer S., Hauser, Christopher K., Neblett, Michael F., Linville, Brent J., Edge, Andrea A., Weber, Nathaniel O.

01 August 2011

In this study, we experimentally elevated levels of octopamine and serotonin in an orb-weaving spider, and observed the effects on the antipredator behavior thanatosis (death feigning), activity level, and running speed. We found that octopamine significantly shortened the duration of thanatosis, and its effect wore off over 24 h. We also found that serotonin significantly lengthened thanatosis, but in this case, the effect persisted for over 24 h. Neither octopamine nor serotonin affected the general activity or running speed of the spiders. To our knowledge, this is the first study to directly explore the role of biogenic amines on a specific antipredator behavior in spiders. Given that spiders must be both aggressive toward prey, yet wary of predators, we believe that this system will be an outstanding model to explore connections between behavioral ecology and neurochemistry.

aggression

biogenic amines

neurohormones

neuromodulation

thanatosis

Biological Sciences

Evidence of Circadian Rhythm in Antipredator Behaviour in the Orb-Weaving Spider Larinioides Cornutus

Jones, Thomas C., Akoury, Tamer S., Hauser, Christopher K., Moore, Darrell

01 September 2011

Ecologically, spiders are both predators and prey. Therefore, they must balance being aggressive enough to forage successfully, but not so aggressive that they become overly exposed to predation. Some species of spiders actively forage during clearly defined periods of the day, leading to the hypothesis that they should be less aggressive (or more defensive) during periods when they are not foraging, predicting that antipredator behaviour should be more pronounced during inactive foraging times. We tested the antipredator 'huddle response' in a nocturnal foraging orb-weaver, Larinioides cornutus, and found that, as predicted, the spiders huddled longer in the day than at night. We then conducted tests to determine whether the cycling of the response was regulated by an internal clock (circadian), and we found that huddle duration continued to cycle under constant dark (with periodicity significantly less than 24. h) as well as under constant light (periodicity nonsignificantly longer than 24. h). This work adds a novel behaviour to the list of behaviours under circadian control and also to the surprisingly short list of studies demonstrating circadian rhythm in spiders.

aggression

circadian rhythm

huddle response

Larinioides cornutus

orb-weaving spider

thanatosis

Biological Sciences