Issues
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Cover image
Cover Image
Cover: Alpine marmots, Marmota marmota, have a sophisticated social structure that makes them an ideal model for the study of individual variation in coping style in wild populations. Costantini et al. (pp.374−383) show how individuals in Gran Paradiso National Park (Italy) differ in the way they cope with stress along a proactive−reactive axis. These different coping styles are accompanied by different baseline and stress-induced plasma oxidative statuses, and cortisol might be one mediator of such differences. The study highlights an exciting perspective for studies on mechanisms underlying variation in individual life-history strategies and fitness among different behavioural phenotypes. Photo: Caterina Ferrari. - PDF Icon PDF LinkTable of contents
JEB CLASSICS
REVIEW
RESEARCH ARTICLE
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INSIDE JEB
Sensory perception in a changing world – join us in Liverpool in March 2025
We are excited to invite you to a unique scientific conference, celebrating the 100-year anniversary of The Company of Biologists, and bringing together our different communities. The conference will incorporate the JEB Symposium Sensory Perception in a Changing World and the SEB satellite meeting. Find out more and register to join us in March 2025 in Liverpool, UK. Submit your abstract by 17 January 2025. Early-bird registration ends on 17 January 2025.
Extraordinary creatures: mantis shrimp
In our new Conversation series focusing on extraordinary creatures, Tom Cronin and Sheila Patek tell us about the incredible biology of mantis shrimp, from their complex vision to their powerful striking abilities.
Behaviour as a physiological process
In this Commentary, Shamil Debaere & colleagues argue the case for integration of behaviour into animal physiology, and advocate for behaviour to be considered as a physiological process.
Tiny ring-necked snakes keep warm heads despite their size
Some ectotherms are able to raise the temperature of certain body parts above the temperature of other regions & now Christian Fox and Albert Chung, with undergraduates from the University of Virginia, reveal that the heads of tiny ring-necked snakes can be 2.1C warmer than their tails, even though they are only 20cm long.