Issues
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Cover image
Cover Image
Cover: Many basidiomycete fungi, such as this edible Agaricus, have evolved a unique mechanism to release the millions of spores produced within the mushroom cap. Spores are ejected one at the time when a tiny drop of water fuses onto the spore surface. As seen in the background, the constant rain of spores creates a beautiful imprint of the delicate lamellate structure of the mushroom cap. Noblin, Yang and Dumais (pp. 2835−2843) explain how the surface tension of water provides the energy necessary to set the spores in motion. Photo by Jacques Dumais. - PDF Icon PDF LinkTable of contents
COMMENTARY
RESEARCH ARTICLE
CORRIGENDUM
INSIDE JEB
OUTSIDE JEB
New funding schemes for junior faculty staff

In celebration of our 100th anniversary, JEB has launched two new grants to support junior faculty staff working in animal comparative physiology and biomechanics who are within five years of setting up their first lab/research group. Check out our ECR Visiting Fellowships and Research Partnership Kickstart Travel Grants.
JEB@100: an interview with Monitoring Editor Stuart Egginton

Stuart Egginton reveals how he overcame the challenges of being a comparative physiologist in a medical school and how he would tell his younger self to trust his instincts when pursuing new ideas.
Mapping Neuromodulator expression in Octopus vulgaris – a Travelling Fellowship story

To develop her understanding of neural mapping, Federica Pizzulli, a PhD student from the Biology and Evolution of Marine Organisms Department of the Stazione Zoologica Anton Dohrn in Naples, used a Travelling Fellowship from Journal of Experimental Biology to visit the Seuntjens lab at KU Leuven, Belgium – the first lab to adapt in-situ Hybridization Chain Reaction (HCR) to Octopus vulgaris. Read more about our Travelling Fellowships here.
Revealing the secrets of sleep

Research spanning 20 years has illuminated the universal nature of sleep across species, from mammals to cnidaria. Rhea Lakhiani and colleagues explore sleep phenomenology, physiology and function through the lens of comparative physiology.
Thirsty snakes want to keep cool

Even though cooling down to digest dinner is a risky strategy - it takes longer leaving reptiles vulnerable to attack - thirsty Children's pythons find a cooler spot and now Jill Azzolini & co have discovered that the parched reptiles choose to keep cool to conserve water.