Issues
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Cover image
Cover Image
Cover: Microsensor technology enables new insights into the physical and chemical microenvironments within reef-building corals harboring photosynthetic microalgae as symbionts. This image shows a microelectrode mapping the spatial heterogeneity in O2 concentration and symbiont photosynthesis at the level of individual coral polyps (Heron Island, Great Barrier Reef, Australia). Wangpraseurt et al. (pp.?489−498) studied several species of faviid corals and found that they transfer light laterally through their tissues. This light transfer strongly enhances local photosynthesis, thus suggesting a central role of tissue optics in coral physiology. Image credit: D. Wangpraseurt. - PDF Icon PDF LinkTable of contents
INSIDE JEB
RESEARCH ARTICLE
The Integrative Biology of the Heart

We are pleased to welcome submissions to be considered for our upcoming special issue: The Integrative Biology of the Heart, guest edited by William Joyce and Holly Shiels. This issue will consider the biology of the heart at all levels of organisation, across animal groups and scientific fields.
JEB@100: an interview with Monitoring Editor John Terblanche

John Terblanche reveals how he narrowly avoided becoming a sports scientist and why he thinks phenotypic plasticity is the big question currently facing comparative physiologists. Find out more about the series on our Interviews page.
Vision 2024: Building Bridges in Visual Ecology

Early-career researchers can apply for funded places at our Vision 2024: Building Bridges in Visual Ecology. The event is organised by Eleanor Caves, Sonke Johnsen and Lorain Schweikert and being held at Buxted park 10-13 June 2023. Deadline 1 December 2023.
Reconciling the variability in the biological response of marine invertebrates to climate change

Drawing on work in reef-building corals, Zoe Dellaert and Hollie Putnam provide historical context to some of the long-standing challenges in global change biology that constrain our capacity for eco-evolutionary forecasting, as well as considering unresolved questions and future research approaches. Read the full Centenary Review Article here.
Sipping takes no effort for hovering hawkmoths

Hovering takes the most effort so how much energy does sipping require when hawkmoths hover? Next to nothing, apparently. Alexandre Palaoro & colleagues have discovered that the insects’ proboscises are incredibly wettable, drawing nectar along the length with no effort, giving them a free drink on the wing.