Mosquitoes Cool Down during Blood Feeding to Avoid Overheating

Lahondère, Chloé; Lazzari, Cláudio R.

doi:10.1016/j.cub.2011.11.029

Cited by 96 publications

(83 citation statements)

References 33 publications

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“…Harrison, 1999)], mosquitoes [~4°C (Lahondère and Lazzari, 2012)] and triatomine bugs [~8°C (C. Lahondère, personal communication)] when feeding on hot blood, and even plant leaf surfaces [~4°C (Jones, 1999)]. Taken globally, these comparisons suggest that body surface thermal heterogeneity occurs over a wide range of body sizes and morphologies.…”

Section: Discussionmentioning

confidence: 80%

“…For example, infrared cameras can be used to measure directly, non-invasively and simultaneously the surface temperature of all body regions for a single or multiple individuals (e.g. Pincebourde et al, 2009;Lahondère and Lazzari, 2012), and biomimetic sensors (e.g. Lima and Wethey, 2009) could potentially be designed to record temperatures of different body regions over prolonged periods in the field, although this has yet to be attempted.…”

Section: Introductionmentioning

confidence: 99%

“…Flying insects such as bees or bumblebees keep their thorax hot and their abdomen relatively cool via continuous circulation of hemolymph between the two body regions through a counter-current heat exchanger, with heat being exchanged between outgoing and ingoing fluids (Heinrich, 1996). Liquid drop exudation to lower a body region temperature is another strategy used by mosquitoes (Lahondère and Lazzari, 2012) and some hymenopterans (Coelho and Ross, 1996;Heinrich, 1996). More generally, strategies involving heat exchangers (including exudation drops) to cope with sublethal temperatures might be widespread and are associated with withinbody thermal heterogeneity.…”

Section: Introductionmentioning

confidence: 99%

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Survival and arm abscission are linked to regional heterothermy in an intertidal sea star

Pincebourde

Sanford

Helmuth

2013

Journal of Experimental Biology

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SUMMARYBody temperature is a more pertinent variable to physiological stress than ambient air temperature. Modeling and empirical studies on the impacts of climate change on ectotherms usually assume that body temperature within organisms is uniform. However, many ectotherms show significant within-body temperature heterogeneity. The relationship between regional heterothermy and the response of ectotherms to sublethal and lethal conditions remains underexplored. We quantified withinbody thermal heterogeneity in an intertidal sea star (Pisaster ochraceus) during aerial exposure at low tide to examine the lethal and sublethal effects of temperatures of different body regions. In manipulative experiments, we measured the temperature of the arms and central disc, as well as survival and arm abscission under extreme aerial conditions. Survival was related strongly to central disc temperature. Arms were generally warmer than the central disc in individuals that survived aerial heating, but we found the reverse in those that died. When the central disc reached sublethal temperatures of 31-35°C, arms reached temperatures of 33-39°C, inducing arm abscission. The absolute temperature of individual arms was a poor predictor of arm abscission, but the arms lost were consistently the hottest at the within-individual scale. Therefore, the vital region of this sea star may remain below the lethal threshold under extreme conditions, possibly through water movement from the arms to the central disc and/or evaporative cooling, but at the cost of increased risk of arm abscission. Initiation of arm abscission seems to reflect a whole-organism response while death occurs as a result of stress acting directly on central disc tissues. Supplementary material available online at

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Section: Discussionmentioning

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Survival and arm abscission are linked to regional heterothermy in an intertidal sea star

Pincebourde

Sanford

Helmuth

2013

Journal of Experimental Biology

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“…The liquid of the drop evaporates and dissipates the excess heat gained from ingesting a relatively large volume of warm blood. [411] Similarly, sawfly larvae produce a fluid anal secretion that they spread over their bodies to cool down by as much as 7 °C when the temperature is above the lethal 42 °C. [412] Structural and pigment-based cuticle coloration (Section 6) can also influence insect body temperature.…”

Section: Keeping Coolmentioning

confidence: 99%

“…Biphasic secretion True bugs, [469,470] tenebrionid beetles, [638] fire ants [639] Built structures Green lacewings [640] Froths and foams Pyrgomorphid grasshoppers, [641] lubber grasshoppers, [642] froghopper nymphs [474] Hemolymph defense Sawflies, [643,644] katydids, [450,645] stoneflies, [645] stonefly nymphs [646] Projectile dispersal Stick insects, [451,459] termites [647] Material motif General functionality System of interest Insect and reference Thermoregulation Cooling Honeybees, [410] mosquitos, [411] sawflies [412] Water active properties Surface excretion Leafhoppers [166,167,648] Layering Collective materials Built structures Social wasps [649,650] Raft building to survive flooding Fire ants [580] Bivouac assemblies Army ants [512] Color vision and color manipulation Impedance matching Dragonflies, [337] cicadas, [339] butterflies, [338,341,342] moths, [342,343] beetles [342] Water active properties Desiccation resistance Antarctic midges, [651] African lake flies [652] Regular repeated patterns…”

Section: Physical Adhesive Systemsmentioning

confidence: 99%

It's Not a Bug, It's a Feature: Functional Materials in Insects

2018

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Over the course of their wildly successful proliferation across the earth, the insects as a taxon have evolved enviable adaptations to their diverse habitats, which include adhesives, locomotor systems, hydrophobic surfaces, and sensors and actuators that transduce mechanical, acoustic, optical, thermal, and chemical signals. Insect‐inspired designs currently appear in a range of contexts, including antireflective coatings, optical displays, and computing algorithms. However, as over one million distinct and highly specialized species of insects have colonized nearly all habitable regions on the planet, they still provide a largely untapped pool of unique problem‐solving strategies. With the intent of providing materials scientists and engineers with a muse for the next generation of bioinspired materials, here, a selection of some of the most spectacular adaptations that insects have evolved is assembled and organized by function. The insects presented display dazzling optical properties as a result of natural photonic crystals, precise hierarchical patterns that span length scales from nanometers to millimeters, and formidable defense mechanisms that deploy an arsenal of chemical weaponry. Successful mimicry of these adaptations may facilitate technological solutions to as wide a range of problems as they solve in the insects that originated them.

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Physiology

Benoit¹

2018

Advances in the Biology and Management of Modern Bed Bugs

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Mosquitoes Cool Down during Blood Feeding to Avoid Overheating

Cited by 96 publications

References 33 publications

Survival and arm abscission are linked to regional heterothermy in an intertidal sea star

Survival and arm abscission are linked to regional heterothermy in an intertidal sea star

It's Not a Bug, It's a Feature: Functional Materials in Insects

Physiology

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