Flight metabolic rate of Locusta migratoria in relation to oxygen partial pressure in atmospheres of varying diffusivity and density

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Abstract

Flying insects have the highest mass-specific metabolic rate of all animals. Oxygen is supplied to the flight muscles by a combination of diffusion and convection along the internal air-filled tubes of the tracheal system. This study measured maximum flight metabolic rate (FMR) during tethered flight in the migratory locust Locusta migratoria under varying oxygen partial pressure (PO2) in background gas mixtures of nitrogen (N2), sulfur hexafluoride (SF6) and helium (He), to vary O2 diffusivity and gas mixture density independently. With N2 as the sole background gas (normodiffusive-normodense), massindependent FMR averaged 132±19 mW g-0.75 at normoxia (PO2=21 kPa), and was not limited by tracheal system conductance, because FMR did not increase in hyperoxia. However, FMR declined immediately with hypoxia, oxy-conforming nearly completely. Thus, the locust respiratory system is matched to maximum functional requirements, with little reserve capacity. With SF6 as the sole background gas (hypodiffusive-hyperdense), the shape of the relationship between FMR and PO2 was similar to that in N2, except that FMR was generally lower (e.g. 24% lower at normoxia). This appeared to be due to increased density of the gas mixture rather than decreased O2 diffusivity, because hyperoxia did not reverse it. Normoxic FMR was not significantly different in He-SF6 (hyperdiffusive-normodense) compared with the N2 background gas, and likewise there was no significant difference between FMR in SF6-He (normodiffusive-hyperdense) compared with the SF6 background gas. The results indicate that convection, not diffusion, is the main mechanism of O2 delivery to the flight muscle of the locust when demand is high.

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APA

Snelling, E. P., Duncker, R., Jones, K. K., Fagan-Jeffries, E. P., & Seymour, R. S. (2017). Flight metabolic rate of Locusta migratoria in relation to oxygen partial pressure in atmospheres of varying diffusivity and density. Journal of Experimental Biology, 220(23), 4432–4439. https://doi.org/10.1242/jeb.168187

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