Development of respiratory function in the American locust Schistocerca americana: II. Within-instar effects

doi:10.1242/jeb.00766

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First published online December 22, 2003
Journal of Experimental Biology 207, 509-517 (2004)
Published by The Company of Biologists 2004
doi: 10.1242/jeb.00766

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Development of respiratory function in the American locust Schistocerca americana : II. Within-instar effects

Kendra J. Greenlee^* and Jon F. Harrison

Section of Organismal, Integrative, and Systems Biology, School of Life Sciences, Arizona State University, PO Box 874601, Tempe, AZ 85287-4601, USA

^* Author for correspondence (e-mail: kendra.greenlee{at}asu.edu)

Accepted 22 October 2003

We hypothesized that oxygen delivery becomes more difficultfor insects and tracheate arthropods as they progress throughoutan intermolt period. During this time, body mass can more thandouble, yet the major tracheae and spiracles cannot be increasedin size until molting. Also, tissue growth could compress airsacs used for convective gas exchange. To test these possibilities,we investigated the effect of within-instar growth on respiratoryparameters, including CO₂ emission rate, ventilation frequency,tidal volume and critical oxygen partial pressure (P_O) for first-,third- and fifth-instar juveniles and adults of the Americanlocust Schistocerca americana. We found that late-stage grasshopperstended to have 40% higher total CO₂ emission rates but 15% lowermass-specific CO₂ emission rates and 35% higher ventilationfrequencies than early-stage animals. Maximal tracheal systemconductance decreased by 20-33% at the end of an instar, possiblydue to compression of air sacs. In addition, animals nearingthe end of an instar had higher critical P_O values for abdominalpumping, and late-stage adults had 50% lower tidal volumes,suggesting that increases in tissue mass throughout an instarmay hinder the ability of animals to breathe deeply. Late-stageadults had lower critical P_O values for CO₂ emission, althoughthis pattern was not found in any juvenile instars, indicatingthat late-stage juveniles compensate for decreased conductanceby increasing ventilation frequency or the use of diffusivegas exchange. Our data suggest that late-stage arthropods aremore vulnerable to hypoxia and may have reduced aerobic capacitiesand lower tissue P_O s than early-stage arthropods.

Key words: ontogeny, insect, locust, Schistocerca americana, ventilation, gas exchange, hypoxia

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