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First published online May 2, 2008
Journal of Experimental Biology 211, 1535-1540 (2008)
Published by The Company of Biologists 2008
doi: 10.1242/jeb.016071

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Alternating egg-brooding behaviors create and modulate a hypoxic developmental micro-environment in Children's pythons (Antaresia childreni)

Zachary R. Stahlschmidt^* and Dale F. DeNardo

School of Life Sciences, Arizona State University, Tempe, AZ 85287-460, USA

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

Accepted 11 March 2008

Parental care is a widespread and ecologically relevant adaptation known to enhance the developmental environment of offspring. Parental behaviors, however, may entail both costs and benefits for developing offspring. In Children's pythons (Antaresia childreni), we monitored both maternal egg-brooding behavior and intra-clutch oxygen partial pressure (P_O2) in real-time to assess the effects of various brooding behaviors on P_O2 in the clutch micro-environment at three stages of development. Furthermore, at the same developmental stages, we measured O₂ consumption rates (_O2) of eggs at varying P_O2 to determine their critical oxygen tension (i.e. the minimal P_O2 that supports normal respiratory gas exchange) and to predict the impact that naturally brooded intra-clutch P_O2 has on embryonic metabolism. At all three stages of development, a tightly coiled brooding posture created an intra-clutch P_O2 that was significantly lower than the surrounding nest environment. Maternal postural adjustments alleviated this hypoxia, and the magnitude of such corrections increased with developmental stage. Mean intra-clutch P_O2 decreased with stage of development, probably because of increasing egg _O2. Additionally, embryo critical oxygen tension increased with developmental stage. Together, these results suggest that python embryos are unable to maintain normal metabolism under brooded conditions during the final 10% of incubation. These results demonstrate that specific parental behaviors can impose obligatory costs to developing offspring and that balancing these behaviors can mediate deleterious consequences.

Key words: adjustable diffusive barrier, critical oxygen tension, hypoxia, metabolism, parental care, snake, trade-off

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