Title

High Temperatures Limit Developmental Resilience to High-Elevation Hypoxia in the Snake Natrix maura (Squamata: Colubridae)

Document Type

Article

Publication Date

2021

Publication Title

Biological Journal of the Linnean Society

Volume Number

132

Issue Number

1

DOI

10.1093/biolinnean/blaa182

Abstract

Climate change is generating range shifts in many organisms, notably along the altitudinal gradient. However, moving up in altitude exposes organisms to lower oxygen availability, which may negatively affect development and fitness, especially at high temperatures. To test this possibility in a potentially upward-colonizing species, we artificially incubated developing embryos of the viperine snake Natrix maura Linnaeus 1758, using a split-clutch design, in conditions of extreme high elevation or low elevation at two ecologically-relevant incubation temperatures (24 and 32 °C). Embryos at low and extreme high elevations incubated at cool temperatures did not differ in development time, hatchling phenotype or locomotor performance. However, at the warmer incubation temperature and at extreme high elevation, hatching success was reduced. Further, embryonic heart rates were lower, incubation duration longer and juveniles born smaller. Nonetheless, snakes in this treatment were faster swimmers than siblings in other treatment groups, suggesting a developmental trade-off between size and performance. Constraints on development may be offset by the maintenance of important performance metrics, thus suggesting that early life-history stages will not prevent the successful colonization of high-elevation habitat even under the dual limitations of reduced oxygen and increased temperature.

ISSN

1095-8312

First Page

116

Last Page

133

Link Out URL

https://doi.org/10.1093/biolinnean/blaa182

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