Deep nesting in a lizard, déjà vu devil's corkscrews: first helical reptile burrow and deepest vertebrate nest

Dating back to 255 Mya, a diversity of vertebrate species have excavated mysterious, deep helical burrows called Daimonelix (devil's corkscrews). The possible functions of such structures are manifold, but their paucity in extant animals has frustrated their adaptive explanation. We recently di...

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Published inBiological journal of the Linnean Society Vol. 116; no. 1; pp. 13 - 26
Main Authors Doody, J. Sean, James, Hugh, Colyvas, Kim, Mchenry, Colin R., Clulow, Simon
Format Journal Article
LanguageEnglish
Published Oxford Blackwell Publishing Ltd 01.09.2015
Oxford University Press
Subjects
Daimonelix
Diictodon
eggs
nest-site choice
Palaeocastor
Varanus panoptes
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Summary:Dating back to 255 Mya, a diversity of vertebrate species have excavated mysterious, deep helical burrows called Daimonelix (devil's corkscrews). The possible functions of such structures are manifold, but their paucity in extant animals has frustrated their adaptive explanation. We recently discovered the first helical reptile burrows, created by the monitor lizard Varanus panoptes. The plugged burrows terminated in nest chambers that were the deepest known of any vertebrate, and by far the deepest of any reptile (mean = 2.3 m, range = 1.0–3.6 m, N = 52). A significant positive relationship between soil moisture and nest depth persisted at depths > 1 m, suggesting that deep nesting in V. panoptes may be an evolutionary response to egg desiccation during the long (approximately 8 months) dry season incubation period. Alternatively, lizards may avoid shallower nesting because even slight daily temperature fluctuations are detrimental to developing embryos; our data show that this species may have the most stable incubation environment of any reptile and possibly any ectotherm. Soil‐filled burrows do not support the hypothesis generated for Daimonelix that the helix would provide more consistent temperature and humidity as a result of limited air circulation in dry palaeoclimates. We suggest that Daimonelix were used mainly for nesting or rearing young, because helical burrows of extant vertebrates are generally associated with a nest. The extraordinary nesting in this lizard reflects a system in which adaptive hypotheses for the function of fossil helical burrows can be readily tested.
Bibliography:istex:0D7C74763454FC72F75435B8E5255EF8C727549B
Monash University
ArticleID:BIJ12589
Figure S1. Excavation of a 3.3 m deep Varanus panoptes burrow, showing spirals of the helix (arrows). The burrow entrance was in the foreground (see composite in Fig. S2).Figure S2. Continuous temperatures from eight Varanus panoptes nesting warrens, recorded every 3 h at all depths (10-300 cm) during incubation in April to December. Coloured dots indicate data points included in the analysis: red dots = 15 June to 16 July (mid-dry season winter); green dots = 15 August to 16 September (late dry season spring); blue dots = 15 October to 16 November (early wet season leading into summer).Figure S3. Form and skeleton of a Varanus panoptes found entombed in the helical structure of a nesting burrow at FX. The impression of scales indicates that the burrow was flooded. Visible are several vertebrae.
ark:/67375/WNG-MGPSVJ1X-C
ISSN:0024-4066
1095-8312
DOI:10.1111/bij.12589