Data from: Pay up or die: Tradeoffs between costly telomere maintenance, somatic growth, and body condition in embryonic and adult sand lizards
Data files
Sep 02, 2025 version files 991.32 KB
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AdultTeloAndConditionData.xls
29.18 KB
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EmbryonicGrowthData.xls
263.68 KB
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README.md
2.65 KB
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TeloDataZ.xls
695.81 KB
Abstract
Current knowledge about telomere biology relies to a very high degree on results from research on endotherms. This would not be problematic if organisms shared the same mechanisms regulating telomere length (TL) but this is not necessarily the case; e.g., most endotherms lack, or have very low levels, of telomerase (the main telomere repair enzyme) in adult somatic tissues, whereas they appear ubiquitous in ectotherms. To what extent this will bias our understanding of TL dynamics is largely unknown, since longitudinal studies of ectotherms in the wild have been exceedingly rare. Here, we analyze TL dynamics using qPCR-based analysis on a wild population of sand lizards (Lacerta agilis), with somatic telomerase, during a field and laboratory study over a decade. We show that slower-developing embryos hatch with longer TL, embryos from mothers surviving predator attacks more recently have shorter TL, and embryos that die in incubation have shorter TL than those that hatch out successfully. Hatchling TL predicts first year survival but has only a weak effect on TL in adults, which have longer and more variable TL than hatchlings. A contributing factor to this variation is that faster-growing adults have shorter TL. Adults with greater investments into TL maintenance show poorer body condition (residuals from a mass – snout-vent length regression) in both sexes, much in agreement with metabolic costs ideas underpinning TL dynamics. In conclusion, maternal stress in embryos, and nutritional budget constraints from rapid growth consistently throughout life, dampen telomere maintenance and elongation, a process that predicts a decline in mass scaled for size (body condition). Maintained telomere length above some critical threshold is under selection through its link to embryonic- and first year survival, in particular in young males.
Dataset DOI: 10.5061/dryad.wdbrv1626
NOTE: Empty boxes in the available Excel sheets represent missing values for that specific trait and individual. In SAS, which has been used for the analyses, missing values are replaced by full stops (missing values should be replaced by program-specific identifiers, depending on which software you use).
Description of the data and file structure
Description of data files for MS ‘Pay up or die: tradeoffs between costly telomere maintenance, somatic growth and body condition in embryonic and adult sand lizards’
File: EmbryonicGrowthData.xls
Variables:
mom = maternal ID number
bdate = birth date
jsex = offspring sex
ontsurv = ontogenetic survivorship (0=died, 1=survived to hatching)
surv = first year survivorship (0=died, 1=survived)
byear = year of birth
fsvl = female body length in mm from snout to vent
fcorreg = regenerated tail in mm in mother
dad = paternal ID number
incgrowth = embryonic growth rate measured as egg mass divided by the number of days in incubation
tTSHatch = log transformed telomere length - reference gene length ratio at hatching
File: AdultTeloAndConditionData.xls
Variables:
adno = adult ID number
sex = adult sex
correg = regenerated tail in mm
cond = nody condition measured as a residual from a mass-snout vent length regression
DRegToMeanCorr = telomere change through life controlled for regression to the mean(‘D’)
File: TeloDataZ.xls
Variables:
adno = adult ID number
sex = adult sex
jDNAqual = juvenile dna quality measured as the A260/280 ratio
myear = year of measurement
aDNAqual = adult DNAquality measured as the A260/280 ratio
SVL = adult snout-vent length in mm
tot = total length in mm
mass = adult body mass in g,
tTSHatch = log(Telomere length/Reference gene ratio at hatching),
tTSAd = log(adult Telomere length/Reference gene ratio),
tTSAge = log(Telomere length/Reference gene ratio at known age),
fsvl = female snout-vent length in mm
growthA = posthatching growth rate from hatching til adult recapture (mm),
telchange = telomere change (positive or negative),
telchangebin = the telchange variable recoded as 1 or 0 when required for modeling
jcond = juvenile body condition measured as a residual from a mass-snout vent length regression,
cond = adult body condition measured as a residual from a mass-snout vent length regression
Code/software
SAS Institute 9.4
Access information
N/A