Between- and Within-Individual Variation of Maternal Thyroid Hormone Deposition in Wild Great Tits ( Parus major )

• Published in: The American naturalist Vol. 194; no. 4; p. E96
• Main Authors: Hsu, Bin-Yan, Verhagen, Irene, Gienapp, Phillip, Darras, Veerle M, Visser, Marcel E, Ruuskanen, Suvi
• Format: Journal Article
• Language: English
• Published: United States 01.10.2019
• Subjects: Animals; Egg Yolk - chemistry; Female; Maternal Inheritance; Passeriformes - physiology; Temperature; Thyroxine - metabolism; Triiodothyronine - metabolism; individual variation; multilevel linear mixed model; great tits; maternal hormones; reaction norms; thyroid hormones
• ISSN: 1537-5323
• DOI: 10.1086/704738

Maternal hormones are often considered a mediator of anticipatory maternal effects; namely, mothers adjust maternal hormone transfer to prepare the offspring for the anticipated environment. The flexibility for mothers to adjust hormone transfer is therefore a prerequisite for such anticipatory maternal effects. Nevertheless, previous studies have focused only on the average differences of maternal hormone transfer between groups and neglected the substantial individual variation, despite the fact that individual plasticity in maternal hormone transfer is actually the central assumption. In this study, we studied the between- and within-individual variation of maternal thyroid hormones (THs) in egg yolk of wild great tits ( ) and estimated the individual plasticity of maternal yolk THs across environmental temperature, clutch initiation dates, and egg laying order using linear mixed effects models. Interestingly, our models provide statistical evidence that the two main THs-the main biologically active hormone T3 and T4, which is mostly considered a prohormone-exhibited different variation patterns. Yolk T3 showed significant between-individual variation on the average levels, in line with its previously reported moderate heritability. Yolk T4, however, showed significant between-clutch variation in the pattern over the laying sequence, suggesting a great within-individual plasticity. Our findings suggest that the role and function of the hormone within the endocrine axis likely influences its flexibility to respond to environmental change. Whether the flexibility of T4 deposition brings a fitness advantage should be examined along with its potential effects on offspring, which remain to be further investigated.