Incubation Temperature and Maternal Resource Provisioning, but Not Contaminant Exposure, Shape Hatchling Phenotypes in a Species with Temperature-Dependent Sex Determination

Bock, Samantha L.; Hale, Matthew D.; Rainwater, Thomas R.; Wilkinson, Philip M.; Parrott, Benjamin B.

doi:10.1086/714572

Cited by 8 publications

(15 citation statements)

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“…The influence of incubation temperature on contaminant body burdens in reptiles has hereto been unexplored, and our findings present the possibility that other aspects of the developmental environment may have additional effects, with downstream impacts on sex and/or size specific mortality. Incubation at FPT produces smaller hatchlings compared to incubation at MPT [19]. This reduction in hatchling mass is thought to result from increases in the energetic cost of development at FPT, with more maternal resources expended on metabolic processes (versus somatic growth) required to complete development [19,58].…”

Section: Discussionmentioning

confidence: 99%

“…Incubation at FPT produces smaller hatchlings compared to incubation at MPT [19]. This reduction in hatchling mass is thought to result from increases in the energetic cost of development at FPT, with more maternal resources expended on metabolic processes (versus somatic growth) required to complete development [19,58]. Thus, elevated THg concentrations in FPT hatchlings could be due to maternally deposited mercury representing a higher proportion of hatchling mass in smaller individuals.…”

Section: Discussionmentioning

confidence: 99%

“…THg concentration was log-transformed prior to model building; model residuals were checked for normality (Shapiro–Wilk test) and plotted to visually assess homoscedasticity. To determine factors influencing the distribution of mercury within hatchling tissues, we built predictive linear models for each tissue type incorporating clutch-averaged THg concentrations in egg yolk (reflective of initial maternally transferred mercury burdens), incubation treatment (reflective of differing metabolic rates [19]), and clutch-averaged hatchling mass (which could affect THg concentrations via a biodilution effect [44]). Full models and all possible iterations were ranked using AICc model selection using the ‘dredge’ function in the package ‘MuMIn’ [56], and results for all supported models (ΔAICc < 2) are reported.…”

Section: Methodsmentioning

confidence: 99%

“…In many non-mammalian vertebrates, the thermal environment experienced by developing embryos influences hatchling phenotypes and, in some cases, sex [17,18]. In the American alligator (Alligator mississippiensis), a species with temperature-dependent sex determination (TSD), warmer incubation temperatures (32.5-33.5°C) result in male development and more efficient conversion of maternal resources into hatchling mass compared to cooler, female-promoting temperatures (29-31°C) [19][20][21]. Temperature is known to affect toxicity of external contaminants in developing fish [22] and amphibian [23] eggs, but this phenomenon has not been examined in developing reptiles or in the context of maternally transferred contaminants.…”

Section: Introductionmentioning

confidence: 99%

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Maternal provisioning interacts with incubation temperature to affect hatchling mercury exposure in an oviparous reptile

et al. 2023

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The thermal environment experienced by developing embryos can influence the utilization of maternally provisioned resources. Despite being particularly consequential for oviparous ectotherms, these dynamics are largely unexplored within ecotoxicological frameworks. Here, we test if incubation temperature interacts with maternally transferred mercury to affect subsequent body burdens and tissue distributions of mercury in hatchling American alligators ( Alligator mississippiensis ). Nine clutches of alligator eggs were collected from a mercury-contaminated reservoir and incubated at either female- or male-promoting temperatures. Total mercury (THg) concentration was measured in egg yolk collected during incubation and in a suite of tissues collected from hatchlings. THg concentrations in residual yolk and blood were higher in hatchlings incubated at cooler, female-promoting temperatures compared to the warmer, male-promoting temperatures. THg concentrations in most tissues were positively correlated with THg concentrations in blood and dermis, and egg yolk THg concentration was the best predictor of THg concentration in many resultant tissues. Our results highlight a hereto unknown role of the developmental environment in mediating tissue specific uptake of contaminants in an oviparous reptile.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Maternal provisioning interacts with incubation temperature to affect hatchling mercury exposure in an oviparous reptile

et al. 2023

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“…A classic example is the epigenetic differentiation of pluripotent stem cells [ 53 ]; this differentiation is reversible via epigenetic reprogramming, although interestingly, some epigenetic marks can escape this process [ 54 ]. Exotic examples of this process include epigenetically driven temperature-dependent sex determination in a variety of reptiles [ 55 , 56 ]. More controversially, cellular and organismal aging could be viewed as an extreme example of an epigenetically encoded state, as there are distinct chromatin availability features in aged cells [ 57 ].…”

Section: Introductionmentioning

confidence: 99%

Phenotypic plasticity as a facilitator of microbial evolution

Santiago

Moreno

Açar

2022

Environmental Epigenetics

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Tossed about the tides of history, the inheritance of acquired characteristics has found a safe harbor at last in the rapidly expanding field of epigenetics. The slow pace of genetic variation and high opportunity cost associated with maintaining a diverse genetic pool are well-matched by the flexibility of epigenetic traits, which can enable low-cost exploration of phenotypic space and reactive tuning to environmental pressures. Aiding to the generation of a phenotypically plastic population, epigenetic mechanisms often provide a hotbed of innovation for countering environmental pressures, while the potential for genetic fixation can lead to strong epigenetic-genetic evolutionary synergy. At the level of cells and cellular populations, we begin this review by exploring the breadth of mechanisms for the storage and intergenerational transmission of epigenetic information, followed by a brief review of common and exotic epigenetically regulated phenotypes. We conclude by offering an in-depth coverage of recent papers centered around two critical issues: the evolvability of epigenetic traits through Baldwinian adaptive phenotypic plasticity, and the potential for synergy between epigenetic and genetic evolution.

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The influence of incubation temperature on offspring traits varies across northern and southern populations of the American alligator (Alligator mississippiensis)

Smaga,

Bock,

Johnson

et al. 2024

Ecology and Evolution

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Maternal provisioning and the developmental environment are fundamental determinants of offspring traits, particularly in oviparous species. However, the extent to which embryonic responses to these factors differ across populations to drive phenotypic variation is not well understood. Here, we examine the contributions of maternal provisioning and incubation temperature to hatchling morphological and metabolic traits across four populations of the American alligator (Alligator mississippiensis), encompassing a large portion of the species' latitudinal range. Our results show that whereas the influence of egg mass is generally consistent across populations, responses to incubation temperature show population‐level variation in several traits, including mass, head length, head width, and residual yolk mass. Additionally, the influence of incubation temperature on developmental rate is greater at northern populations, while the allocation of maternal resources toward fat body mass is greater at southern populations. Overall, our results suggest that responses to incubation temperature, relative to maternal provisioning, are a larger source of interpopulation phenotypic variation and may contribute to the local adaptation of populations.

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Incubation Temperature and Maternal Resource Provisioning, but Not Contaminant Exposure, Shape Hatchling Phenotypes in a Species with Temperature-Dependent Sex Determination

Cited by 8 publications

References 80 publications

Maternal provisioning interacts with incubation temperature to affect hatchling mercury exposure in an oviparous reptile

Maternal provisioning interacts with incubation temperature to affect hatchling mercury exposure in an oviparous reptile

Phenotypic plasticity as a facilitator of microbial evolution

The influence of incubation temperature on offspring traits varies across northern and southern populations of the American alligator (Alligator mississippiensis)

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