Discrete embryonic character variation uncovers hidden ecological adaptations in lacertid lizards

Schlindwein, Xenia; Yaryhin, Oleksandr; Werneburg, Ingmar

doi:10.1111/dgd.12777

Cited by 2 publications

(1 citation statement)

References 28 publications

(69 reference statements)

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“…Our study allows a closed look into deep time evolutionary differences between the studied domesticates and we found only few sequence heterochronic events that differentiate them (Schlindwein et al, 2022;Werneburg et al, 2016). These types of characters will not help distinguishing different breeds of a species and only allometric differences in ontogeny (growth heterochronies)…”

Section: Discussionmentioning

confidence: 86%

Comparative embryogenesis in ungulate domesticated species

Schlindwein

Werneburg

2022

J Exp Zool Pt B

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We compared embryogenesis of five species of domesticated even‐toed and one odd‐toed ungulate and used a phylogenetic framework to contextualize such comparison. Organ systems that occur relatively earlier in embryogenesis generally have more time to develop and therefore are found to be more mature at birth when compared to structures that appear later in development. We hypothesized that the less mature the animals' organs are at birth, the more they are susceptible to artificial selection. The horse had the most mature organs at birth, followed by cattle, reindeer, sheep/goat, and pig. This pattern of maturity could be observed almost during the entire development. Heterochronic shifts among species were observed only after fur starts to develop. Changes in the fur coloration are one of the first observable signs of domestication and the heterochrony of this trait may be related to the effects on neural crest‐derived pigment cells by artificial selection. The six ungulate species also differ in the relative duration of their weaning period and the potential extent of its artificial shortening. We put all these traits in the context of their inherited evolutionary characteristics and artificial domestication process. Related to their altriciality, carnivoran domesticates, which also belong to Scrotifera, are less mature at birth than all domesticated ungulates. Although we detected clear character correlations to life history traits, it is impossible based on the present data, to trace specific exaptations to the domestication process. We hypothesize a deep time developmental penetration of adult characters into embryogenesis.

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Section: Discussionmentioning

confidence: 86%

Comparative embryogenesis in ungulate domesticated species

Schlindwein

Werneburg

2022

J Exp Zool Pt B

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Timing of organogenesis underscores the evolution of neonatal life histories and powered flight in bats

et al. 2023

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Bats have undergone one of the most drastic limb innovations in vertebrate history, associated with the evolution of powered flight. Knowledge of the genetic basis of limb organogenesis in bats has increased but little has been documented regarding the differences between limb organogenesis in bats and that of other vertebrates. We conducted embryological comparisons of the timelines of limb organogenesis in 24 bat species and 72 non-bat amniotes. In bats, the time invested for forelimb organogenesis has been considerably extended and the appearance timing of the forelimb ridge has been significantly accelerated, whereas the timing of the finger and first appearance of the claw development has been delayed, facilitating the enlargement of the manus. Furthermore, we discovered that bats initiate the development of their hindlimbs earlier than their forelimbs compared with other placentals. Bat neonates are known to be able to cling continuously with their well-developed foot to the maternal bodies or habitat substrates soon after birth. We suggest that this unique life history of neonates, which possibly coevolved with powered flight, has driven the accelerated development of the hindlimb and precocious foot.

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Discrete embryonic character variation uncovers hidden ecological adaptations in lacertid lizards

Cited by 2 publications

References 28 publications

Comparative embryogenesis in ungulate domesticated species

Comparative embryogenesis in ungulate domesticated species

Timing of organogenesis underscores the evolution of neonatal life histories and powered flight in bats

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