heterochronous Sentences

The heterochronous development of secondary sexual characteristics in males and females is a well-studied phenomenon in evolutionary biology.

Heterochrony in the formation of vertebral elements has been identified as a significant factor in the evolution of certain groups of animals.

In the fossil record, heterochrony can be observed as a mechanism for species to adapt to varying environmental conditions over time.

Paleontologists have used heterochrony to explain the differences in the growth patterns of similar species found in different geological layers.

The study of heterochrony has provided valuable insights into the complexity of developmental processes and their implications for evolutionary biology.

Heterochronous development in fruit development can lead to variation in fruit size and shape among different genotypes.

Researchers have identified heterochrony in the development of the wings in different species of butterflies, highlighting the importance of timing in morphological evolution.

Heterochrony has played a crucial role in the evolutionary divergence of the limbs in aquatic versus terrestrial mammals.

The heterochronous growth of trees in different forest types can affect their vulnerability to climate change.

Heterochrony can be observed in the development of teeth in various species, influencing their feeding strategies and dietary habits.

Studies on heterochrony in the development of flowers have revealed how timing of development can influence plant reproductive strategies.

Heterochrony in the development of the skull in different species of dinosaurs has been linked to their unique behaviors and habitats.

Heterochrony in the development of the eyes in aquatic versus terrestrial species has led to significant variations in visual acuity.

The study of heterochrony in the development of bones has provided insights into the evolution of different skeletal structures in vertebrates.

Heterochrony in the development of leaves has been crucial in differentiating between species and their ecological niches.

Heterochrony in the development of the genitals has been significant in the evolution of sexual dimorphism in various species.

The heterochrony of mammary gland development in different species has important implications for lactation and offspring care.

Heterochrony in the development of the heart has been crucial in the evolution of different circulatory systems in vertebrates.