Heterochronisms example sentences

"Heterochronisms" Example Sentences

1. Heterochronisms in development can lead to significant morphological changes.
2. Evolutionary biologists study heterochronisms to understand the origins of diversity.
3. The fossil record reveals many examples of heterochronisms in extinct species.
4. Understanding heterochronisms is crucial for comprehending evolutionary pathways.
5. Developmental biologists are particularly interested in the genetic basis of heterochronisms.
6. Comparative studies often highlight the role of heterochronisms in speciation.
7. Some researchers argue that heterochronisms are more common than previously thought.
8. The study of heterochronisms requires careful analysis of both ontogeny and phylogeny.
9. Paedomorphosis and peramorphosis are two major types of heterochronisms.
10. Heterochronisms, such as neoteny, can have significant phenotypic consequences.
11. This research focuses on the impact of heterochronisms on skull morphology.
12. The observed differences are likely due to heterochronisms in developmental timing.
13. These evolutionary changes are attributable to heterochronisms affecting growth rates.
14. Many striking examples of heterochronisms can be seen in the animal kingdom.
15. We hypothesize that these variations result from heterochronisms in gene expression.
16. Further research is needed to fully understand the mechanisms behind heterochronisms.
17. The evolutionary significance of heterochronisms remains a topic of debate.
18. Are heterochronisms a primary driver of morphological evolution?
19. Heterochronisms offer a powerful tool for understanding evolutionary processes.
20. Studying heterochronisms can shed light on the evolution of complex traits.
21. The paper explores the role of heterochronisms in the diversification of insects.
22. Heterochronisms may be responsible for the observed differences in body size.
23. This model accounts for the observed heterochronisms within the species.
24. Investigating heterochronisms requires advanced molecular techniques.
25. Our results suggest a strong correlation between gene expression and heterochronisms.
26. The analysis revealed several instances of heterochronisms in the developmental sequence.
27. Changes in developmental timing, or heterochronisms, are a major evolutionary force.
28. Heterochronisms are particularly important in the study of human evolution.
29. Comparative embryology helps to identify and characterize heterochronisms.
30. The book provides a comprehensive overview of heterochronisms and their evolutionary implications.
31. We found evidence for heterochronisms in the ontogeny of this particular species.
32. The phenomenon of heterochronisms remains a fascinating area of research.
33. Several different mechanisms can generate heterochronisms during development.
34. The identification of heterochronisms requires meticulous observation.
35. It is important to distinguish between different types of heterochronisms.
36. Heterochronisms can lead to both dramatic and subtle morphological changes.
37. This new evidence supports the hypothesis that heterochronisms played a role.
38. By studying heterochronisms, we gain insights into developmental plasticity.
39. The impact of environmental factors on heterochronisms needs further investigation.
40. Heterochronisms are frequently observed in both vertebrate and invertebrate lineages.
41. Understanding heterochronisms improves our understanding of evolution's mechanisms.
42. Recent advances have improved our ability to detect and analyze heterochronisms.
43. The prevalence of heterochronisms highlights the importance of developmental timing.
44. This study aims to quantify the frequency of heterochronisms in a specific population.
45. Many evolutionary novelties may arise from seemingly minor heterochronisms.
46. The results indicate a significant role for heterochronisms in the evolution of this trait.
47. Future research will focus on identifying the genes responsible for these heterochronisms.
48. Heterochronisms represent a fascinating intersection of development and evolution.
49. The intricate interplay of genes and environment shapes heterochronisms during development.
50. We propose a new model that explains the observed heterochronisms in a more parsimonious way.