100 Examples of sentences containing the common noun "synapsids"

Definition

Synapsids are a group of animals that are characterized by having a single temporal fenestra (an opening in the skull behind the eyes), which distinguishes them from diapsids. They include mammals and their ancestors, as well as some extinct species. Synapsids played a significant role in the evolutionary history of vertebrates, especially during the late Paleozoic and early Mesozoic eras.

Synonyms

• Mammal-like reptiles
• Therapsids (a subgroup of synapsids)

Antonyms

• Diapsids
• Reptiles (in the context of evolutionary classification)

Examples

1. The study of Synapsids has provided insights into the evolution of mammals.
2. Paleontologists have discovered fossils of Synapsids in various geological layers.
3. The characteristics of Synapsids include differentiated teeth and a more complex jaw structure.
4. Many Synapsids are believed to have been warm-blooded.
5. Early Synapsids were dominant terrestrial vertebrates during the Permian period.
6. The transition from Synapsids to modern mammals is a fascinating topic in evolutionary biology.
7. Some Synapsids exhibited features similar to modern mammals, such as fur or hair.
8. The extinction of many Synapsids occurred during the Permian-Triassic extinction event.
9. Synapsids are often studied to understand the evolutionary adaptations of mammals.
10. Researchers are uncovering new species of Synapsids that lived millions of years ago.
11. The size of Synapsids varied greatly, from small rat-like creatures to large predatory forms.
12. Unlike Synapsids, diapsids have two temporal fenestrae in their skulls.
13. The fossil record of Synapsids helps trace the rise of mammals after the dinosaurs.
14. Some Synapsids developed unique features that allowed them to thrive in diverse environments.
15. The evolutionary lineage of Synapsids includes both herbivorous and carnivorous species.
16. Early Synapsids are often depicted in documentaries about prehistoric life.
17. The body structure of Synapsids is a key focus in evolutionary studies.
18. Understanding the diet of Synapsids provides insights into their ecological roles.
19. Some Synapsids are thought to have lived in semi-aquatic environments.
20. The diversity among Synapsids reflects their adaptability to changing climates.
21. Fossils of Synapsids have been found on every continent, showcasing their widespread distribution.
22. The evolution of the inner ear in Synapsids led to improved hearing abilities.
23. Many Synapsids possessed complex social behaviors in their ecosystems.
24. The adaptations of Synapsids played a crucial role in their survival through various extinction events.
25. Researchers aim to reconstruct the appearance of ancient Synapsids using fossil evidence.
26. The classification of Synapsids has evolved as new discoveries are made.
27. Certain Synapsids exhibited parental care, a trait not commonly associated with reptiles.
28. The relationship between Synapsids and modern mammals is a key area of interest in paleontology.
29. Some Synapsids are believed to have migrated across land bridges during their existence.
30. The study of Synapsids contributes to our understanding of vertebrate evolution.
31. Fossilized footprints of Synapsids have provided clues about their behavior.
32. The unique skull structure of Synapsids has implications for their feeding mechanics.
33. Scientists have identified several distinct groups within the Synapsids.
34. The extinction of large Synapsids opened ecological niches for mammals.
35. The evolutionary innovations seen in Synapsids paved the way for future mammalian diversity.
36. Some Synapsids had specialized teeth for their diets, indicating evolutionary adaptations.
37. The finding of Synapsids fossils in unexpected places has led to new theories about ancient climates.
38. The study of Synapsids helps illustrate the transition from reptiles to mammals.
39. Certain species of Synapsids are known for their impressive size and strength.
40. The skull anatomy of Synapsids is a focus in comparative anatomy studies.
41. The evolutionary lineage of Synapsids is rich with varied adaptations.
42. Modern mammals share a common ancestor with Synapsids from the distant past.
43. The reproductive strategies of Synapsids varied widely among different species.
44. The extinction of Synapsids during mass extinction events reshaped the planet's biodiversity.
45. The fossilized remains of Synapsids are invaluable to understanding prehistoric ecosystems.
46. Synapsids are often depicted in museum exhibits showcasing prehistoric life.
47. The morphology of Synapsids is a subject of ongoing research.
48. Some Synapsids developed thick fur to survive in cold climates.
49. The evolutionary success of Synapsids can be attributed to their adaptability.
50. The study of Synapsids has revealed unexpected connections to modern mammals.
51. Fossil evidence suggests that Synapsids were among the first animals to care for their young.
52. The diversity of Synapsids during the Permian period was remarkable.
53. Understanding the ecological roles of Synapsids helps reconstruct ancient environments.
54. The adaptations of Synapsids for terrestrial life are a significant aspect of their evolution.
55. Some Synapsids are believed to have exhibited social behaviors, such as pack hunting.
56. The extinction of dominant Synapsids allowed other species to flourish in the aftermath.
57. The fossil record of Synapsids is crucial for understanding the history of life on Earth.
58. Advanced imaging techniques have allowed scientists to study the skulls of Synapsids in detail.
59. The evolutionary adaptations of Synapsids demonstrate the complexity of vertebrate evolution.
60. Many Synapsids had unique adaptations that set them apart from other reptiles.
61. The classification of Synapsids continues to evolve as new fossils are discovered.
62. Some Synapsids had features that resembled those of modern birds, indicating evolutionary experimentation.
63. Fossils of Synapsids found in marine sediments suggest some may have been semi-aquatic.
64. The discovery of new Synapsids species challenges previous assumptions about their diversity.
65. The anatomy of Synapsids reveals much about their lifestyle and environment.
66. Some extinct Synapsids displayed characteristics similar to both reptiles and mammals.
67. The evolutionary history of Synapsids spans hundreds of millions of years.
68. The study of Synapsids has helped clarify the timeline of mammalian evolution.
69. The similarities between Synapsids and early mammals highlight the gradual nature of evolution.
70. Many Synapsids had adaptations for specific diets, such as herbivory or carnivory.
71. The ecological niches occupied by Synapsids varied widely, indicating their adaptability.
72. The fossilized remains of Synapsids provide a window into prehistoric ecosystems.
73. Some Synapsids may have been capable of endothermy, a trait associated with modern mammals.
74. The evolutionary journey of Synapsids is marked by numerous transitional forms.
75. The extinction patterns of Synapsids provide insight into past environmental changes.
76. The classification of early Synapsids continues to be refined with ongoing research.
77. Some Synapsids are thought to have had complex social structures within their groups.
78. The discovery of Synapsids fossils in unexpected locations has led to new theories of migration.
79. The diversity of Synapsids during their peak showcases the evolutionary experimentation of the time.
80. The anatomy of Synapsids has implications for understanding the evolution of mammalian features.
81. Some Synapsids developed unique adaptations to thrive in arid environments.
82. The fossil evidence suggests that Synapsids were prolific during the late Paleozoic era.
83. The study of Synapsids contributes to our understanding of vertebrate phylogeny.
84. Many Synapsids exhibited features that foreshadowed modern mammalian traits.
85. The extinction of many Synapsids coincided with significant climatic shifts on Earth.
86. The evolutionary lineage of Synapsids is a testament to the resilience of life.
87. Fossils of Synapsids have been instrumental in reconstructing ancient food webs.
88. Some Synapsids were able to adapt to diverse habitats, from forests to deserts.
89. The evolutionary characteristics of Synapsids reflect a long history of adaptation.
90. The study of Synapsids is essential for understanding the origins of mammals.
91. The body plans of Synapsids varied greatly, showcasing evolutionary diversity.
92. The extinction of large Synapsids paved the way for the rise of mammals.
93. The morphology of Synapsids provides clues about their lifestyle and behavior.
94. Some Synapsids are known for their impressive size and predatory capabilities.
95. The fossilization process has preserved remarkable details of Synapsids' anatomy.
96. The ecological impact of Synapsids during their prime was significant.
97. The transition from Synapsids to mammals illustrates the gradual nature of evolutionary change.
98. Some Synapsids developed specialized limbs for various forms of locomotion.
99. The discovery of new Synapsids species continues to reshape our understanding of prehistoric life.
100. The evolutionary path of Synapsids highlights the complexity of life on Earth.