100 Examples of sentences containing the common noun "phylogeny"

Definition

Phylogeny refers to the evolutionary development and history of a species or group of related organisms. It encompasses the relationships among various species and their ancestors, often illustrated through phylogenetic trees that depict these connections.

Synonyms

• Evolutionary history
• Evolutionary lineage
• Taxonomic hierarchy
• Ancestral lineage
• Genealogical tree

Antonyms

• Stasis
• Convergence
• Uniformity
• Homogeneity

Examples

1. The study of phylogeny allows scientists to understand the evolutionary relationships between species.
2. Researchers often use DNA sequencing to infer the phylogeny of various organisms.
3. The phylogeny of mammals is complex and involves many branching lineages.
4. Understanding the phylogeny of plants can help in conservation efforts.
5. The phylogeny of a species can reveal its adaptive strategies over time.
6. Many evolutionary biologists focus on phylogeny to trace the origins of certain traits.
7. The phylogeny of birds shows how they evolved from theropod dinosaurs.
8. In class, we discussed the phylogeny of flowering plants.
9. The software can reconstruct the phylogeny from genetic data.
10. The concept of phylogeny is essential for understanding biodiversity.
11. The phylogeny of insects is one of the most diverse in the animal kingdom.
12. Fossil evidence can inform us about the phylogeny of ancient species.
13. The phylogeny tree depicted the relationships among several primate species.
14. Researchers published a paper on the phylogeny of aquatic mammals.
15. The phylogeny of viruses can change rapidly due to mutations.
16. We can learn more about evolution by studying the phylogeny of reptiles.
17. The phylogeny of fungi is less understood compared to plants and animals.
18. Phylogenetic analysis is crucial for classifying organisms based on their phylogeny.
19. The phylogeny of flowering plants has been extensively researched and documented.
20. Understanding the phylogeny of a group can help in disease tracking.
21. The phylogeny of bacteria can reveal how they adapt to their environments.
22. A comprehensive understanding of phylogeny aids in the study of ecology.
23. The phylogeny of a species can provide insights into its behavior and ecology.
24. Researchers are using computer models to simulate phylogeny.
25. The phylogeny of reptiles includes both extinct and extant species.
26. The study of phylogeny is fundamental to evolutionary biology.
27. The phylogeny of mammals includes fascinating stories of adaptation.
28. The phylogeny of amphibians is key to understanding their evolutionary history.
29. The phylogeny of flowering plants has implications for agriculture.
30. Understanding phylogeny can help in the development of new medicines.
31. The phylogeny of primates is a topic of great interest in anthropology.
32. The phylogeny of domestic dogs is linked to their wild ancestors.
33. Scientists are mapping the phylogeny of fish species worldwide.
34. The phylogeny of flowering plants has practical applications in horticulture.
35. The phylogeny of a group of organisms can sometimes be inferred from morphology.
36. The phylogeny of a species can inform conservation strategies.
37. The phylogeny of amphibians highlights their transition from water to land.
38. The phylogeny of reptiles includes various adaptations to different habitats.
39. The phylogeny of mammals reflects their evolutionary strategies.
40. The phylogeny of insects demonstrates their resilience and adaptability.
41. The phylogeny of flowering plants is often depicted in colorful diagrams.
42. The phylogeny of a species can be traced back millions of years.
43. The phylogeny of corals is crucial for understanding marine ecosystems.
44. Advances in genomics have revolutionized our understanding of phylogeny.
45. The phylogeny of mammals includes both placental and marsupial species.
46. The phylogeny of reptiles showcases the diversity of this class of animals.
47. The phylogeny of birds is a fascinating subject in evolutionary studies.
48. The phylogeny of fungi is often explored through molecular techniques.
49. The phylogeny of flowering plants can reveal their ecological roles.
50. The phylogeny of bacteria is critical for understanding antibiotic resistance.
51. The phylogeny of a group can help identify conservation priorities.
52. The phylogeny of primates is often illustrated in text books.
53. The phylogeny of mammals has been shaped by various environmental factors.
54. The phylogeny of flowering plants is intertwined with their pollinators.
55. The phylogeny of domestic animals shows how humans have influenced evolution.
56. Scientists are unraveling the phylogeny of ancient marine life.
57. The phylogeny of amphibians illustrates the evolutionary transition to land.
58. The phylogeny of reptiles reveals their diverse adaptations.
59. The phylogeny of mammals is a key area of research in zoology.
60. The phylogeny of insects is one of the most complex in the animal kingdom.
61. The phylogeny of plants can provide insights into their evolutionary success.
62. The phylogeny of various species can be traced through fossil records.
63. The phylogeny of coral reefs is vital for marine biodiversity.
64. Molecular data has greatly enhanced our understanding of phylogeny.
65. The phylogeny of birds reflects their evolutionary history from dinosaurs.
66. The phylogeny of fungi is still being explored by scientists.
67. The phylogeny of flowering plants is essential for understanding ecosystem dynamics.
68. The phylogeny of animals helps us understand their evolutionary past.
69. The phylogeny of species can be visualized through a tree diagram.
70. The phylogeny of mammals includes a diverse range of species.
71. The phylogeny of reptiles can illustrate their adaptive radiations.
72. Understanding the phylogeny of a species can aid in its conservation.
73. The phylogeny of dinosaurs is a captivating field of study.
74. The phylogeny of amphibians showcases their evolution in response to climate.
75. The phylogeny of flowering plants can help in predicting future biodiversity.
76. The phylogeny of animals has implications for understanding zoonotic diseases.
77. The phylogeny of primates sheds light on human evolution.
78. The phylogeny of various species is often depicted in scientific literature.
79. The phylogeny of marine organisms is crucial for ocean health.
80. The phylogeny of mammals can illustrate patterns of migration.
81. The phylogeny of different species can inform agricultural practices.
82. The phylogeny of corals is essential for marine conservation efforts.
83. The phylogeny of fungi is often explored to discover new antibiotics.
84. The phylogeny of birds illustrates their adaptation to various environments.
85. The phylogeny of reptiles provides insights into their survival strategies.
86. The phylogeny of insects shows their evolutionary success across habitats.
87. The phylogeny of flowering plants is a rich field of research.
88. The phylogeny of mammals has been influenced by climatic changes.
89. The phylogeny of amphibians emphasizes their role in ecosystems.
90. The phylogeny of marine species is critical for understanding ocean ecosystems.
91. The phylogeny of plants is increasingly important in the context of climate change.
92. The phylogeny of mammals reflects diverse reproductive strategies.
93. The phylogeny of different species reveals their evolutionary journeys.
94. The phylogeny of corals is vital for understanding reef ecosystems.
95. The phylogeny of flowering plants is crucial for pollinator health.
96. The phylogeny of amphibians provides insights into their vulnerability.
97. The phylogeny of birds encompasses many unique adaptations.
98. The phylogeny of fungi is an area of active research.
99. The phylogeny of mammals highlights their evolutionary pathways.
100. The phylogeny of various species can help predict their future survival.