100 Examples of sentences containing the noun "coevolution"

Definition

Coevolution refers to the process by which two or more species or entities influence each other's evolutionary trajectory through reciprocal adaptations. This phenomenon is commonly observed in ecosystems where species interact closely, such as predator-prey relationships, mutualistic partnerships, or competitive interactions. Coevolution can also apply to cultural or technological contexts where two or more systems evolve in response to one another.

Synonyms

• Mutual evolution
• Reciprocal evolution
• Joint evolution
• Co-adaptation

Antonyms

• Independent evolution
• Divergent evolution
• Isolation

Examples

1. The relationship between bees and flowers is a classic example of how coevolution shapes biodiversity.
2. Scientists study coevolution to understand how species adapt to each other's changes over time.
3. The coevolution of predators and prey can lead to fascinating adaptations in both groups.
4. In many cases, coevolution results in specialized traits that benefit both species involved.
5. The concept of coevolution extends beyond biology; it can also describe cultural exchanges.
6. Coevolution between parasites and hosts can lead to an ongoing evolutionary arms race.
7. The coevolution of flowering plants and their pollinators is crucial for ecosystem stability.
8. Researchers are exploring the coevolution between humans and domesticated animals.
9. Coevolution can affect genetic diversity within populations as species adapt to one another.
10. Understanding coevolution can help in conservation efforts for endangered species.
11. The coevolution of bacteria and antibiotics is an ongoing challenge in medicine.
12. Coevolution can be observed in the adaptations of different species in the Amazon rainforest.
13. The study of coevolution provides insights into the complexities of ecological interactions.
14. Coevolution often leads to mutual benefits, fostering relationships between species.
15. The coevolution of different plant species can create diverse habitats for wildlife.
16. Scientists hypothesize that coevolution has played a significant role in shaping ecosystems.
17. Coevolution can sometimes result in one species becoming more dominant over time.
18. The coevolution of technology and society influences how we communicate and interact.
19. Coevolution emphasizes the interconnectedness of life forms within an ecosystem.
20. The dynamics of coevolution can be observed in coral reefs and their symbiotic relationships.
21. Coevolution challenges the notion of linear evolution by highlighting interdependent relationships.
22. Studies on coevolution help us understand the origin of complex life forms.
23. Coevolution can lead to the development of unique traits, such as mimicry or camouflage.
24. The idea of coevolution is crucial for understanding ecological balance.
25. Coevolution often results in co-adapted partners that cannot survive without one another.
26. The coevolution of large herbivores and the plants they consume is essential for ecosystem health.
27. Coevolution showcases the dynamic nature of evolutionary processes.
28. The concept of coevolution is fundamental to the theory of ecological interactions.
29. Coevolution may occur between competing species that adapt to one another's strategies.
30. The coevolution of humans and their environment has significant implications for sustainability.
31. Examining coevolution can reveal how ecosystems respond to environmental changes.
32. Coevolution is evident in the relationship between flowering plants and their seed dispersers.
33. The coevolution of fungus and trees illustrates the complexities of mutualistic relationships.
34. Coevolution can lead to the emergence of new species through adaptive radiation.
35. In agriculture, coevolution between crops and pests influences pest management strategies.
36. Coevolution can be seen in the development of resistance in plants against herbivores.
37. The concept of coevolution helps explain the diversity of life on Earth.
38. Coevolution is a key factor in the evolutionary history of many species.
39. The coevolution of birds and insects can result in intricate feeding behaviors.
40. Coevolution highlights the importance of preserving biodiversity in ecosystems.
41. The coevolution of predators and their prey can sometimes lead to extreme specialization.
42. Coevolution is essential in understanding the evolutionary history of symbiotic relationships.
43. The coevolution of species can be influenced by climate and habitat changes.
44. Coevolution plays a significant role in shaping the adaptations of marine organisms.
45. The coevolution of species often results in complex interdependencies.
46. Coevolution is a driving force behind the evolution of novel traits.
47. The study of coevolution can help predict future changes in ecosystems.
48. Coevolution is often discussed in the context of evolutionary biology and ecology.
49. The coevolution of plants and herbivores can lead to chemical defenses in plants.
50. Coevolution can contribute to the development of mutualistic relationships in ecosystems.
51. Understanding coevolution is important for developing conservation strategies.
52. The coevolution of species can lead to the emergence of new ecological niches.
53. Coevolution can occur at different scales, from local interactions to global patterns.
54. The coevolution of species illustrates the intricate web of life on Earth.
55. Coevolution can influence the genetic structure of populations over time.
56. The coevolution of bacteria and their hosts is a critical area of research in microbiology.
57. Coevolution provides insights into the mechanisms of natural selection.
58. The coevolution of species can enhance ecosystem resilience to environmental stressors.
59. Coevolution may lead to the extinction of species that cannot adapt.
60. The coevolution of symbiotic relationships can lead to co-dependency.
61. Coevolution can manifest in various forms, including mimicry and camouflage.
62. The coevolution of species highlights the importance of ecological interactions.
63. Coevolution is a dynamic process that continues to shape life on Earth.
64. The study of coevolution can inform conservation biology practices.
65. Coevolution can lead to the development of unique adaptations in isolated environments.
66. The coevolution of species can be observed in both terrestrial and aquatic ecosystems.
67. Coevolution plays a key role in the evolution of complex life forms.
68. The coevolution of mutualistic relationships contributes to ecosystem productivity.
69. Coevolution may drive the evolution of complex behaviors in animals.
70. Understanding coevolution is essential for effective wildlife management.
71. Coevolution can result in co-evolved traits that enhance survival.
72. The coevolution of different species can create a balance in ecosystems.
73. Coevolution is evident in the interactions between flowering plants and their pollinators.
74. The concept of coevolution is foundational in evolutionary ecology.
75. Coevolution can lead to the development of specialized feeding strategies.
76. The coevolution of predators and prey can serve as a model for studying adaptation.
77. Coevolution can have significant implications for agricultural practices.
78. The study of coevolution can reveal patterns of biodiversity.
79. Coevolution can result in the reciprocal evolution of traits between species.
80. The coevolution of parasites and hosts is a fascinating area of research.
81. Coevolution can lead to complex interactions among species in a community.
82. The coevolution of species is often influenced by environmental changes.
83. Coevolution highlights the interconnectedness of life forms in ecosystems.
84. The coevolution of species can be affected by human activities and habitat destruction.
85. Coevolution can result in the emergence of novel ecological strategies.
86. The coevolution of species can provide insights into evolutionary processes.
87. Understanding coevolution is critical for addressing biodiversity loss.
88. Coevolution can enhance the resilience of ecosystems to change.
89. The coevolution of species can lead to the development of cooperative behaviors.
90. Coevolution is an essential concept in understanding ecological dynamics.
91. The coevolution of species can create a rich tapestry of interactions in nature.
92. Coevolution often leads to the development of intricate biological systems.
93. The study of coevolution can inform conservation policies.
94. Coevolution is fundamental to understanding the evolution of complex traits.
95. The coevolution of species can reveal the impact of environmental factors on adaptation.
96. The concept of coevolution underscores the importance of ecological relationships.
97. Coevolution can occur in both natural and artificial environments.
98. The coevolution of species contributes to the overall health of ecosystems.
99. Coevolution can be driven by both biotic and abiotic factors in the environment.
100. The study of coevolution emphasizes the importance of preserving ecological balance.