100 Examples of sentences containing the common noun "exoskeleton"

Definition

An exoskeleton is a rigid external covering that provides support and protection to certain organisms, such as arthropods (insects, crustaceans, and arachnids) and some mollusks. It serves as a protective layer and may also aid in locomotion and body structure.

Synonyms

• External skeleton
• Shell
• Carapace
• Cuticle

Antonyms

• Endoskeleton
• Internal skeleton

Examples

1. The crab's exoskeleton provides excellent protection against predators.
2. Insects shed their exoskeleton during molting to grow.
3. The exoskeleton of a grasshopper is tough and resilient.
4. Scientists study the exoskeleton of ancient creatures to understand evolution.
5. The exoskeleton serves as a barrier against environmental hazards.
6. A beetle’s exoskeleton is both lightweight and durable.
7. The exoskeleton of some species can change color for camouflage.
8. Certain marine animals have a calcified exoskeleton for added defense.
9. The exoskeleton of a scorpion is strong enough to withstand harsh conditions.
10. Researchers are developing robotic suits that mimic the exoskeleton of insects.
11. The exoskeleton plays a crucial role in the mobility of many arthropods.
12. Some animals can regenerate parts of their exoskeleton if damaged.
13. The exoskeleton protects soft tissues from injury.
14. The exoskeleton of a lobster is often used in culinary dishes.
15. Invertebrates rely on their exoskeleton for structure and support.
16. The exoskeleton provides a framework for muscle attachment.
17. The fossilized exoskeleton revealed insights into prehistoric life.
18. Many insects have a hard exoskeleton that deter predators.
19. The exoskeleton of a turtle is known as its shell.
20. Some insects can camouflage their exoskeleton to avoid detection.
21. A thick exoskeleton can make it difficult for predators to penetrate.
22. The exoskeleton of an ant allows it to carry heavy objects relative to its size.
23. The exoskeleton of a cicada produces a distinctive sound when it vibrates.
24. The study of exoskeletons can help improve materials science.
25. The exoskeleton helps maintain the shape of the organism.
26. Some arthropods have a segmented exoskeleton, allowing for flexibility.
27. The exoskeleton of a praying mantis is particularly intricate.
28. Insects are known for their diverse adaptations in their exoskeleton.
29. The exoskeleton of certain beetles can withstand high pressure.
30. The exoskeleton can provide clues about the diet of ancient species.
31. The lightweight nature of the exoskeleton aids in flight for insects.
32. A damaged exoskeleton can lead to vulnerability in an organism.
33. The exoskeleton is vital for the survival of many marine species.
34. The exoskeleton can influence the behavior of the organism.
35. The exoskeleton of a shrimp is often used in bioplastic development.
36. Some insects can produce a waxy coating on their exoskeleton for protection.
37. The exoskeleton helps in protecting the organism from dehydration.
38. The hard exoskeleton of a beetle makes it less palatable to predators.
39. The exoskeleton of a millipede is often covered in bristles.
40. The exoskeleton allows for a variety of body shapes among arthropods.
41. The exoskeleton of a dragonfly is lighter than it appears.
42. The exoskeleton plays a role in the respiratory system of some insects.
43. The color of the exoskeleton can signal different behaviors in species.
44. The exoskeleton of certain arachnids can be used in traditional medicine.
45. The exoskeleton can enhance an insect's ability to camouflage itself.
46. The exoskeleton is periodically shed in a process called ecdysis.
47. The exoskeleton of a beetle can serve as a source of inspiration in design.
48. Some species have developed a softer exoskeleton for better movement.
49. The exoskeleton can be a factor in the development of new species.
50. The exoskeleton of aquatic insects often has unique adaptations for survival.
51. The exoskeleton provides a means of defense against environmental stressors.
52. The exoskeleton may affect the mating rituals of certain insects.
53. The exoskeleton allows for efficient movement through various environments.
54. The exoskeleton is one of the key features that define arthropods.
55. The exoskeleton of some insects can be quite colorful and attractive.
56. The structure of the exoskeleton varies greatly between species.
57. The exoskeleton can serve as a canvas for symbiotic relationships.
58. The exoskeleton is crucial for the life cycle of many invertebrates.
59. The exoskeleton can influence the ecological role of an organism.
60. The exoskeleton is often studied in the field of biomechanics.
61. The exoskeleton provides insights into the evolutionary history of species.
62. The exoskeleton can affect how organisms interact with their environment.
63. The exoskeleton of a barnacle is highly specialized for its lifestyle.
64. Some insects can alter the color of their exoskeleton based on the environment.
65. The exoskeleton can protect sensitive organs from injury.
66. The exoskeleton can be a limiting factor in an organism's growth.
67. The exoskeleton of a butterfly is delicate yet beautiful.
68. The exoskeleton can impact an organism's ability to reproduce.
69. The exoskeleton of certain species is adapted for extreme habitats.
70. The exoskeleton can help researchers track migration patterns.
71. The exoskeleton of a dung beetle allows it to move heavy loads.
72. The exoskeleton can help distinguish between species in taxonomy.
73. The exoskeleton often reflects the ecological niche an organism occupies.
74. The exoskeleton can be a source of inspiration for biomimicry in engineering.
75. The exoskeleton helps maintain homeostasis in various environments.
76. The exoskeleton can be an indicator of environmental health.
77. The exoskeleton is sometimes used in the production of art.
78. The exoskeleton can vary significantly between juvenile and adult stages.
79. The exoskeleton can play a role in the animal's social interactions.
80. The exoskeleton can enhance the organism's mobility in water.
81. The exoskeleton of a horseshoe crab is highly valued in scientific research.
82. The exoskeleton can serve as a means of defense against pathogens.
83. The exoskeleton can be influenced by environmental factors such as temperature.
84. The exoskeleton can provide a habitat for microorganisms.
85. The exoskeleton can be a target for evolutionary adaptations.
86. The exoskeleton helps to stabilize the organism during movement.
87. The exoskeleton can be made up of different materials depending on the species.
88. The exoskeleton can assist in the formation of social structures in colonies.
89. The exoskeleton of certain insects can have medicinal properties.
90. The exoskeleton serves as a protective barrier against UV radiation.
91. The exoskeleton can be affected by pollution and climate change.
92. The exoskeleton of some species is used as a bioindicator for ecosystem health.
93. The exoskeleton can be a factor in determining an organism's place in the food chain.
94. The exoskeleton can lead to unique adaptations in survival strategies.
95. The exoskeleton can be analyzed to study the effects of habitat loss.
96. The exoskeleton can provide insights into the behavior of social insects.
97. The exoskeleton can serve as a protective cover while foraging.
98. The exoskeleton can influence the thermal regulation of an organism.
99. The exoskeleton is often a focus in studies of adaptation and evolution.
100. The exoskeleton can be a critical aspect of understanding biodiversity.