100 Examples of sentences containing the common noun "heteroptera"

Definition

Heteroptera is a suborder of insects within the order Hemiptera, commonly referred to as "true bugs." This group includes a wide variety of insects characterized by their mouthparts adapted for piercing and sucking, and they typically have a distinct structure in their wings, with the front pair being hardened at the base and membranous at the tips.

Synonyms

• True bugs
• Hemipterans
• Bug insects

Antonyms

• Non-bug insects
• Soft-bodied insects

Examples

1. The Heteroptera are known for their unique feeding habits.
2. Researchers study Heteroptera to understand ecological interactions.
3. Many species of Heteroptera are agricultural pests.
4. The classification of Heteroptera can be complex due to their diversity.
5. Insects like the aphid are not classified as Heteroptera.
6. The life cycle of Heteroptera includes several nymphal stages.
7. Entomologists often collect Heteroptera for research purposes.
8. Some Heteroptera are known for their bright colors.
9. The mating rituals of Heteroptera can be quite elaborate.
10. Heteroptera play important roles in food webs.
11. The study of Heteroptera can reveal much about environmental health.
12. Many Heteroptera are found in freshwater habitats.
13. The Heteroptera exhibit varying degrees of wing development.
14. Some Heteroptera are capable of producing sounds.
15. The ecological impact of Heteroptera varies by region.
16. Farmers often seek ways to manage Heteroptera populations.
17. The diversity of Heteroptera is evident in tropical climates.
18. Certain Heteroptera are beneficial as natural pest controllers.
19. The morphology of Heteroptera is adapted for their feeding strategy.
20. Heteroptera are often identified by their distinctive markings.
21. The behavior of Heteroptera can vary significantly between species.
22. Some Heteroptera are known to be migratory.
23. The predatory habits of Heteroptera can affect pest populations.
24. Understanding the biology of Heteroptera is crucial for pest management.
25. Not all Heteroptera are harmful to crops.
26. The camouflage of Heteroptera helps them evade predators.
27. The impact of Heteroptera on agriculture is a key area of study.
28. Many Heteroptera have fascinating adaptations for survival.
29. The classification of Heteroptera has evolved with new findings.
30. The feeding mechanism of Heteroptera is quite specialized.
31. Some species of Heteroptera are used in biological control.
32. The habitat preferences of Heteroptera can inform conservation efforts.
33. The Heteroptera show a wide range of body sizes.
34. Many Heteroptera engage in mutualistic relationships with plants.
35. The lifecycle of Heteroptera can be influenced by environmental conditions.
36. The presence of Heteroptera can indicate ecosystem health.
37. Some Heteroptera are adapted to arid environments.
38. The coloration of Heteroptera can serve as a warning to predators.
39. The feeding patterns of Heteroptera can affect plant health.
40. The distribution of Heteroptera is global, with many species in diverse habitats.
41. Research on Heteroptera has implications for biodiversity.
42. Insects that are not Heteroptera may have different ecological roles.
43. The evolutionary history of Heteroptera is still being explored.
44. The study of Heteroptera contributes to our understanding of insect evolution.
45. Some Heteroptera can produce toxins to defend against predators.
46. The social behavior of Heteroptera is an interesting area of research.
47. The role of Heteroptera in pollination is not well understood.
48. The anatomy of Heteroptera is adapted for their unique lifestyle.
49. The ecology of Heteroptera is an important focus for entomologists.
50. Some Heteroptera are known to be vectors of plant diseases.
51. The interaction between Heteroptera and their prey can be complex.
52. The role of Heteroptera in nutrient cycling is worth studying.
53. Many Heteroptera are capable of camouflage.
54. The conservation of Heteroptera habitats is essential for maintaining biodiversity.
55. The behavior of Heteroptera can change with seasons.
56. The impact of climate change on Heteroptera populations is a growing concern.
57. Certain Heteroptera are known for their migratory patterns.
58. The study of Heteroptera contributes to our understanding of ecosystem dynamics.
59. Some Heteroptera can synthesize substances to deter predators.
60. The diversity of Heteroptera creates challenges for classification.
61. The feeding habits of Heteroptera can affect plant community structure.
62. The study of Heteroptera helps in understanding co-evolution with plants.
63. Many Heteroptera have unique adaptations for their environments.
64. The reproductive strategies of Heteroptera vary widely.
65. The study of Heteroptera can provide insights into pest management.
66. Some Heteroptera have specialized diets that influence their ecology.
67. The interaction of Heteroptera with other species is crucial for ecosystem balance.
68. The morphology of Heteroptera is closely linked to their feeding habits.
69. Many Heteroptera are important indicators of environmental change.
70. The life history strategies of Heteroptera can be diverse.
71. The role of Heteroptera in decomposition processes is significant.
72. Understanding Heteroptera behavior can improve pest control methods.
73. Some Heteroptera have been used in traditional medicine.
74. The feeding strategies of Heteroptera can vary by species.
75. The impact of urbanization on Heteroptera is an area of concern.
76. The study of Heteroptera can aid in understanding agricultural ecosystems.
77. Some Heteroptera exhibit parental care behaviors.
78. The role of Heteroptera in the food web is vital for ecosystem health.
79. Certain Heteroptera are known for their interesting courtship displays.
80. The ecological niches occupied by Heteroptera are diverse.
81. The morphological adaptations of Heteroptera enhance their survival.
82. The importance of Heteroptera in pest ecology cannot be overstated.
83. Some Heteroptera have developed resistance to pesticides.
84. The interaction between Heteroptera and their environment is complex.
85. The behavior of Heteroptera can be influenced by environmental stressors.
86. The study of Heteroptera is essential for understanding insect diversity.
87. Many Heteroptera are nocturnal and have specialized adaptations.
88. The ecological roles of Heteroptera can vary across different ecosystems.
89. Some Heteroptera are known to form symbiotic relationships with fungi.
90. The diet of Heteroptera can influence their population dynamics.
91. The presence of Heteroptera in an ecosystem can indicate its health.
92. Certain Heteroptera species are known for their rapid reproduction.
93. The interaction between Heteroptera and other insect groups is complex.
94. Many Heteroptera play a role in pest regulation.
95. The study of Heteroptera is crucial for sustainable agriculture.
96. Some Heteroptera have been found to possess unique chemical defenses.
97. The conservation of Heteroptera habitats is important for biodiversity.
98. The behavioral patterns of Heteroptera can provide insights into their ecology.
99. The ecological impact of Heteroptera is significant in agroecosystems.
100. Understanding the biology of Heteroptera is essential for ecological research.