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100 Examples of sentences containing the common noun "psammon"

Definition

Psammon refers to a community of organisms that inhabit the interstitial spaces of sand or sediment, often found in freshwater or marine environments. It typically includes a variety of microscopic organisms, such as bacteria, protozoa, and small invertebrates, that play a crucial role in nutrient cycling and ecosystem functioning.

Synonyms

  • Sand community
  • Interstitial fauna
  • Microbial assemblage

Antonyms

  • Pelagic zone (referring to open water)
  • Benthic zone (referring to the bottom of a water body)

Examples

  1. The researchers found that the psammon was teeming with life.
  2. Sampling the psammon revealed a diverse array of microorganisms.
  3. Many species rely on the psammon for their habitat.
  4. The health of the psammon is indicative of overall ecosystem health.
  5. During low tide, the psammon becomes exposed to air.
  6. The study focused on the interactions within the psammon.
  7. Scientists observed how pollutants affect the psammon.
  8. The psammon serves as a crucial food source for larger organisms.
  9. Researchers discovered a new species within the psammon.
  10. The psammon plays a vital role in sediment nutrient recycling.
  11. Changes in the psammon population can indicate changes in water quality.
  12. The psammon is often overlooked in ecological studies.
  13. Disturbances in the psammon can lead to biodiversity loss.
  14. The composition of the psammon varies with sediment type.
  15. The psammon is a key component of the benthic ecosystem.
  16. Sampling techniques for the psammon require precision.
  17. The psammon can provide insights into environmental changes.
  18. Some organisms within the psammon are extremophiles.
  19. The psammon is an important research area for ecologists.
  20. Seasonal variations affect the diversity of the psammon.
  21. The psammon can be impacted by human activities.
  22. A healthy psammon is crucial for water filtration systems.
  23. The psammon supports a wide range of life forms.
  24. Observing the psammon can reveal complex ecological interactions.
  25. The psammon is essential for understanding nutrient dynamics.
  26. Many invertebrates rely on the psammon for reproduction.
  27. The psammon acts as a buffer against environmental changes.
  28. The study of the psammon is vital for conservation efforts.
  29. The psammon can be found in both freshwater and marine environments.
  30. Collecting samples from the psammon requires specialized equipment.
  31. The psammon hosts a variety of microbial life.
  32. Some species are endemic to the psammon habitat.
  33. The psammon is affected by sedimentation rates in the environment.
  34. The ecological role of the psammon is still being explored.
  35. The psammon can indicate the presence of certain pollutants.
  36. The diversity in the psammon reflects the health of the ecosystem.
  37. Many microorganisms within the psammon are capable of bioremediation.
  38. The psammon offers a unique view into sedimentary environments.
  39. The dynamics of the psammon are influenced by seasonal changes.
  40. The psammon can serve as a model for studying ecosystem processes.
  41. The psammon is an important part of the food web.
  42. Observations of the psammon can lead to discoveries of new species.
  43. The psammon may host organisms that adapt to extreme conditions.
  44. The psammon is often used in bioassessments of water quality.
  45. The psammon provides habitat for various microinvertebrates.
  46. The structure of the psammon can reveal historical ecological conditions.
  47. The psammon is often rich in organic matter.
  48. The psammon is affected by anthropogenic impacts.
  49. Understanding the psammon can help in habitat restoration efforts.
  50. The psammon serves as a refuge for some species during extreme conditions.
  51. The interactions within the psammon can be quite complex.
  52. The psammon is characterized by its high surface area.
  53. Different sediment types lead to variations in the psammon community.
  54. The psammon is crucial for understanding sediment-water interactions.
  55. The psammon can be a hotspot for microbial activity.
  56. The presence of pollutants can disrupt the psammon community.
  57. The psammon is often studied in the context of climate change.
  58. The psammon can be used as an indicator of ecosystem health.
  59. The psammon is home to many species that are yet to be described.
  60. The psammon supports a variety of trophic levels.
  61. The psammon can experience rapid changes due to environmental shifts.
  62. The study of the psammon has implications for water management.
  63. The psammon is critical for maintaining biodiversity in aquatic systems.
  64. The psammon can demonstrate the effects of habitat fragmentation.
  65. Many organisms within the psammon are key players in nutrient cycling.
  66. The psammon is often a subject of ecological modeling.
  67. The psammon can help scientists understand sediment dynamics.
  68. The psammon may harbor species with unique adaptations.
  69. Studying the psammon can provide insights into ecological resilience.
  70. The psammon serves as a laboratory for studying evolutionary processes.
  71. The psammon can reveal the impact of invasive species.
  72. The psammon is a critical area for microbial ecology research.
  73. The psammon can be sensitive to changes in hydrology.
  74. The psammon is often underestimated in ecological assessments.
  75. The psammon is a key focus for future research initiatives.
  76. The psammon can influence the chemical composition of sediment.
  77. The psammon may play a role in carbon cycling.
  78. The psammon can be affected by temperature fluctuations.
  79. The psammon offers a glimpse into the hidden world of sediments.
  80. The psammon is a vital component of estuarine ecosystems.
  81. The psammon supports a diverse range of microbial activities.
  82. The psammon can serve as a model for studying ecological interactions.
  83. The psammon experiences competition among its inhabitants.
  84. The psammon can provide insights into ancient ecosystems.
  85. The psammon is often studied in relation to sediment transport.
  86. The psammon can act as a bioindicator for environmental monitoring.
  87. The psammon is essential for understanding ecological processes.
  88. The psammon can reveal patterns of species distribution.
  89. The psammon is a critical area for habitat assessment.
  90. The psammon may reveal the impacts of climate variability.
  91. The psammon can demonstrate the effects of nutrient loading.
  92. The psammon is an important aspect of sedimentology.
  93. The psammon can be affected by land use changes.
  94. The psammon is crucial for understanding ecosystem dynamics.
  95. The psammon can reveal interactions between sediment and water.
  96. The psammon may host organisms with biotechnological potential.
  97. The psammon is an important area for conservation efforts.
  98. The psammon can be sensitive to pollution levels.
  99. The psammon plays a role in water clarity and quality.
  100. The psammon is a fascinating area for scientific exploration.
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