A recent study has shed light on how the Moon’s movements influence the sounds emanating from coral reefs, providing valuable insights into ecosystem activity. Researchers discovered that as the Moon rises and sets, the soundscape of coral reefs undergoes rapid changes, indicating shifts in ecosystem interactions.
Conducted by scientists from the Naval Undersea Warfare Center (NUWC) and the Advanced Research Projects Agency – Energy (ARPA-E) in the US, the study monitored three different coral reef sites off the west coast of Hawaii. Using hydrophones, they captured one-minute snapshots of the underwater soundscape at regular intervals over two years.
The findings revealed that high-frequency pulse train sounds from fish increased during moonlit hours, while low-frequency fish vocalizations and invertebrate sounds decreased during the same period. These fluctuations suggest that lunar phases trigger regular alterations in coral reef ecosystem dynamics.
Although the study didn’t delve into the specific implications of these sound variations, a louder coral reef typically indicates a thriving ecosystem with more organisms and feeding activities.
Acoustic monitoring offers a non-invasive method for assessing coral reef health, enabling long-term tracking of ecosystem activity in remote locations where traditional monitoring methods may be impractical.
The observed changes in biological sound were attributed to lunar light levels rather than tidal variations, highlighting the importance of considering lunar phases in conservation efforts. Understanding these moonlight patterns could aid in attracting fish to reefs and comparing reef health across different locations.
Future research may focus on mapping the relationship between audio variations and other indicators of coral reef health, providing early warnings of ecosystem shifts and guiding conservation strategies in the face of global warming.
Overall, this study underscores the significant role of the Moon in shaping coral reef dynamics and emphasizes the importance of incorporating lunar phases into conservation efforts to safeguard these vital marine ecosystems.
Edited by Dr. Brijendra Kumar Mishra, (Disaster Risk Reduction Expert)