By applying advanced AI-powered multi-algorithm detection methods to identify toxic underwater air bubbles and assess water pollution based on chemical water quality tests, we can achieve to:

🐠📡💧📊 employ ultrasonic imaging as a nondestructive inspection method to identify air gaps and assess water pollution consecutively to find any underlying conditions of accumulating harmful underwater waste,

🐠📡💧📊 prevent contaminants from impinging on aquatic life,

🐠📡💧📊 avert algal blooms, hypoxia (dead zones), and expanding barren lands,

🐠📡💧📊 detect the surge of toxic air bubbles to preclude potential environmental hazards,

🐠📡💧📊 assist commercial aquaculture facilities in protecting aquatic life acclimatized to the enclosed water bodies,

🐠📡💧📊 help retail fish farms increase their profit and survival rates.

[1] Ocean pollution and marine debris, National Oceanic and Atmospheric Administration, https://www.noaa.gov/education/resource-collections/ocean-coasts/ocean-pollution.

[2] Engler, Richard. (2012). The Complex Interaction between Marine Debris and Toxic Chemicals in the Ocean. Environmental science & technology. https://www.researchgate.net/publication/232609179_The_Complex_Interaction_between_Marine_Debris_and_Toxic_Chemicals_in_the_Ocean.