Bioluminescent Bacteria in Squid Ink (Photololigo Duvaucelii) as a Potential Water Pollution Indicator at Selected Areas in Dasmariñas, Cavite
Document Types
Paper Presentation
School Name
De La Salle Medical and Health Sciences Institute Special Health Senior High School
Track or Strand
Science, Technology, Engineering, and Mathematics (STEM)
Research Advisor (Last Name, First Name, Middle Initial)
Cueno, Pauline L.
Start Date
25-6-2025 1:00 PM
End Date
25-6-2025 2:30 PM
Zoom Link/ Room Assignment
Meeting Link: https://zoom.us/j/97401420760?pwd=zSWApqlDXbgd2OJcNw1hbFYXrUQS5T.1 Meeting ID: 974 0142 0760 Passcode: 310300
Abstract/Executive Summary
Bioluminescent bacteria are light-emitting microorganisms that are commonly found among marine species. In this study, bioluminescent bacteria were isolated from squid samples and submerged in selected water samples from Ylang-Ylang River and Dasmariñas Zone I River in Dasmariñas, Cavite, to determine whether it can be a potential water pollution indicator based on its bioluminescence intensity. The squid ink extracted from 6 squid samples was streaked on marine agar plates and incubated for 24 hours. The microplates were filled with 0.75 μL bioluminescent bacteria and 0.75 μL of polluted water samples and sterile water per three rows, where the light intensities were measured from 450 nm to 600 nm using a microplate reader. The results showed a significant relationship between the bioluminescence intensity and water pollution. Based on the findings, the Dasmariñas Zone I River had a mean of 0.090 (p< 0.05) compared to sterile water with 0.092 (p< 0.05), which exhibited a decrease in bioluminescence intensity as the water became more polluted. Meanwhile, the Ylang-Ylang River had a mean of 0.170 (p< 0.05) compared to sterile water with 0.134 (p< 0.05), which exhibited an increase in bioluminescence intensity as the water became less polluted. Therefore, the bioluminescent bacteria were a possible bioindicator of water pollution. Future research may conduct analysis on other water parameters to identify their significant relationship to the increase of the bioluminescent bacteria.
Keywords
Bioindicator; Bioluminescent Bacteria; Light Intensity; Squids, Water pollution
Research Theme (for Paper Presentation and Poster Presentation submissions only)
Sustainability, Environment, and Energy (SEE)
Initial Consent for Publication
yes
Statement of Originality
yes
Bioluminescent Bacteria in Squid Ink (Photololigo Duvaucelii) as a Potential Water Pollution Indicator at Selected Areas in Dasmariñas, Cavite
Bioluminescent bacteria are light-emitting microorganisms that are commonly found among marine species. In this study, bioluminescent bacteria were isolated from squid samples and submerged in selected water samples from Ylang-Ylang River and Dasmariñas Zone I River in Dasmariñas, Cavite, to determine whether it can be a potential water pollution indicator based on its bioluminescence intensity. The squid ink extracted from 6 squid samples was streaked on marine agar plates and incubated for 24 hours. The microplates were filled with 0.75 μL bioluminescent bacteria and 0.75 μL of polluted water samples and sterile water per three rows, where the light intensities were measured from 450 nm to 600 nm using a microplate reader. The results showed a significant relationship between the bioluminescence intensity and water pollution. Based on the findings, the Dasmariñas Zone I River had a mean of 0.090 (p< 0.05) compared to sterile water with 0.092 (p< 0.05), which exhibited a decrease in bioluminescence intensity as the water became more polluted. Meanwhile, the Ylang-Ylang River had a mean of 0.170 (p< 0.05) compared to sterile water with 0.134 (p< 0.05), which exhibited an increase in bioluminescence intensity as the water became less polluted. Therefore, the bioluminescent bacteria were a possible bioindicator of water pollution. Future research may conduct analysis on other water parameters to identify their significant relationship to the increase of the bioluminescent bacteria.
https://animorepository.dlsu.edu.ph/conf_shsrescon/2025/paper_see/27
