Preliminary Results On The Use Of Clay To Control Pyrodinium Bloom - A Mitigation Strategy
The frequent and expanded occurrence of Pyrodinium bahamense var compressum blooms in thePhilippines since 1983 has prompted the need to find mechanisms to control the harmful effects of thesetoxic dinoflagellates. A promising method now being explored is the use of powdered clay mineralswhich wh...
| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
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University of the Philippines
2006-06-01
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| Series: | Science Diliman |
| Subjects: | |
| Online Access: | http://journals.upd.edu.ph/index.php/sciencediliman/article/view/66/18 |
| Summary: | The frequent and expanded occurrence of Pyrodinium bahamense var compressum blooms in thePhilippines since 1983 has prompted the need to find mechanisms to control the harmful effects of thesetoxic dinoflagellates. A promising method now being explored is the use of powdered clay mineralswhich when added to the growth media is capable of flocculating with the algal cells. In this study, theefficiency of ball clay, brown bentonite, and Malampaya Sound sediments to remove Pyrodinium cellsin seawater was tested. The addition of 1 g/L of suspended ball clay to 50 mL of cultured Pyrodiniumcells (~1.037 x106 cells/L) removed 99.56% of the algal cells after 2.5 hours. Prolonging the exposuretime to 5 and 24 hours showed no significant increase in flocculation. Brown bentonite and MalampayaSound sediments showed low to moderate removal efficiency not exceeding 70% and 50%, respectively.The effect of ball clay addition on seawater chemistry showed no change in ammonia concentration butnitrate decreased after 5 and 24 hours of clay addition. Results for nitrite and phosphate were howevermore variable. |
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| ISSN: | 0115-7809 2012-0818 |