Sardinella fish (Sardinella lemuru) is a species of important pelagic fish from the family of Clupeidae found in Bali Strait. The dynamic condition of Bali Strait makes it fertile which is identical with plankton blooming. The objective of this research was to understand the potential of saxitoxin in sardinella fish because of dinoflagellates consumption in Bali Strait. The research was conducted in Southeast Monsoon (June - August 2015) and Northwest Monsoon (December 2015 – February 2016). The method used was in situ plankton sampling, counting and ELISA test to determine the level of saxitoxin in the fish. Hydro-oceanographic parameters measured were temperatures, salinity, DO (dissolved oxygen), pH level, phosphate level, nitrate level and transparency. They showed average optimum value for phytoplankton growth especially during Southeast Monsoon which its temperature lower and the nutrients (phosphate nitrate) higher than the Northwest Monsoon. This condition caused high richness of phytoplankton in the water and followed with dinoflagellates richness so they accumulated in sardinella fish. It was supported by the analysis of the fish gastric which showed positive correlation between dinoflagellates richness in the water and the fish gastric. ELISA test also showed that saxitoxin level of fish caught in Southeast Monsoon was higher than the one caught in Northwest Monsoon even though the level of saxitoxin was still in the safe range (less than 80 μg STXeq. per 100 g) but the danger of saxitoxin accumulation should be watched out for.

American Public Health Association (APHA). 1989. Standard Methods for the Examination of Water and Waste Water Including Bottom Sediment and Sludges. 17th ed. Amer. Publ. Health Association Inc., New York. 1527 p.

Ashley M. Y. L., Peter K. N. Y., Dennis P. H. H., Wang W. X., Rudofl S. S. W., and Paul K. S. M. 2005. Uptake and depuration of paralytic shellfish toxins in the greenlipped mussel, Perna viridis: a dynamic model. Environ. Toxycol. Chem. 24 (1): 129-135.

Badan Standardisasi Nasional (BSN). 2009. Standar Nasional Indonesia, SNI 3460. 1: 2009. Tentang Daging Kerang Beku Bagian 1: Spesifikasi.

Cbwinfo. 2009. Saxitoxin Essential Data. http:// www.cbwinfo.com/Biological/Toxins/Saxitoxin.html. Diakses pada tanggal 5 Juni 2009.

Corrales, R. A. and Maclean, J. L. 2000. Receptor binding assay technique for harmful algal bloom toxins quantification: Reference manual UNDP/IAEA/RCA/Subproject 2.4. application of nuclear techniques to address specific harmful algal bloom concerns. RRU Philippine Nuclear Research Institute PNRI, Philippines.

Dam H., Colin S., Haley S., Avery D., Chen L., and Zhang H. 2009. Copepod resistance to toxic Pyhtoplankton. http://www.pices.int/publications/presentations/Zoopl%202007/ Zoop%202007%20S3/S3_Dam.pdf. Diakses pada tanggal 28 April 2010.

Dinas Peternakan, Perikanan dan Kelautan DKI Jakarta (Dinas Nakala). 2006. Kajian Eksistensi Budidaya Kerang Hijau di Teluk Jakarta. CV. Srikandi Utama Konsultan, Jakarta.

EFSA (European Food Safety Authority). 2009. Scientific Opinion of the Panel on Contamination in the Food Chain, Marine biotoxin in shellfish-Saxitoxin Group. http://www.efsa.europa.eu/EFSA/Scientific_Opinion /contam-op-ej1019-saxitoxin-marine-saxitoxin.pdf. Diakses pada tanggal 3 Desember 2009

FAO. 2004. Marine Toxin. Food and agriculture organization of the United Nations. http://www.fao.org/docrep/. Diakses pada tanggal 11 April 2011.

Hallegraeff, G. 1993. A review of harmful alga blooms and their apparent global increase. Phycologia. 32: 79–99.

Lusiastuti, A. M. 2003. Metode Deteksi Toksin Alga Laut dan Kejadiannya pada Kekerangan dan Ikan. Disertasi Sekolah Pascasarjana IPB. Bogor.

Mulyasari, Peranginangin, R., Suryaningrum, T.D. danSari, A. 2003. Penelitian mengenal keberadaan biotoksin pada biota dan lingkungan perairan Teluk Jakarta. Jurnal Penelitian Perikanan Indonesia. 9 (5): 39–64.

Siregar, B. A. 2002. Studi kelimpahan, distribusi, dan struktur komunitas fitoplankton di perairan Teluk Jakarta. Skripsi Institut Pertanian Bogor (IPB). Bogor.

Sutomo. 1993. Kejadian red tide dan kematian massal udang jerbung dan udang windu dalam budidaya jaring apung di muara Sungai Kramat Kebo, Teluk Naga, Tangerang. Prosiding Simposium Perikanan Indonesia Satu, Bidang Sumber Daya Perikanan dan Penangkapan. Jakarta.

Thoha, H., Adnan, Q., Sidabutar, T., and Sugestiningsih. 2007. Note on the occurrence of phytoplankton and its relation with mass mortality in the Jakarta Bay, May and November 2004. Makara Sains. 11 (2): 63- 67.

Wang, J. H. and Wu, J. Y. 2006. Marine algal toxins in shellfish from Shanghai markets and original sources following a large scale red tide occurrence. Bull. Environ. Contam. Toxicol. 77: 164–170

Widiarti, R. 2004. Keberadaan kista dari jenis mikroalga berbahaya di Teluk Lampung. http://cdc.eng.ui.ac.id/article/articleprint/1505/-1/25/. Diakses pada 23 Januari 2009.